This readme.txt file was generated on 20241120 by Kristine Q. Loh Recommended citation for the data: ------------------- GENERAL INFORMATION ------------------- 1. Supporting Data for Design Guidelines for Luminescent Solar Concentrator Greenhouses in the United States 2. Author Information Principal Investigator Contact Information Name: Vivian E. Ferry Institution: University of Minnesota Address: 421 Washington Ave SE, Minneapolis, MN 55455 Email: veferry@umn.edu ORCID: https://orcid.org/0000-0002-9676-6056 Co-Principal Investigator Contact Information Name: Uwe R. Kortshagen Institution: Univeristy of Minnesota Address: 111 Church St SE, Minneapolis, MN 55455 Email: korts001@umn.edu ORCID: https://orcid.org/0000-0001-5944-3656 Associate or Co-investigator Contact Information Name: Nathan J. Eylands Institution: University of Minnesota Address: 1970 Folwell Ave, St Paul, MN 55108 Email: neylands@umn.edu ORCID: https://orcid.org/0000-0002-4725-0088 Associate or Co-investigator Contact Information Name: Kale Harbick Institution: U.S. Department of Agriculture, Application Technology Research Unit Address: 2801 W. Bancroft St, Toledo, OH 43606 Email: Kale.Harbick@usda.gov ORCID: N/A Associate or Co-investigator Contact Information Name: Kristine Q. Loh Institution: University of Minnesota Address: 421 Washington Ave SE, Minneapolis, MN 55455 Email: loh00014@umn.edu ORCID: https://orcid.org/0000-0001-5205-157X 3. Date published or finalized for release: 4. Date of data collection (single date, range, approximate date) 20240601 - 20240724 5. Geographic location of data collection (where was data collected?): Minneapolis, MN, USA 6. Information about funding sources that supported the collection of the data: K.Q.L. was partially supported by the National Science Foundation Graduate Research Fellowship under grant no. 2237827 and received support from the University of Minnesota under the Ronald L. and Janet A. Christenson Chair in Renewable Energy. 7. Overview of the data (abstract): Agrivoltaic greenhouses combine controlled environment agriculture and photovoltaics in one plot of land to simultaneously address the global challenges of renewable energy and sustainable food production. Luminescent solar concentrators (LSCs) can benefit these systems by providing additional design flexibility, granting the ability to tune light transmission for plant growth while generating electricity. Herein, we determine design guidelines for the implementation of LSCs in agrivoltaic greenhouses given the two competing priorities of light used for crop yield or for energy generation. Using a comprehensive model, we evaluate the impact of LSC design choices on the greenhouse environment, energy generation, crop yield, and economic value in 48 locations across the contiguous United States. We show the PV coverage ratio and the greenhouse’s heating demands determine the energy offset provided by the LSC. For improving crop yield, luminophore selection should maximize transmitted red light. We demonstrate the sensitivity of the economic value to crop yield, thus dictating luminophore selection for optimizing plant growth. Based on current project technology costs, LSC greenhouses are as profitable as conventional greenhouses generally for states below 40 °N. Future improvements to LSC manufacturing may allow previously unprofitable LSC greenhouses to become economically viable in northern states. This work showcases the broad design space for LSCs in agrivoltaic systems and the strong potential of integrating LSCs into greenhouses. -------------------------- SHARING/ACCESS INFORMATION -------------------------- 1. Licenses/restrictions placed on the data: N/A 2. Links to publications that cite or use the data: N/A 3. Terms of Use: Data Repository for the U of Minnesota (DRUM) By using these files, users agree to the Terms of Use. https://conservancy.umn.edu/pages/policies/#drum-terms-of-use --------------------- DATA & FILE OVERVIEW --------------------- 1. File List A. Filename: Figure 1.csv Short description: This file contains the data that was used to generate Figure 1. Figure 1 was a schematic of the system with an inset that showed the absorbance and photoluminescence of copper indium sulfide/zinc sulfide (CIS/ZnS) quantum dots, lumogen red 305 (LR305) dye, and silicon (Si) quantum dots as a function of wavelength. B. Filename: Figure 2.csv Short description: This file contains the data that was used to generate Figure 2. Figure 2 showed the annual energy generation for CIS/ZnS, LR305, and Si LSC greenhouses in (a) Arizona (AZ), (b) Florida (FL), (c) Minnesota (MN), and (d) Pennsylvania (PA) as a function of luminophore optical density at 450 nm for both LSC sizes (8 cm x 8 cm and 16 cm x 16 cm). This file contains the total energy demand and the annual energy generated as a function of the luminophore optical density in separate columns. The luminophore concentration and absorbed solar fraction are related to the optical density and are shown as reference data as well. C. Filename: Figure 3.csv Short description: This file contains the data that was used to generate Figure 3. Figure 3(a) showed the shade cloth transmittance that was chosen for varying Si optical density in 8 cm x 8 cm LSC greenhouses in AZ alongside the resulting average annual eDLI. Figure 3(b) showed the corresponding annual fresh weight. Inputs and outputs for the conventional greenhouse were plotted as circular markers at an optical density of 0 as a reference. D. Filename: Figure 4.csv Short description: This file contains the data that was used to generate Figure 4. Figure 4 showed the annual fresh weight as a function of luminophore optical density at 450 nm for both 8 cm x 8 cm (solid lines) and 16 cm x 16 cm (dashed lines) LSC greenhouses in (a) AZ and (b) MN. Annual fresh weights for the conventional greenhouses in each location were plotted as black circles at OD450 of 0 for reference. LSC greenhouses that required shade cloths with 100% transmittance were plotted in a lighter shade. E. Filename: Figure 5.csv Short description: This file contains the data that was used to generate Figure 5. Figure 5 showed the relative net present value (NPV) as a function of both cost of metering and lettuce price for greenhouses in FL (a) – (c) and PA (d) – (f). (a) and (d) showed the relative NPV for 16 cm x16 cm LSC greenhouses at the optical density that resulted in the most lettuce production. (b) and (e) showed the relative NPV for 8 cm x 8 cm LSC greenhouses at the optical density that resulted in the most lettuce production as well. (c) and (f) showed the relative NPV at the optical density that resulted in the most energy production. Red, orange, and brown markers indicated results for LR305, CIS/ZnS, and Si greenhouses, respectively. F. Filename: Figure 6.csv Short description: This file contains the data that was used to generate Figure 6. Figure 6 showed the greenhouses that were the most profitable in 48 locations across the continental United States at (a) base case and (b) improved LSC assumptions regarding LSC pricing and lifetime. If the optimum greenhouse was a conventional one, the data as plotted as a star. Otherwise, the data was plotted with a circle, a square, or a triangle for LR305, CIS/ZnS, or Si LSC greenhouses, respectively. The color of the marker corresponded to the luminophore's optical density, with brighter colors matching higher optical densities. G. Filename: Figure S1.csv Short description: This file contains data that was used to generate Figure S1. Figure S1 showed example transmitted spectra under roofs using CIS/ZnS QD (orange), LR305 (red), and Si QD (brown) films compared to the incident solar spectrum (black). H. Filename: Figure S3.csv Short description: This file contains data that was used to generate Figure S3. Figure S3 showed shade transmittances selected for each representative location for both conventional and LSC greenhouses using (a) CIS/ZnS, (b) LR305, and (c) Si as the luminophore. Conventional greenhouse data is plotted at an optical density of zero as a reference. I. Filename: Figure S4.csv Short description: This file contains data that was used to generate Figure S4. Figure S4 showed calculated eDLI values for all simulated greenhouses in AZ, with the target eDLI marked with a dashed line. The black line depicted the eDLI for the conventional greenhouse, while the colored lines showed the eDLI for LSC greenhouses, with darker reds indicating LSC roofs with higher concentrations. J. Filename: Figure S5.csv Short description: This file contains data that was used to generate Figure S5. Figure S5 showed calculated eDLI values for all simulated greenhouses in FL with the target eDLI marked with a dashed line. The black line depicted the eDLI for the conventional greenhouse, while the colored lines showed the eDLI for LSC greenhouses, with darker reds indicating LSC roofs with higher concentrations. K. Filename: Figure S6.csv Short description: This file contains data that was used to generate Figure S6. Figure S6 showed calculated eDLI values for all simulated greenhouses in MN with the target eDLI marked with a dashed line. The black line depicted the eDLI for the conventional greenhouse, while the colored lines showed the eDLI for LSC greenhouses, with darker reds indicating LSC roofs with higher concentrations. L. Filename: Figure S7.csv Short description: This file contains data that was used to generate Figure S7. Figure S7 showed calculated eDLI values for all simulated greenhouses in PA with the target eDLI marked with a dashed line. The black line depicted the eDLI for the conventional greenhouse, while the colored lines showed the eDLI for LSC greenhouses, with darker reds indicating LSC roofs with higher concentrations. M. Filename: Figure S8.csv Short description: This file contains data that was used to generate Figure S8. Figure S8 showed total energy demands in black and the fraction of the total energy demand from heating in red for 8 x 8 cm LSC greenhouses in (a) AZ, (b), FL, (c) MN, and (d) PA. Stars represented data for the conventional greenhouses (plotted at an optical density of zero for reference), while squares, circles, and triangles represented data for CIS/ZnS, LR305, and Si LSC greenhouses, respectively. N. Filename: Figure S9.csv Short description: This file contains data that was used to generate Figure S9. Figure S9 showed total energy demands in black and the fraction of the total energy demand from heating in red for 16 cm x 16 cm LSC greenhouses in (a) AZ, (b), FL, (c) MN, and (d) PA. Stars represented data for the conventional greenhouses (plotted at an optical density of zero for reference), while squares, circles, and triangles represented data for CIS/ZnS, LR305, and Si LSC greenhouses, respectively. O. Filename: Figure S10.csv Short description: This file contains data that was used to generate Figure S10. Figure S10 showed annual fresh weight as a function of luminophore optical density at 450 nm for both 8 cm x 8 cm (solid lines) and 16 cm x 16 cm (dashed lines) LSC greenhouses in (a) AZ, (b) FL, (c) MN, and (d) PA. Annual fresh weights for the conventional greenhouses in each location were plotted as black circles at OD450 of 0 for reference. LSC greenhouses that required shade cloths with 100% transmittance were plotted in a lighter shade. P. Filename: Figure S11.csv Short description: This file contains data that was used to generate Figure S11. Figure S11 showed annual average red fractions as a function of luminophore optical density at 450 nm for both 8 cm x 8 cm (solid lines) and 16 cm x 16 cm (dashed lines) LSC greenhouses in (a) AZ, (b) FL, (c) MN, and (d) PA. Annual average red fractions equal to 0.2843 for the conventional greenhouses in each location are plotted as black circles at OD450 of 0 for reference. Q. Filename: Figure S12.csv Short description: This file contains data that was used to generate Figure S12. Figure S12 showed annual average vegetable temperatures as a function of luminophore optical density at 450 nm for both 8 cm x 8 cm (solid lines) and 16 cm x 16 cm (dashed lines) LSC greenhouses in (a) AZ, (b) FL, (c) MN, and (d) PA. Annual average vegetable temperatures for the conventional greenhouses in each location were plotted as black circles at OD450 of 0 for reference. R. Filename: Figure S13.csv Short description: This file contains data that was used to generate Figure S13. Figure S13 showed the greenhouses that produced the most lettuce in 48 locations across the continental United States. If the optimum greenhouse was a conventional one, the data was plotted as a star. Otherwise, the data was plotted with a circle, a square, or a triangle for LR305, CIS/ZnS, or Si LSC greenhouses, respectively. The color of the marker corresponded to the luminophore’s optical density, with brighter colors matching higher optical densities. S. Filename: US Map Shade T.csv Short description: This file contains data that was used to run the simulations that resulted in data shown in Figures 6 and S13. To modulate the extended daily light integral, shade cloth transmittances were manually chosen in step sizes of 0.01%. Each simulated greenhouse's chosen shade cloth transmittance is included in this file. 2. Relationship between files: All files were used to generate the figures in the article. -------------------------- METHODOLOGICAL INFORMATION -------------------------- 1. Description of methods used for collection/generation of data: The spectra in Figure 1 were retrieved from Liu, Y., et al, Adv. Sustain. Syst., 7, 8, 2300107 (2023), ten Kate, O. , et al., Appl. Opt., 53, 23, pp. 5238-5245 (2014), and Parrish, C., et al., Commun. Biol., 4, 124 (2021). These spectra were used to generate Figure S1 as well. The energy and temperature data in Figures 2, S8, S9, and S12 were calculated using an adapted model reported in Liu, Y., et al, Adv. Sustain. Syst., 7, 8, 2300107 (2023) as well. The daily light integral data and lettuce yield data were calculated using adapted models reported in Albright, L., et al., Transactions of the ASAE, 43, 2, pp. 421-431 (2000) and Abedi, M., et al., Front. Plant Sci., 14 (2023), respectively. These calculations appear in Figures 3, 4, S3 - S7, S10, S11, and S13 as well. The economic data in Figures 5 and 6 were calculated using an adapted model reported in Hollingsworth, J., et al., J. Ind. Ecol., 24, 1, pp. 234 - 247 (2019). All calculations were conducted in MATLAB R2022a. 2. Methods for processing the data: The data was processed using in-built scripts in MATLAB. The relative NPV was calculated using raw data of the NPV for both the conventional and LSC greenhouses. The annual energy demand was calculated by summing the calculated annual heating and cooling demands. 3. Instrument- or software-specific information needed to interpret the data: N/A 4. Standards and calibration information, if appropriate: N/A 5. Environmental/experimental conditions: N/A 6. Describe any quality-assurance procedures performed on the data: N/A 7. People involved with sample collection, processing, analysis and/or submission: Kristine Q. Loh, Kale Harbick, Nathan J. Eylands, Uwe R. Kortshagen, Vivian E. Ferry ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure 1.csv ----------------------------------------- 1. Number of variables: 8 2. Number of cases/rows: 3701 3. Variable List A. Name: Wavelength (nm) Description: Wavelength of light in nanometers B. Name: CIS/ZnS Absorption Coefficient (cm-1) Description: Absorption coefficient of copper indium sulfide/zinc sulfide quantum dots in inverse centimeters. C. Name: CIS/ZnS PL (a.u.) Description: Normalized photoluminescence intensity of copper indium sulfide/zinc sulfide quantum dots normalized to 1 in arbitrary units. D. Name: LR305 Absorption Coefficient (cm-1) Description: Absorption coefficient of lumogen red 305 dye in inverse centimeters. E. Name: LR305 PL (a.u.) Description: Normalized photoluminescence intensity of lumogen red 305 dye normalized to 1 in arbitrary units. F. Name: Si Absorption Coefficient (m-1) Description: Absorption coefficient of silicon quantum dots in inverse meters. G. Name: Si Absorption Coefficient (cm-1) Description: Absorption coefficient of silicon quantum dots in inverse meters. H. Name: Si PL (a.u.) Description: Normalized photoluminescence intensity of silicon quantum dots normalized to 1 in arbitrary units. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure 2.csv ----------------------------------------- 1. Number of variables: 57 2. Number of cases/rows: 20 3. Variable List A. Name: CIS/ZnS Optical density (OD) (-) Description: Unitless optical density of CIS/ZnS quantum dots at 450 nm. B. Name: CIS/ZnS Concentration (wt%) Description: Concentration of CIS/ZnS quantum dots in units of weight percent. C. Name: CIS/ZnS Absorbed Solar Fraction (ASF) (-) Description: Unitless fraction of absorbed sunlight by the CIS/ZnS quantum dots. D. Name: CIS/ZnS Power Generation (PG) in Arizona (AZ) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Arizona with small-area LSCs in units of kilowatt hours per meter squared. E. Name: CIS/ZnS Energy Demand (ED) in Arizona (AZ) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS small-area LSC greenhouses in Arizona in units of kilowatt hours per meter squared. F. Name: CIS/ZnS Power Generation (PG) in Arizona (AZ) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Arizona with large-area LSCs in units of kilowatt hours per meter squared. G. Name: CIS/ZnS Energy Demand (ED) in Arizona (AZ) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS large-area LSC greenhouses in Arizona in units of kilowatt hours per meter squared. H. Name: CIS/ZnS Power Generation (PG) in Florida (FL) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Florida with small-area LSCs in units of kilowatt hours per meter squared. I. Name: CIS/ZnS Energy Demand (ED) in Florida (FL) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS small-area LSC greenhouses in Florida in units of kilowatt hours per meter squared. J. Name: CIS/ZnS Power Generation (PG) in Florida (FL) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Florida with large-area LSCs in units of kilowatt hours per meter squared. K. Name: CIS/ZnS Energy Demand (ED) in Florida (FL) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS large-area LSC greenhouses in Florida in units of kilowatt hours per meter squared. L. Name: CIS/ZnS Power Generation (PG) in Minnesota (MN) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Minnesota with small-area LSCs in units of kilowatt hours per meter squared. M. Name: CIS/ZnS Energy Demand (ED) in Minnesota (MN) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS small-area LSC greenhouses in Minnesota in units of kilowatt hours per meter squared. N. Name: CIS/ZnS Power Generation (PG) in Minnesota (MN) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Minnesota with large-area LSCs in units of kilowatt hours per meter squared. O. Name: CIS/ZnS Energy Demand (ED) in Minnesota (MN) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS large-area LSC greenhouses in Minnesota in units of kilowatt hours per meter squared. P. Name: CIS/ZnS Power Generation (PG) in Pennsylvania (PA) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Pennsylvania with small-area LSCs in units of kilowatt hours per meter squared. Q. Name: CIS/ZnS Energy Demand (ED) in Pennsylvania (PA) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS small-area LSC greenhouses in Pennsylvania in units of kilowatt hours per meter squared. R. Name: CIS/ZnS Power Generation (PG) in Pennsylvania (PA) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in CIS/ZnS greenhouses in Pennsylvania with large-area LSCs in units of kilowatt hours per meter squared. S. Name: CIS/ZnS Energy Demand (ED) in Pennsylvania (PA) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded CIS/ZnS large-area LSC greenhouses in Pennsylvania in units of kilowatt hours per meter squared. T. Name: LR305 Optical density (OD) (-) Description: Unitless optical density of LR305 dye at 450 nm. U. Name: LR305 Concentration (ppm) Description: Concentration of LR305 dye in units of parts per million. V. Name: LR305 Absorbed Solar Fraction (ASF) (-) Description: Unitless fraction of absorbed sunlight by the LR305 dye. W. Name: LR305 Power Generation (PG) in Arizona (AZ) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Arizona with small-area LSCs in units of kilowatt hours per meter squared. X. Name: LR305 Energy Demand (ED) in Arizona (AZ) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 small-area LSC greenhouses in Arizona in units of kilowatt hours per meter squared. Y. Name: LR305 Power Generation (PG) in Arizona (AZ) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Arizona with large-area LSCs in units of kilowatt hours per meter squared. Z. Name: LR305 Energy Demand (ED) in Arizona (AZ) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 large-area LSC greenhouses in Arizona in units of kilowatt hours per meter squared. AA. Name: LR305 Power Generation (PG) in Florida (FL) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Florida with small-area LSCs in units of kilowatt hours per meter squared. AB. Name: LR305 Energy Demand (ED) in Florida (FL) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 small-area LSC greenhouses in Florida in units of kilowatt hours per meter squared. AC. Name: LR305 Power Generation (PG) in Florida (FL) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Florida with large-area LSCs in units of kilowatt hours per meter squared. AD. Name: LR305 Energy Demand (ED) in Florida (FL) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 large-area LSC greenhouses in Florida in units of kilowatt hours per meter squared. AE. Name: LR305 Power Generation (PG) in Minnesota (MN) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Minnesota with small-area LSCs in units of kilowatt hours per meter squared. AF. Name: LR305 Energy Demand (ED) in Minnesota (MN) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 small-area LSC greenhouses in Minnesota in units of kilowatt hours per meter squared. AG. Name: LR305 Power Generation (PG) in Minnesota (MN) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Minnesota with large-area LSCs in units of kilowatt hours per meter squared. AH. Name: LR305 Energy Demand (ED) in Minnesota (MN) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 large-area LSC greenhouses in Minnesota in units of kilowatt hours per meter squared. AI. Name: LR305 Power Generation (PG) in Pennsylvania (PA) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Pennsylvania with small-area LSCs in units of kilowatt hours per meter squared. AJ. Name: LR305 Energy Demand (ED) in Pennsylvania (PA) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 small-area LSC greenhouses in Pennsylvania in units of kilowatt hours per meter squared. AK. Name: LR305 Power Generation (PG) in Pennsylvania (PA) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in LR305 greenhouses in Pennsylvania with large-area LSCs in units of kilowatt hours per meter squared. AL. Name: LR305 Energy Demand (ED) in Pennsylvania (PA) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded LR305 large-area LSC greenhouses in Pennsylvania in units of kilowatt hours per meter squared. AM. Name: Si Optical density (OD) (-) Description: Unitless optical density of Si quantum dots at 450 nm. AN. Name: Si Concentration (wt%) Description: Concentration of Si quantum dots in units of weight percent. AO. Name: Si Absorbed Solar Fraction (ASF) (-) Description: Unitless fraction of absorbed sunlight by the Si quantum dots. AP. Name: Si Power Generation (PG) in Arizona (AZ) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Arizona with small-area LSCs in units of kilowatt hours per meter squared. AQ. Name: Si Energy Demand (ED) in Arizona (AZ) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded Si small-area LSC greenhouses in Arizona in units of kilowatt hours per meter squared. AR. Name: Si Power Generation (PG) in Arizona (AZ) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Arizona with large-area LSCs in units of kilowatt hours per meter squared. AS. Name: Si Energy Demand (ED) in Arizona (AZ) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded Si large-area LSC greenhouses in Arizona in units of kilowatt hours per meter squared. AT. Name: Si Power Generation (PG) in Florida (FL) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Florida with small-area LSCs in units of kilowatt hours per meter squared. AU. Name: Si Energy Demand (ED) in Florida (FL) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded Si small-area LSC greenhouses in Florida in units of kilowatt hours per meter squared. AV. Name: Si Power Generation (PG) in Florida (FL) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Florida with large-area LSCs in units of kilowatt hours per meter squared. AW. Name: Si Energy Demand (ED) in Florida (FL) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded Si large-area LSC greenhouses in Florida in units of kilowatt hours per meter squared. AX. Name: Si Power Generation (PG) in Minnesota (MN) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Minnesota with small-area LSCs in units of kilowatt hours per meter squared. AY. Name: Si Energy Demand (ED) in Minnesota (MN) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded Si small-area LSC greenhouses in Minnesota in units of kilowatt hours per meter squared. AZ. Name: Si Power Generation (PG) in Minnesota (MN) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Minnesota with large-area LSCs in units of kilowatt hours per meter squared. BA. Name: Si Energy Demand (ED) in Minnesota (MN) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded Si large-area LSC greenhouses in Minnesota in units of kilowatt hours per meter squared. BB. Name: Si Power Generation (PG) in Pennsylvania (PA) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Pennsylvania with small-area LSCs in units of kilowatt hours per meter squared. BC. Name: Si Energy Demand (ED) in Pennsylvania (PA) for the 8 cm x 8 cm LSC (kWh/m^2) Description: Annual energy demanded Si small-area LSC greenhouses in Pennsylvania in units of kilowatt hours per meter squared. BD. Name: Si Power Generation (PG) in Pennsylvania (PA) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual power generation by the LSC roof in Si greenhouses in Pennsylvania with large-area LSCs in units of kilowatt hours per meter squared. BE. Name: Si Energy Demand (ED) in Pennsylvania (PA) for the 16 cm x 16 cm LSC (kWh/m^2) Description: Annual energy demanded Si large-area LSC greenhouses in Pennsylvania in units of kilowatt hours per meter squared. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure 3.csv ----------------------------------------- 1. Number of variables: 4 2. Number of cases/rows: 21 3. Variable List A. Name: Optical Density (OD) (-) Description: Unitless optical density of Si quantum dots at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. B. Name: Shade Transmittance (Shade T) (%) Description: The transmittance of the shade cloth used in the greenhouse in units of percent. C. Name: Extended Daily Light Integral (eDLI) (mol/m^2/day) Description: The resulting extended daily light integral in the greenhouse in units of mole per meter squared per day. D. Name: Annual Fresh Weight (FW) (kg/m^2) Description: The annual fresh weight produced by the greenhouse in units of kilograms per meter squared. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure 4.csv ----------------------------------------- 1. Number of variables: 31 2. Number of cases/rows: 21 3. Variable List A. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. B. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. C. Name: CIS/ZnS Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS small-area LSC greenhouse in AZ in units of kilograms per meter squared. D. Name: CIS/ZnS Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a CIS/ZnS small-area LSC greenhouse in AZ in units of percent. E. Name: CIS/ZnS Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS large-area LSC greenhouse in AZ in units of kilograms per meter squared. F. Name: CIS/ZnS Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a CIS/ZnS large-area LSC greenhouse in AZ in units of percent. G. Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. H. Name: LR305 Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 small-area LSC greenhouse in AZ in units of kilograms per meter squared. I. Name: LR305 Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a LR305 small-area LSC greenhouse in AZ in units of percent. J. Name: LR305 Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 large-area LSC greenhouse in AZ in units of kilograms per meter squared. K. Name: LR305 Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a LR305 large-area LSC greenhouse in AZ in units of percent. L. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. M. Name: Si Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si small-area LSC greenhouse in AZ in units of kilograms per meter squared. N. Name: Si Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a Si small-area LSC greenhouse in AZ in units of percent. O. Name: Si Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si large-area LSC greenhouse in AZ in units of kilograms per meter squared. P. Name: Si Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a Si large-area LSC greenhouse in AZ in units of percent. Q. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. R. Name: CIS/ZnS Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS small-area LSC greenhouse in MN in units of kilograms per meter squared. S. Name: CIS/ZnS Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a CIS/ZnS small-area LSC greenhouse in MN in units of percent. T. Name: CIS/ZnS Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS large-area LSC greenhouse in MN in units of kilograms per meter squared. U. Name: CIS/ZnS Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a CIS/ZnS large-area LSC greenhouse in MN in units of percent. V. Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. W. Name: LR305 Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 small-area LSC greenhouse in MN in units of kilograms per meter squared. X. Name: LR305 Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a LR305 small-area LSC greenhouse in MN in units of percent. Y. Name: LR305 Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 large-area LSC greenhouse in MN in units of kilograms per meter squared. Z. Name: LR305 Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a LR305 large-area LSC greenhouse in MN in units of percent. AA. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. AB. Name: Si Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si small-area LSC greenhouse in MN in units of kilograms per meter squared. AC. Name: Si Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a Si small-area LSC greenhouse in MN in units of percent. AD. Name: Si Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si large-area LSC greenhouse in MN in units of kilograms per meter squared. AE. Name: Si Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a Si large-area LSC greenhouse in MN in units of percent. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure 5.csv ----------------------------------------- 1. Number of variables: 498 2. Number of cases/rows: 35 3. Variable List A. Name: Optical Density Selection (-) Description: Labels for which greenhouses were used in which state. B. Name: Selected Optical Densities (-) Description: Optical densities of the luminophores at 450 nm that resulted in the optimized condition. C. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. D. Name: Convetional Greenhouse Net Present Value (NPV) in FL ($) Description: The net present value of the conventional greenhouse as a function of lettuce price in dollars. E. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. F. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. G. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. H. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. I. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. J. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. K. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. L. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. M. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. N. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. O. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. P. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. Q. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. R. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. S. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. T. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. U. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. V. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. W. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. X. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. Y. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. Z. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. AA. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. AB. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. AC. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. AD. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. AE. Name: Relative NPV of Large-area CIS/ZnS GH in FL at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. AF. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. AG. Name: Relative NPV of Large-area LR305 GH in FL at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. AH. Name: Relative NPV of Large-area LR305 GH in FL at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. AI. Name: Relative NPV of Large-area LR305 GH in FL at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. AJ. Name: Relative NPV of Large-area LR305 GH in FL at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. AK. Name: Relative NPV of Large-area LR305 GH in FL at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. AL. Name: Relative NPV of Large-area LR305 GH in FL at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. AM. Name: Relative NPV of Large-area LR305 GH in FL at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. AN. Name: Relative NPV of Large-area LR305 GH in FL at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. AO. Name: Relative NPV of Large-area LR305 GH in FL at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. AP. Name: Relative NPV of Large-area LR305 GH in FL at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. AQ. Name: Relative NPV of Large-area LR305 GH in FL at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. AR. Name: Relative NPV of Large-area LR305 GH in FL at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. AS. Name: Relative NPV of Large-area LR305 GH in FL at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. AT. Name: Relative NPV of Large-area LR305 GH in FL at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. AU. Name: Relative NPV of Large-area LR305 GH in FL at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. AV. Name: Relative NPV of Large-area LR305 GH in FL at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. AW. Name: Relative NPV of Large-area LR305 GH in FL at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. AX. Name: Relative NPV of Large-area LR305 GH in FL at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. AY. Name: Relative NPV of Large-area LR305 GH in FL at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. AZ. Name: Relative NPV of Large-area LR305 GH in FL at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. BA. Name: Relative NPV of Large-area LR305 GH in FL at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. BB. Name: Relative NPV of Large-area LR305 GH in FL at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. BC. Name: Relative NPV of Large-area LR305 GH in FL at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. BD. Name: Relative NPV of Large-area LR305 GH in FL at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. BE. Name: Relative NPV of Large-area LR305 GH in FL at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. BF. Name: Relative NPV of Large-area LR305 GH in FL at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. BG. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. BH. Name: Relative NPV of Large-area Si GH in FL at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. BI. Name: Relative NPV of Large-area Si GH in FL at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. BJ. Name: Relative NPV of Large-area Si GH in FL at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. BK. Name: Relative NPV of Large-area Si GH in FL at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. BL. Name: Relative NPV of Large-area Si GH in FL at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. BM. Name: Relative NPV of Large-area Si GH in FL at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. BN. Name: Relative NPV of Large-area Si GH in FL at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. BO. Name: Relative NPV of Large-area Si GH in FL at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. BP. Name: Relative NPV of Large-area Si GH in FL at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. BQ. Name: Relative NPV of Large-area Si GH in FL at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. BR. Name: Relative NPV of Large-area Si GH in FL at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. BS. Name: Relative NPV of Large-area Si GH in FL at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. BT. Name: Relative NPV of Large-area Si GH in FL at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. BU. Name: Relative NPV of Large-area Si GH in FL at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. BV. Name: Relative NPV of Large-area Si GH in FL at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. BW. Name: Relative NPV of Large-area Si GH in FL at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. BX. Name: Relative NPV of Large-area Si GH in FL at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. BY. Name: Relative NPV of Large-area Si GH in FL at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. BZ. Name: Relative NPV of Large-area Si GH in FL at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. CA. Name: Relative NPV of Large-area Si GH in FL at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. CB. Name: Relative NPV of Large-area Si GH in FL at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. CC. Name: Relative NPV of Large-area Si GH in FL at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. CD. Name: Relative NPV of Large-area Si GH in FL at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. CE. Name: Relative NPV of Large-area Si GH in FL at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. CF. Name: Relative NPV of Large-area Si GH in FL at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. CG. Name: Relative NPV of Large-area Si GH in FL at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. CH. Name: Lettuce Price ($/kg) Description: Price of lettuce in dollars per kilogram. CI. Name: Convetional Greenhouse Net Present Value (NPV) in FL ($) Description: The net present value of the conventional greenhouse as a function of lettuce price in dollars. CJ. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. CK. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. CL. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. CM. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. CN. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. CO. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. CP. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. CQ. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. CR. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. CS. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. CT. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. CU. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. CV. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. CW. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. CX. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. CY. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. CZ. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. DA. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. DB. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. DC. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. DD. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. DE. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. DF. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. DG. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. DH. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. DI. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. DJ. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. DK. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. DL. Name: Relative NPV of Small-area LR305 GH in FL at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. DM. Name: Relative NPV of Small-area LR305 GH in FL at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. DN. Name: Relative NPV of Small-area LR305 GH in FL at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. DO. Name: Relative NPV of Small-area LR305 GH in FL at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. DP. Name: Relative NPV of Small-area LR305 GH in FL at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. DQ. Name: Relative NPV of Small-area LR305 GH in FL at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. DR. Name: Relative NPV of Small-area LR305 GH in FL at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. DS. Name: Relative NPV of Small-area LR305 GH in FL at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. DT. Name: Relative NPV of Small-area LR305 GH in FL at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. DU. Name: Relative NPV of Small-area LR305 GH in FL at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. DV. Name: Relative NPV of Small-area LR305 GH in FL at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. DW. Name: Relative NPV of Small-area LR305 GH in FL at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. DX. Name: Relative NPV of Small-area LR305 GH in FL at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. DY. Name: Relative NPV of Small-area LR305 GH in FL at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. DZ. Name: Relative NPV of Small-area LR305 GH in FL at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. EA. Name: Relative NPV of Small-area LR305 GH in FL at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. EB. Name: Relative NPV of Small-area LR305 GH in FL at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. EC. Name: Relative NPV of Small-area LR305 GH in FL at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. ED. Name: Relative NPV of Small-area LR305 GH in FL at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. EE. Name: Relative NPV of Small-area LR305 GH in FL at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. EF. Name: Relative NPV of Small-area LR305 GH in FL at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. EG. Name: Relative NPV of Small-area LR305 GH in FL at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. EH. Name: Relative NPV of Small-area LR305 GH in FL at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. EI. Name: Relative NPV of Small-area LR305 GH in FL at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. EJ. Name: Relative NPV of Small-area LR305 GH in FL at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. EK. Name: Relative NPV of Small-area LR305 GH in FL at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. EL. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. EM. Name: Relative NPV of Small-area Si GH in FL at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. EN. Name: Relative NPV of Small-area Si GH in FL at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. EO. Name: Relative NPV of Small-area Si GH in FL at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. EP. Name: Relative NPV of Small-area Si GH in FL at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. EQ. Name: Relative NPV of Small-area Si GH in FL at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. ER. Name: Relative NPV of Small-area Si GH in FL at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. ES. Name: Relative NPV of Small-area Si GH in FL at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. ET. Name: Relative NPV of Small-area Si GH in FL at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. EU. Name: Relative NPV of Small-area Si GH in FL at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. EV. Name: Relative NPV of Small-area Si GH in FL at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. EW. Name: Relative NPV of Small-area Si GH in FL at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. EX. Name: Relative NPV of Small-area Si GH in FL at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. EY. Name: Relative NPV of Small-area Si GH in FL at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. EZ. Name: Relative NPV of Small-area Si GH in FL at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. FA. Name: Relative NPV of Small-area Si GH in FL at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. FB. Name: Relative NPV of Small-area Si GH in FL at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. FC. Name: Relative NPV of Small-area Si GH in FL at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. FD. Name: Relative NPV of Small-area Si GH in FL at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. FE. Name: Relative NPV of Small-area Si GH in FL at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. FF. Name: Relative NPV of Small-area Si GH in FL at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. FG. Name: Relative NPV of Small-area Si GH in FL at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. FH. Name: Relative NPV of Small-area Si GH in FL at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. FI. Name: Relative NPV of Small-area Si GH in FL at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. FJ. Name: Relative NPV of Small-area Si GH in FL at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. FK. Name: Relative NPV of Small-area Si GH in FL at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. FL. Name: Relative NPV of Small-area Si GH in FL at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. FM. Name: Lettuce Price ($/kg) Description: Price of lettuce in dollars per kilogram. FN. Name: Convetional Greenhouse Net Present Value (NPV) in FL ($) Description: The net present value of the conventional greenhouse as a function of lettuce price in dollars. FO. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. FP. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.00/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.00 per kilowatthour cost of metering in units of dollars. FQ. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.01/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.01 per kilowatthour cost of metering in units of dollars. FR. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.02/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.02 per kilowatthour cost of metering in units of dollars. FS. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.03/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.03 per kilowatthour cost of metering in units of dollars. FT. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.04/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.04 per kilowatthour cost of metering in units of dollars. FU. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.05/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.05 per kilowatthour cost of metering in units of dollars. FV. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.06/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.06 per kilowatthour cost of metering in units of dollars. FW. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.07/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.07 per kilowatthour cost of metering in units of dollars. FX. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.08/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.08 per kilowatthour cost of metering in units of dollars. FY. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.09/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.09 per kilowatthour cost of metering in units of dollars. FZ. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.10/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.10 per kilowatthour cost of metering in units of dollars. GA. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.11/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.11 per kilowatthour cost of metering in units of dollars. GB. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.12/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.12 per kilowatthour cost of metering in units of dollars. GC. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.13/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.13 per kilowatthour cost of metering in units of dollars. GD. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.14/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.14 per kilowatthour cost of metering in units of dollars. GE. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.15/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.15 per kilowatthour cost of metering in units of dollars. GF. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.16/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.16 per kilowatthour cost of metering in units of dollars. GG. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.17/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.17 per kilowatthour cost of metering in units of dollars. GH. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.18/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.18 per kilowatthour cost of metering in units of dollars. GI. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.19/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.19 per kilowatthour cost of metering in units of dollars. GJ. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.20/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.20 per kilowatthour cost of metering in units of dollars. GK. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.21/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.21 per kilowatthour cost of metering in units of dollars. GL. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.22/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.22 per kilowatthour cost of metering in units of dollars. GM. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.23/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.23 per kilowatthour cost of metering in units of dollars. GN. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.24/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.24 per kilowatthour cost of metering in units of dollars. GO. Name: Relative NPV of Small-area CIS/ZnS GH in FL at $0.25/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in FL that was optimized for most energy production at a $0.25 per kilowatthour cost of metering in units of dollars. GP. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. GQ. Name: Relative NPV of Small-area LR305 GH in FL at $0.00/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.00 per kilowatthour cost of metering in units of dollars. GR. Name: Relative NPV of Small-area LR305 GH in FL at $0.01/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.01 per kilowatthour cost of metering in units of dollars. GS. Name: Relative NPV of Small-area LR305 GH in FL at $0.02/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.02 per kilowatthour cost of metering in units of dollars. GT. Name: Relative NPV of Small-area LR305 GH in FL at $0.03/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.03 per kilowatthour cost of metering in units of dollars. GU. Name: Relative NPV of Small-area LR305 GH in FL at $0.04/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.04 per kilowatthour cost of metering in units of dollars. GV. Name: Relative NPV of Small-area LR305 GH in FL at $0.05/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.05 per kilowatthour cost of metering in units of dollars. GW. Name: Relative NPV of Small-area LR305 GH in FL at $0.06/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.06 per kilowatthour cost of metering in units of dollars. GX. Name: Relative NPV of Small-area LR305 GH in FL at $0.07/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.07 per kilowatthour cost of metering in units of dollars. GY. Name: Relative NPV of Small-area LR305 GH in FL at $0.08/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.08 per kilowatthour cost of metering in units of dollars. GZ. Name: Relative NPV of Small-area LR305 GH in FL at $0.09/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.09 per kilowatthour cost of metering in units of dollars. HA. Name: Relative NPV of Small-area LR305 GH in FL at $0.10/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.10 per kilowatthour cost of metering in units of dollars. HB. Name: Relative NPV of Small-area LR305 GH in FL at $0.11/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.11 per kilowatthour cost of metering in units of dollars. HC. Name: Relative NPV of Small-area LR305 GH in FL at $0.12/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.12 per kilowatthour cost of metering in units of dollars. HD. Name: Relative NPV of Small-area LR305 GH in FL at $0.13/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.13 per kilowatthour cost of metering in units of dollars. HE. Name: Relative NPV of Small-area LR305 GH in FL at $0.14/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.14 per kilowatthour cost of metering in units of dollars. HF. Name: Relative NPV of Small-area LR305 GH in FL at $0.15/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.15 per kilowatthour cost of metering in units of dollars. HG. Name: Relative NPV of Small-area LR305 GH in FL at $0.16/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.16 per kilowatthour cost of metering in units of dollars. HH. Name: Relative NPV of Small-area LR305 GH in FL at $0.17/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.17 per kilowatthour cost of metering in units of dollars. HI. Name: Relative NPV of Small-area LR305 GH in FL at $0.18/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.18 per kilowatthour cost of metering in units of dollars. HJ. Name: Relative NPV of Small-area LR305 GH in FL at $0.19/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.19 per kilowatthour cost of metering in units of dollars. HK. Name: Relative NPV of Small-area LR305 GH in FL at $0.20/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.20 per kilowatthour cost of metering in units of dollars. HL. Name: Relative NPV of Small-area LR305 GH in FL at $0.21/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.21 per kilowatthour cost of metering in units of dollars. HM. Name: Relative NPV of Small-area LR305 GH in FL at $0.22/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.22 per kilowatthour cost of metering in units of dollars. HN. Name: Relative NPV of Small-area LR305 GH in FL at $0.23/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.23 per kilowatthour cost of metering in units of dollars. HO. Name: Relative NPV of Small-area LR305 GH in FL at $0.24/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.24 per kilowatthour cost of metering in units of dollars. HP. Name: Relative NPV of Small-area LR305 GH in FL at $0.25/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in FL that was optimized for most energy production at a $0.25 per kilowatthour cost of metering in units of dollars. HQ. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. HR. Name: Relative NPV of Small-area Si GH in FL at $0.00/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.00 per kilowatthour cost of metering in units of dollars. HS. Name: Relative NPV of Small-area Si GH in FL at $0.01/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.01 per kilowatthour cost of metering in units of dollars. HT. Name: Relative NPV of Small-area Si GH in FL at $0.02/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.02 per kilowatthour cost of metering in units of dollars. HU. Name: Relative NPV of Small-area Si GH in FL at $0.03/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.03 per kilowatthour cost of metering in units of dollars. HV. Name: Relative NPV of Small-area Si GH in FL at $0.04/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.04 per kilowatthour cost of metering in units of dollars. HW. Name: Relative NPV of Small-area Si GH in FL at $0.05/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.05 per kilowatthour cost of metering in units of dollars. HX. Name: Relative NPV of Small-area Si GH in FL at $0.06/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.06 per kilowatthour cost of metering in units of dollars. HY. Name: Relative NPV of Small-area Si GH in FL at $0.07/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.07 per kilowatthour cost of metering in units of dollars. HZ. Name: Relative NPV of Small-area Si GH in FL at $0.08/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.08 per kilowatthour cost of metering in units of dollars. IA. Name: Relative NPV of Small-area Si GH in FL at $0.09/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.09 per kilowatthour cost of metering in units of dollars. IB. Name: Relative NPV of Small-area Si GH in FL at $0.10/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.10 per kilowatthour cost of metering in units of dollars. IC. Name: Relative NPV of Small-area Si GH in FL at $0.11/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.11 per kilowatthour cost of metering in units of dollars. ID. Name: Relative NPV of Small-area Si GH in FL at $0.12/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.12 per kilowatthour cost of metering in units of dollars. IE. Name: Relative NPV of Small-area Si GH in FL at $0.13/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.13 per kilowatthour cost of metering in units of dollars. IF. Name: Relative NPV of Small-area Si GH in FL at $0.14/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.14 per kilowatthour cost of metering in units of dollars. IG. Name: Relative NPV of Small-area Si GH in FL at $0.15/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.15 per kilowatthour cost of metering in units of dollars. IH. Name: Relative NPV of Small-area Si GH in FL at $0.16/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.16 per kilowatthour cost of metering in units of dollars. II. Name: Relative NPV of Small-area Si GH in FL at $0.17/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.17 per kilowatthour cost of metering in units of dollars. IJ. Name: Relative NPV of Small-area Si GH in FL at $0.18/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.18 per kilowatthour cost of metering in units of dollars. IK. Name: Relative NPV of Small-area Si GH in FL at $0.19/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.19 per kilowatthour cost of metering in units of dollars. IL. Name: Relative NPV of Small-area Si GH in FL at $0.20/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.20 per kilowatthour cost of metering in units of dollars. IM. Name: Relative NPV of Small-area Si GH in FL at $0.21/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.21 per kilowatthour cost of metering in units of dollars. IN. Name: Relative NPV of Small-area Si GH in FL at $0.22/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.22 per kilowatthour cost of metering in units of dollars. IO. Name: Relative NPV of Small-area Si GH in FL at $0.23/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.23 per kilowatthour cost of metering in units of dollars. IP. Name: Relative NPV of Small-area Si GH in FL at $0.24/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.24 per kilowatthour cost of metering in units of dollars. IQ. Name: Relative NPV of Small-area Si GH in FL at $0.25/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in FL that was optimized for most energy production at a $0.25 per kilowatthour cost of metering in units of dollars. IR. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. IS. Name: Convetional Greenhouse Net Present Value (NPV) in PA ($) Description: The net present value of the conventional greenhouse as a function of lettuce price in dollars. IT. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. IU. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. IV. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. IW. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. IX. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. IY. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. IZ. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. JA. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. JB. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. JC. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. JD. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. JE. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. JF. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. JG. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. JH. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. JI. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. JJ. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. JK. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. JL. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. JM. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. JN. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. JO. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. JP. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. JQ. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. JR. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. JS. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. JT. Name: Relative NPV of Large-area CIS/ZnS GH in PA at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. JU. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. JV. Name: Relative NPV of Large-area LR305 GH in PA at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. JW. Name: Relative NPV of Large-area LR305 GH in PA at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. JX. Name: Relative NPV of Large-area LR305 GH in PA at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. JY. Name: Relative NPV of Large-area LR305 GH in PA at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. JZ. Name: Relative NPV of Large-area LR305 GH in PA at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. KA. Name: Relative NPV of Large-area LR305 GH in PA at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. KB. Name: Relative NPV of Large-area LR305 GH in PA at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. KC. Name: Relative NPV of Large-area LR305 GH in PA at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. KD. Name: Relative NPV of Large-area LR305 GH in PA at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. KE. Name: Relative NPV of Large-area LR305 GH in PA at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. KF. Name: Relative NPV of Large-area LR305 GH in PA at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. KG. Name: Relative NPV of Large-area LR305 GH in PA at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. KH. Name: Relative NPV of Large-area LR305 GH in PA at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. KI. Name: Relative NPV of Large-area LR305 GH in PA at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. KJ. Name: Relative NPV of Large-area LR305 GH in PA at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. KK. Name: Relative NPV of Large-area LR305 GH in PA at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. KL. Name: Relative NPV of Large-area LR305 GH in PA at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. KM. Name: Relative NPV of Large-area LR305 GH in PA at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. KN. Name: Relative NPV of Large-area LR305 GH in PA at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. KO. Name: Relative NPV of Large-area LR305 GH in PA at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. KP. Name: Relative NPV of Large-area LR305 GH in PA at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. KQ. Name: Relative NPV of Large-area LR305 GH in PA at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. KR. Name: Relative NPV of Large-area LR305 GH in PA at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. KS. Name: Relative NPV of Large-area LR305 GH in PA at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. KT. Name: Relative NPV of Large-area LR305 GH in PA at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. KU. Name: Relative NPV of Large-area LR305 GH in PA at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. KV. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. KW. Name: Relative NPV of Large-area Si GH in PA at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. KX. Name: Relative NPV of Large-area Si GH in PA at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. KY. Name: Relative NPV of Large-area Si GH in PA at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. KZ. Name: Relative NPV of Large-area Si GH in PA at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. LA. Name: Relative NPV of Large-area Si GH in PA at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. LB. Name: Relative NPV of Large-area Si GH in PA at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. LC. Name: Relative NPV of Large-area Si GH in PA at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. LD. Name: Relative NPV of Large-area Si GH in PA at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. LE. Name: Relative NPV of Large-area Si GH in PA at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. LF. Name: Relative NPV of Large-area Si GH in PA at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. LG. Name: Relative NPV of Large-area Si GH in PA at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. LH. Name: Relative NPV of Large-area Si GH in PA at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. LI. Name: Relative NPV of Large-area Si GH in PA at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. LJ. Name: Relative NPV of Large-area Si GH in PA at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. LK. Name: Relative NPV of Large-area Si GH in PA at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. LL. Name: Relative NPV of Large-area Si GH in PA at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. LM. Name: Relative NPV of Large-area Si GH in PA at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. LN. Name: Relative NPV of Large-area Si GH in PA at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. LO. Name: Relative NPV of Large-area Si GH in PA at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. LP. Name: Relative NPV of Large-area Si GH in PA at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. LQ. Name: Relative NPV of Large-area Si GH in PA at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. LR. Name: Relative NPV of Large-area Si GH in PA at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. LS. Name: Relative NPV of Large-area Si GH in PA at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. LT. Name: Relative NPV of Large-area Si GH in PA at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. LU. Name: Relative NPV of Large-area Si GH in PA at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. LV. Name: Relative NPV of Large-area Si GH in PA at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si large-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. LW. Name: Lettuce Price ($/kg) Description: Price of lettuce in dollars per kilogram. LX. Name: Convetional Greenhouse Net Present Value (NPV) in PA ($) Description: The net present value of the conventional greenhouse as a function of lettuce price in dollars. LY. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. LZ. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. MA. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. MB. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. MC. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. MD. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. ME. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. MF. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. MG. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. MH. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. MI. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. MJ. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. MK. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. ML. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. MM. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. MN. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. MO. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. MP. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. MQ. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. MR. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. MS. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. MT. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. MU. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. MV. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. MW. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. MX. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. MY. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. MZ. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. NA. Name: Relative NPV of Small-area LR305 GH in PA at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. NB. Name: Relative NPV of Small-area LR305 GH in PA at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. NC. Name: Relative NPV of Small-area LR305 GH in PA at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. ND. Name: Relative NPV of Small-area LR305 GH in PA at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. NE. Name: Relative NPV of Small-area LR305 GH in PA at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. NF. Name: Relative NPV of Small-area LR305 GH in PA at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. NG. Name: Relative NPV of Small-area LR305 GH in PA at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. NH. Name: Relative NPV of Small-area LR305 GH in PA at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. NI. Name: Relative NPV of Small-area LR305 GH in PA at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. NJ. Name: Relative NPV of Small-area LR305 GH in PA at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. NK. Name: Relative NPV of Small-area LR305 GH in PA at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. NL. Name: Relative NPV of Small-area LR305 GH in PA at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. NM. Name: Relative NPV of Small-area LR305 GH in PA at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. NN. Name: Relative NPV of Small-area LR305 GH in PA at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. NO. Name: Relative NPV of Small-area LR305 GH in PA at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. NP. Name: Relative NPV of Small-area LR305 GH in PA at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. NQ. Name: Relative NPV of Small-area LR305 GH in PA at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. NR. Name: Relative NPV of Small-area LR305 GH in PA at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. NS. Name: Relative NPV of Small-area LR305 GH in PA at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. NT. Name: Relative NPV of Small-area LR305 GH in PA at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. NU. Name: Relative NPV of Small-area LR305 GH in PA at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. NV. Name: Relative NPV of Small-area LR305 GH in PA at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. NW. Name: Relative NPV of Small-area LR305 GH in PA at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. NX. Name: Relative NPV of Small-area LR305 GH in PA at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. NY. Name: Relative NPV of Small-area LR305 GH in PA at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. NZ. Name: Relative NPV of Small-area LR305 GH in PA at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. OA. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. OB. Name: Relative NPV of Small-area Si GH in PA at $0.00/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.00 per kilowatthour cost of metering in units of dollars. OC. Name: Relative NPV of Small-area Si GH in PA at $0.01/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.01 per kilowatthour cost of metering in units of dollars. OD. Name: Relative NPV of Small-area Si GH in PA at $0.02/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.02 per kilowatthour cost of metering in units of dollars. OE. Name: Relative NPV of Small-area Si GH in PA at $0.03/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.03 per kilowatthour cost of metering in units of dollars. OF. Name: Relative NPV of Small-area Si GH in PA at $0.04/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.04 per kilowatthour cost of metering in units of dollars. OG. Name: Relative NPV of Small-area Si GH in PA at $0.05/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.05 per kilowatthour cost of metering in units of dollars. OH. Name: Relative NPV of Small-area Si GH in PA at $0.06/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.06 per kilowatthour cost of metering in units of dollars. OI. Name: Relative NPV of Small-area Si GH in PA at $0.07/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.07 per kilowatthour cost of metering in units of dollars. OJ. Name: Relative NPV of Small-area Si GH in PA at $0.08/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.08 per kilowatthour cost of metering in units of dollars. OK. Name: Relative NPV of Small-area Si GH in PA at $0.09/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.09 per kilowatthour cost of metering in units of dollars. OL. Name: Relative NPV of Small-area Si GH in PA at $0.10/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.10 per kilowatthour cost of metering in units of dollars. OM. Name: Relative NPV of Small-area Si GH in PA at $0.11/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.11 per kilowatthour cost of metering in units of dollars. ON. Name: Relative NPV of Small-area Si GH in PA at $0.12/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.12 per kilowatthour cost of metering in units of dollars. OO. Name: Relative NPV of Small-area Si GH in PA at $0.13/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.13 per kilowatthour cost of metering in units of dollars. OP. Name: Relative NPV of Small-area Si GH in PA at $0.14/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.14 per kilowatthour cost of metering in units of dollars. OQ. Name: Relative NPV of Small-area Si GH in PA at $0.15/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.15 per kilowatthour cost of metering in units of dollars. OR. Name: Relative NPV of Small-area Si GH in PA at $0.16/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.16 per kilowatthour cost of metering in units of dollars. OS. Name: Relative NPV of Small-area Si GH in PA at $0.17/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.17 per kilowatthour cost of metering in units of dollars. OT. Name: Relative NPV of Small-area Si GH in PA at $0.18/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.18 per kilowatthour cost of metering in units of dollars. OU. Name: Relative NPV of Small-area Si GH in PA at $0.19/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.19 per kilowatthour cost of metering in units of dollars. OV. Name: Relative NPV of Small-area Si GH in PA at $0.20/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.20 per kilowatthour cost of metering in units of dollars. OW. Name: Relative NPV of Small-area Si GH in PA at $0.21/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.21 per kilowatthour cost of metering in units of dollars. OX. Name: Relative NPV of Small-area Si GH in PA at $0.22/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.22 per kilowatthour cost of metering in units of dollars. OY. Name: Relative NPV of Small-area Si GH in PA at $0.23/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.23 per kilowatthour cost of metering in units of dollars. OZ. Name: Relative NPV of Small-area Si GH in PA at $0.24/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.24 per kilowatthour cost of metering in units of dollars. PA. Name: Relative NPV of Small-area Si GH in PA at $0.25/kWh Cost of Metering Optimized for Lettuce ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most lettuce production at a $0.25 per kilowatthour cost of metering in units of dollars. PB. Name: Lettuce Price ($/kg) Description: Price of lettuce in dollars per kilogram. PC. Name: Convetional Greenhouse Net Present Value (NPV) in PA ($) Description: The net present value of the conventional greenhouse as a function of lettuce price in dollars. PD. Name: Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. PE. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.00/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.00 per kilowatthour cost of metering in units of dollars. PF. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.01/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.01 per kilowatthour cost of metering in units of dollars. PG. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.02/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.02 per kilowatthour cost of metering in units of dollars. PH. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.03/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.03 per kilowatthour cost of metering in units of dollars. PI. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.04/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.04 per kilowatthour cost of metering in units of dollars. PJ. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.05/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.05 per kilowatthour cost of metering in units of dollars. PK. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.06/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.06 per kilowatthour cost of metering in units of dollars. PL. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.07/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.07 per kilowatthour cost of metering in units of dollars. PM. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.08/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.08 per kilowatthour cost of metering in units of dollars. PN. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.09/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.09 per kilowatthour cost of metering in units of dollars. PO. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.10/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.10 per kilowatthour cost of metering in units of dollars. PP. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.11/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.11 per kilowatthour cost of metering in units of dollars. PQ. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.12/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.12 per kilowatthour cost of metering in units of dollars. PR. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.13/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.13 per kilowatthour cost of metering in units of dollars. PS. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.14/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.14 per kilowatthour cost of metering in units of dollars. PT. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.15/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.15 per kilowatthour cost of metering in units of dollars. PU. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.16/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.16 per kilowatthour cost of metering in units of dollars. PV. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.17/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.17 per kilowatthour cost of metering in units of dollars. PW. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.18/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.18 per kilowatthour cost of metering in units of dollars. PX. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.19/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.19 per kilowatthour cost of metering in units of dollars. PY. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.20/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.20 per kilowatthour cost of metering in units of dollars. PZ. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.21/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.21 per kilowatthour cost of metering in units of dollars. QA. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.22/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.22 per kilowatthour cost of metering in units of dollars. QB. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.23/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.23 per kilowatthour cost of metering in units of dollars. QC. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.24/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.24 per kilowatthour cost of metering in units of dollars. QD. Name: Relative NPV of Small-area CIS/ZnS GH in PA at $0.25/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the CIS/ZnS small-area LSC greenhouse in PA that was optimized for most energy production at a $0.25 per kilowatthour cost of metering in units of dollars. QE. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. QF. Name: Relative NPV of Small-area LR305 GH in PA at $0.00/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.00 per kilowatthour cost of metering in units of dollars. QG. Name: Relative NPV of Small-area LR305 GH in PA at $0.01/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.01 per kilowatthour cost of metering in units of dollars. QH. Name: Relative NPV of Small-area LR305 GH in PA at $0.02/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.02 per kilowatthour cost of metering in units of dollars. QI. Name: Relative NPV of Small-area LR305 GH in PA at $0.03/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.03 per kilowatthour cost of metering in units of dollars. QJ. Name: Relative NPV of Small-area LR305 GH in PA at $0.04/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.04 per kilowatthour cost of metering in units of dollars. QK. Name: Relative NPV of Small-area LR305 GH in PA at $0.05/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.05 per kilowatthour cost of metering in units of dollars. QL. Name: Relative NPV of Small-area LR305 GH in PA at $0.06/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.06 per kilowatthour cost of metering in units of dollars. QM. Name: Relative NPV of Small-area LR305 GH in PA at $0.07/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.07 per kilowatthour cost of metering in units of dollars. QN. Name: Relative NPV of Small-area LR305 GH in PA at $0.08/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.08 per kilowatthour cost of metering in units of dollars. QO. Name: Relative NPV of Small-area LR305 GH in PA at $0.09/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.09 per kilowatthour cost of metering in units of dollars. QP. Name: Relative NPV of Small-area LR305 GH in PA at $0.10/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.10 per kilowatthour cost of metering in units of dollars. QQ. Name: Relative NPV of Small-area LR305 GH in PA at $0.11/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.11 per kilowatthour cost of metering in units of dollars. QR. Name: Relative NPV of Small-area LR305 GH in PA at $0.12/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.12 per kilowatthour cost of metering in units of dollars. QS. Name: Relative NPV of Small-area LR305 GH in PA at $0.13/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.13 per kilowatthour cost of metering in units of dollars. QT. Name: Relative NPV of Small-area LR305 GH in PA at $0.14/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.14 per kilowatthour cost of metering in units of dollars. QU. Name: Relative NPV of Small-area LR305 GH in PA at $0.15/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.15 per kilowatthour cost of metering in units of dollars. QV. Name: Relative NPV of Small-area LR305 GH in PA at $0.16/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.16 per kilowatthour cost of metering in units of dollars. QW. Name: Relative NPV of Small-area LR305 GH in PA at $0.17/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.17 per kilowatthour cost of metering in units of dollars. QX. Name: Relative NPV of Small-area LR305 GH in PA at $0.18/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.18 per kilowatthour cost of metering in units of dollars. QY. Name: Relative NPV of Small-area LR305 GH in PA at $0.19/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.19 per kilowatthour cost of metering in units of dollars. QZ. Name: Relative NPV of Small-area LR305 GH in PA at $0.20/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.20 per kilowatthour cost of metering in units of dollars. RA. Name: Relative NPV of Small-area LR305 GH in PA at $0.21/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.21 per kilowatthour cost of metering in units of dollars. RB. Name: Relative NPV of Small-area LR305 GH in PA at $0.22/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.22 per kilowatthour cost of metering in units of dollars. RC. Name: Relative NPV of Small-area LR305 GH in PA at $0.23/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.23 per kilowatthour cost of metering in units of dollars. RD. Name: Relative NPV of Small-area LR305 GH in PA at $0.24/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.24 per kilowatthour cost of metering in units of dollars. RE. Name: Relative NPV of Small-area LR305 GH in PA at $0.25/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the LR305 small-area LSC greenhouse in PA that was optimized for most energy production at a $0.25 per kilowatthour cost of metering in units of dollars. RF. Lettuce Price ($/kg) Description: The price of lettuce in dollars per kilogram. RG. Name: Relative NPV of Small-area Si GH in PA at $0.00/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.00 per kilowatthour cost of metering in units of dollars. RH. Name: Relative NPV of Small-area Si GH in PA at $0.01/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.01 per kilowatthour cost of metering in units of dollars. RI. Name: Relative NPV of Small-area Si GH in PA at $0.02/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.02 per kilowatthour cost of metering in units of dollars. RJ. Name: Relative NPV of Small-area Si GH in PA at $0.03/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.03 per kilowatthour cost of metering in units of dollars. RK. Name: Relative NPV of Small-area Si GH in PA at $0.04/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.04 per kilowatthour cost of metering in units of dollars. RL. Name: Relative NPV of Small-area Si GH in PA at $0.05/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.05 per kilowatthour cost of metering in units of dollars. RM. Name: Relative NPV of Small-area Si GH in PA at $0.06/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.06 per kilowatthour cost of metering in units of dollars. RN. Name: Relative NPV of Small-area Si GH in PA at $0.07/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.07 per kilowatthour cost of metering in units of dollars. RO. Name: Relative NPV of Small-area Si GH in PA at $0.08/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.08 per kilowatthour cost of metering in units of dollars. RP. Name: Relative NPV of Small-area Si GH in PA at $0.09/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.09 per kilowatthour cost of metering in units of dollars. RQ. Name: Relative NPV of Small-area Si GH in PA at $0.10/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.10 per kilowatthour cost of metering in units of dollars. RR. Name: Relative NPV of Small-area Si GH in PA at $0.11/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.11 per kilowatthour cost of metering in units of dollars. RS. Name: Relative NPV of Small-area Si GH in PA at $0.12/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.12 per kilowatthour cost of metering in units of dollars. RT. Name: Relative NPV of Small-area Si GH in PA at $0.13/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.13 per kilowatthour cost of metering in units of dollars. RU. Name: Relative NPV of Small-area Si GH in PA at $0.14/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.14 per kilowatthour cost of metering in units of dollars. RV. Name: Relative NPV of Small-area Si GH in PA at $0.15/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.15 per kilowatthour cost of metering in units of dollars. RW. Name: Relative NPV of Small-area Si GH in PA at $0.16/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.16 per kilowatthour cost of metering in units of dollars. RX. Name: Relative NPV of Small-area Si GH in PA at $0.17/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.17 per kilowatthour cost of metering in units of dollars. RY. Name: Relative NPV of Small-area Si GH in PA at $0.18/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.18 per kilowatthour cost of metering in units of dollars. RZ. Name: Relative NPV of Small-area Si GH in PA at $0.19/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.19 per kilowatthour cost of metering in units of dollars. SA. Name: Relative NPV of Small-area Si GH in PA at $0.20/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.20 per kilowatthour cost of metering in units of dollars. SB. Name: Relative NPV of Small-area Si GH in PA at $0.21/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.21 per kilowatthour cost of metering in units of dollars. SC. Name: Relative NPV of Small-area Si GH in PA at $0.22/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.22 per kilowatthour cost of metering in units of dollars. SD. Name: Relative NPV of Small-area Si GH in PA at $0.23/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.23 per kilowatthour cost of metering in units of dollars. SE. Name: Relative NPV of Small-area Si GH in PA at $0.24/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.24 per kilowatthour cost of metering in units of dollars. SF. Name: Relative NPV of Small-area Si GH in PA at $0.25/kWh Cost of Metering Optimized for Energy ($) Description: The relative NPV of the Si small-area LSC greenhouse in PA that was optimized for most energy production at a $0.25 per kilowatthour cost of metering in units of dollars. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure 6.csv ----------------------------------------- 1. Number of variables: 16 2. Number of cases/rows: 48 3. Variable List A. Name: Location Names (CitySTATE) Description: Cities and states for each simulated greenhouse's location. For example, a greenhouse located in Fort Lauderdale, Florida would be named FortLauderdaleFL. B. Name: Latitude (degrees) Description: Latitude of the simulated greenhouse. C. Name: Longitude (degrees) Description: Longitude of the simulated greenhouse. D. Name: Conventional Greenhouse NPV ($) Description: Net present value of the conventional greenhouse over its 30-year lifetime in dollars. E. Name: CIS/ZnS Optimized NPV at the Base Case Assumptions ($) Description: NPV of the CIS/ZnS LSC greenhouse at the base case cost assumptions in dollars. F. Name: CIS/ZnS Optimized Optical Density (OD) at the Base Case Assumptions (-) Description: The unitless optical density of the optimized CIS/ZnS LSC greenhouse at the base case cost assumption. G. Name: LR305 Optimized NPV at the Base Case Assumptions ($) Description: NPV of the LR305 LSC greenhouse at the base case cost assumptions in dollars. H. Name: LR305 Optimized Optical Density (OD) at the Base Case Assumptions (-) Description: The unitless optical density of the optimized LR305 LSC greenhouse at the base case cost assumption. I. Name: Si Optimized NPV at the Base Case Assumptions ($) Description: NPV of the Si LSC greenhouse at the base case cost assumptions in dollars. J. Name: Si Optimized Optical Density (OD) at the Base Case Assumptions (-) Description: The unitless optical density of the optimized Si LSC greenhouse at the base case cost assumption. K. Name: CIS/ZnS Optimized NPV at the Improved LSC Assumptions ($) Description: NPV of the CIS/ZnS LSC greenhouse at the improved LSC cost assumptions in dollars. L. Name: CIS/ZnS Optimized Optical Density (OD) at the Improved LSC Assumptions (-) Description: The unitless optical density of the optimized CIS/ZnS LSC greenhouse at the improved LSC cost assumption. M. Name: LR305 Optimized NPV at the Improved LSC Assumptions ($) Description: NPV of the LR305 LSC greenhouse at the improved LSC cost assumptions in dollars. N. Name: LR305 Optimized Optical Density (OD) at the Improved LSC Assumptions (-) Description: The unitless optical density of the optimized LR305 LSC greenhouse at the improved LSC cost assumption. O. Name: Si Optimized NPV at the Improved LSC Assumptions ($) Description: NPV of the Si LSC greenhouse at the improved LSC cost assumptions in dollars. P. Name: Si Optimized Optical Density (OD) at the Improved LSC Assumptions (-) Description: The unitless optical density of the optimized Si LSC greenhouse at the improved LSC cost assumption. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S1.csv ----------------------------------------- 1. Number of variables: 5 2. Number of cases/rows: 3701 3. Variable List A. Name: Wavelength (nm) Description: Wavelength of light in nanometers B. Name: AM 1.5 G Irradiance (W/m^2/nm) Description: Irradiance of sunlight in units of watts per meter squared per nanometer. C. Name: CIS/ZnS Transmitted Irradiance (W/m^2/nm) Description: Example transmitted irradiance through a CIS/ZnS QD film in units of watts per meter squared per nanometer. D. Name: LR305 Transmitted Irradiance (W/m^2/nm) Description: Example transmitted irradiance through a LR305 film in units of watts per meter squared per nanometer. E. Name: Si Transmitted Irradiance (W/m^2/nm) Description: Example transmitted irradiance through a Si QD film in units of watts per meter squared per nanometer. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S3.csv ----------------------------------------- 1. Number of variables: 27 2. Number of cases/rows: 20 3. Variable List A. Name: Optical Density (-) Description: Unitless optical density of the luminophore at 450 nm. B. Name: Shade Transmittance for CIS/ZnS 8 cm x 8 cm LSC Greenhouses in AZ (%) Description: Shade cloth transmittance for CIS/ZnS small-area LSC greenhouses in AZ in units of percent. C. Name: Shade Transmittance for CIS/ZnS 16 cm x 16 cm LSC Greenhouses in AZ (%) Description: Shade cloth transmittance for CIS/ZnS large-area LSC greenhouses in AZ in units of percent. D. Name: Shade Transmittance for CIS/ZnS 8 cm x 8 cm LSC Greenhouses in FL (%) Description: Shade cloth transmittance for CIS/ZnS small-area LSC greenhouses in FL in units of percent. E. Name: Shade Transmittance for CIS/ZnS 16 cm x 16 cm LSC Greenhouses in FL (%) Description: Shade cloth transmittance for CIS/ZnS large-area LSC greenhouses in FL in units of percent. F. Name: Shade Transmittance for CIS/ZnS 8 cm x 8 cm LSC Greenhouses in MN (%) Description: Shade cloth transmittance for CIS/ZnS small-area LSC greenhouses in MN in units of percent. G. Name: Shade Transmittance for CIS/ZnS 16 cm x 16 cm LSC Greenhouses in MN(%) Description: Shade cloth transmittance for CIS/ZnS large-area LSC greenhouses in MN in units of percent. H. Name: Shade Transmittance for CIS/ZnS 8 cm x 8 cm LSC Greenhouses in PA (%) Description: Shade cloth transmittance for CIS/ZnS small-area LSC greenhouses in PA in units of percent. I. Name: Shade Transmittance for CIS/ZnS 16 cm x 16 cm LSC Greenhouses in PA (%) Description: Shade cloth transmittance for CIS/ZnS large-area LSC greenhouses in PA in units of percent. J. Name: Optical Density (-) Description: Unitless optical density of the luminophore at 450 nm. K. Name: Shade Transmittance for LR305 8 cm x 8 cm LSC Greenhouses in AZ (%) Description: Shade cloth transmittance for LR305 small-area LSC greenhouses in AZ in units of percent. L. Name: Shade Transmittance for LR305 16 cm x 16 cm LSC Greenhouses in AZ (%) Description: Shade cloth transmittance for LR305 large-area LSC greenhouses in AZ in units of percent. M. Name: Shade Transmittance for LR305 8 cm x 8 cm LSC Greenhouses in FL (%) Description: Shade cloth transmittance for LR305 small-area LSC greenhouses in FL in units of percent. N. Name: Shade Transmittance for LR305 16 cm x 16 cm LSC Greenhouses in FL (%) Description: Shade cloth transmittance for LR305 large-area LSC greenhouses in FL in units of percent. O. Name: Shade Transmittance for LR305 8 cm x 8 cm LSC Greenhouses in MN (%) Description: Shade cloth transmittance for LR305 small-area LSC greenhouses in MN in units of percent. P. Name: Shade Transmittance for LR305 16 cm x 16 cm LSC Greenhouses in MN(%) Description: Shade cloth transmittance for LR305 large-area LSC greenhouses in MN in units of percent. Q. Name: Shade Transmittance for LR305 8 cm x 8 cm LSC Greenhouses in PA (%) Description: Shade cloth transmittance for LR305 small-area LSC greenhouses in PA in units of percent. R. Name: Shade Transmittance for LR305 16 cm x 16 cm LSC Greenhouses in PA (%) Description: Shade cloth transmittance for LR305 large-area LSC greenhouses in PA in units of percent. S. Name: Optical Density (-) Description: Unitless optical density of the luminophore at 450 nm. T. Name: Shade Transmittance for Si 8 cm x 8 cm LSC Greenhouses in AZ (%) Description: Shade cloth transmittance for Si small-area LSC greenhouses in AZ in units of percent. U. Name: Shade Transmittance for Si 16 cm x 16 cm LSC Greenhouses in AZ (%) Description: Shade cloth transmittance for Si large-area LSC greenhouses in AZ in units of percent. V. Name: Shade Transmittance for Si 8 cm x 8 cm LSC Greenhouses in FL (%) Description: Shade cloth transmittance for Si small-area LSC greenhouses in FL in units of percent. W. Name: Shade Transmittance for Si 16 cm x 16 cm LSC Greenhouses in FL (%) Description: Shade cloth transmittance for Si large-area LSC greenhouses in FL in units of percent. X. Name: Shade Transmittance for Si 8 cm x 8 cm LSC Greenhouses in MN (%) Description: Shade cloth transmittance for Si small-area LSC greenhouses in MN in units of percent. Y. Name: Shade Transmittance for Si 16 cm x 16 cm LSC Greenhouses in MN(%) Description: Shade cloth transmittance for Si large-area LSC greenhouses in MN in units of percent. Z. Name: Shade Transmittance for Si 8 cm x 8 cm LSC Greenhouses in PA (%) Description: Shade cloth transmittance for Si small-area LSC greenhouses in PA in units of percent. AA. Name: Shade Transmittance for Si 16 cm x 16 cm LSC Greenhouses in PA (%) Description: Shade cloth transmittance for Si large-area LSC greenhouses in PA in units of percent. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S4.csv ----------------------------------------- 1. Number of variables: 122 2. Number of cases/rows: 365 3. Variable List A. Name: Time (days) Description: Day of the year. B. Name: eDLI for the Conventional Greenhouse in AZ (mol/m^2/day) Description: Extended daily light integral for a given day in the conventional greenhouse in units of mole per meter squared per day. C. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. D. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. E. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. F. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. G. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. H. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. I. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. J. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. K. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. L. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. M. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. N. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. O. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. P. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. Q. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. R. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. S. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. T. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. U. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. V. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. W. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. X. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. Y. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. Z. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. AA. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. AB. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. AC. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. AD. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. AE. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. AF. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. AG. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. AH. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. AI. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. AJ. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. AK. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. AL. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. AM. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. AN. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. AO. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. AP. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. AQ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. AR. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. AS. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. AT. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. AU. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. AV. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. AW. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. AX. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. AY. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. AZ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BA. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BB. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BC. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BD. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BE. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BF. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. BG. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. BH. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. BI. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. BJ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. BK. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. BL. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. BM. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. BN. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. BO. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. BP. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. BQ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. BR. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. BS. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. BT. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BU. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BV. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BW. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BX. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BY. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BZ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. CA. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. CB. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. CC. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. CD. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. CE. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CF. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. CG. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. CH. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. CI. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. CJ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. CK. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. CL. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. CM. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. CN. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. CO. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. CP. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. CQ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. CR. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. CS. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. CT. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. CU. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. CV. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. CW. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. CX. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. CY. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CZ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. DA. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. DB. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. DC. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. DD. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. DE. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. DF. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. DG. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. DH. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. DI. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. DJ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. DK. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. DL. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. DM. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. DN. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. DO. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. DP. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. DQ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. DR. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S5.csv ----------------------------------------- 1. Number of variables: 122 2. Number of cases/rows: 365 3. Variable List A. Name: Time (days) Description: Day of the year. B. Name: eDLI for the Conventional Greenhouse in FL (mol/m^2/day) Description: Extended daily light integral for a given day in the conventional greenhouse in units of mole per meter squared per day. C. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. D. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. E. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. F. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. G. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. H. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. I. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. J. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. K. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. L. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. M. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. N. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. O. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. P. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. Q. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. R. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. S. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. T. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. U. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. V. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. W. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. X. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. Y. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. Z. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. AA. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. AB. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. AC. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. AD. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. AE. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. AF. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. AG. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. AH. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. AI. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. AJ. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. AK. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. AL. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. AM. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. AN. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. AO. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. AP. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. AQ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. AR. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. AS. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. AT. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. AU. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. AV. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. AW. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. AX. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. AY. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. AZ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BA. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BB. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BC. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BD. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BE. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BF. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. BG. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. BH. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. BI. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. BJ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. BK. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. BL. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. BM. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. BN. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. BO. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. BP. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. BQ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. BR. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. BS. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. BT. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BU. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BV. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BW. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BX. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BY. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BZ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. CA. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. CB. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. CC. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. CD. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. CE. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CF. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. CG. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. CH. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. CI. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. CJ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. CK. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. CL. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. CM. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. CN. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. CO. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. CP. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. CQ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. CR. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. CS. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. CT. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. CU. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. CV. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. CW. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. CX. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. CY. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CZ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. DA. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. DB. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. DC. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. DD. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. DE. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. DF. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. DG. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. DH. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. DI. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. DJ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. DK. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. DL. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. DM. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. DN. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. DO. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. DP. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. DQ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. DR. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S6.csv ----------------------------------------- 1. Number of variables: 122 2. Number of cases/rows: 365 3. Variable List A. Name: Time (days) Description: Day of the year. B. Name: eDLI for the Conventional Greenhouse in MN (mol/m^2/day) Description: Extended daily light integral for a given day in the conventional greenhouse in units of mole per meter squared per day. C. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. D. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. E. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. F. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. G. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. H. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. I. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. J. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. K. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. L. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. M. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. N. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. O. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. P. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. Q. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. R. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. S. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. T. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. U. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. V. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. W. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. X. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. Y. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. Z. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. AA. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. AB. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. AC. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. AD. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. AE. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. AF. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. AG. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. AH. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. AI. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. AJ. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. AK. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. AL. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. AM. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. AN. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. AO. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. AP. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. AQ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. AR. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. AS. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. AT. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. AU. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. AV. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. AW. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. AX. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. AY. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. AZ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BA. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BB. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BC. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BD. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BE. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BF. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. BG. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. BH. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. BI. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. BJ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. BK. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. BL. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. BM. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. BN. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. BO. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. BP. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. BQ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. BR. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. BS. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. BT. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BU. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BV. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BW. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BX. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BY. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BZ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. CA. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. CB. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. CC. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. CD. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. CE. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CF. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. CG. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. CH. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. CI. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. CJ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. CK. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. CL. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. CM. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. CN. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. CO. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. CP. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. CQ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. CR. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. CS. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. CT. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. CU. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. CV. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. CW. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. CX. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. CY. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CZ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. DA. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. DB. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. DC. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. DD. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. DE. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. DF. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. DG. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. DH. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. DI. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. DJ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. DK. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. DL. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. DM. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. DN. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. DO. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. DP. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. DQ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. DR. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S7.csv ----------------------------------------- 1. Number of variables: 122 2. Number of cases/rows: 365 3. Variable List A. Name: Time (days) Description: Day of the year. B. Name: eDLI for the Conventional Greenhouse in PA (mol/m^2/day) Description: Extended daily light integral for a given day in the conventional greenhouse in units of mole per meter squared per day. C. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. D. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. E. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. F. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. G. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. H. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. I. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. J. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. K. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. L. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. M. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. N. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. O. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. P. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. Q. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. R. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. S. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. T. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. U. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. V. Name: eDLI for the CIS/ZnS 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. W. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.1 in units of mole per meter squared per day. X. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.2 in units of mole per meter squared per day. Y. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.3 in units of mole per meter squared per day. Z. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.4 in units of mole per meter squared per day. AA. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of mole per meter squared per day. AB. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.6 in units of mole per meter squared per day. AC. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.7 in units of mole per meter squared per day. AD. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.8 in units of mole per meter squared per day. AE. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 0.9 in units of mole per meter squared per day. AF. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of mole per meter squared per day. AG. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.1 in units of mole per meter squared per day. AH. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.2 in units of mole per meter squared per day. AI. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.3 in units of mole per meter squared per day. AJ. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.4 in units of mole per meter squared per day. AK. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of mole per meter squared per day. AL. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.6 in units of mole per meter squared per day. AM. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.7 in units of mole per meter squared per day. AN. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.8 in units of mole per meter squared per day. AO. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 1.9 in units of mole per meter squared per day. AP. Name: eDLI for the CIS/ZnS 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of mole per meter squared per day. AQ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. AR. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. AS. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. AT. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. AU. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. AV. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. AW. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. AX. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. AY. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. AZ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BA. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BB. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BC. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BD. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BE. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BF. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. BG. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. BH. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. BI. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. BJ. Name: eDLI for the LR305 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. BK. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.1 in units of mole per meter squared per day. BL. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.2 in units of mole per meter squared per day. BM. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.3 in units of mole per meter squared per day. BN. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.4 in units of mole per meter squared per day. BO. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.5 in units of mole per meter squared per day. BP. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.6 in units of mole per meter squared per day. BQ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.7 in units of mole per meter squared per day. BR. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.8 in units of mole per meter squared per day. BS. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 0.9 in units of mole per meter squared per day. BT. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.0 in units of mole per meter squared per day. BU. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.1 in units of mole per meter squared per day. BV. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.2 in units of mole per meter squared per day. BW. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.3 in units of mole per meter squared per day. BX. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.4 in units of mole per meter squared per day. BY. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.5 in units of mole per meter squared per day. BZ. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.6 in units of mole per meter squared per day. CA. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.7 in units of mole per meter squared per day. CB. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.8 in units of mole per meter squared per day. CC. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 1.9 in units of mole per meter squared per day. CD. Name: eDLI for the LR305 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using LR305 films at an optical density of 2.0 in units of mole per meter squared per day. CE. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CF. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. CG. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. CH. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. CI. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. CJ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. CK. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. CL. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. CM. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. CN. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. CO. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. CP. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. CQ. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. CR. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. CS. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. CT. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. CU. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. CV. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. CW. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. CX. Name: eDLI for the Si 8 cm x 8 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 8 cm x 8 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. CY. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.1 in units of mole per meter squared per day. CZ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.2 in units of mole per meter squared per day. DA. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.3 in units of mole per meter squared per day. DB. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.4 in units of mole per meter squared per day. DC. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.5 in units of mole per meter squared per day. DD. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.6 in units of mole per meter squared per day. DE. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.7 in units of mole per meter squared per day. DF. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.8 in units of mole per meter squared per day. DG. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 0.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 0.9 in units of mole per meter squared per day. DH. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.0 in units of mole per meter squared per day. DI. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.1 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.1 in units of mole per meter squared per day. DJ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.2 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.2 in units of mole per meter squared per day. DK. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.3 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.3 in units of mole per meter squared per day. DL. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.4 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.4 in units of mole per meter squared per day. DM. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.5 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.5 in units of mole per meter squared per day. DN. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.6 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.6 in units of mole per meter squared per day. DO. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.7 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.7 in units of mole per meter squared per day. DP. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.8 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.8 in units of mole per meter squared per day. DQ. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 1.9 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 1.9 in units of mole per meter squared per day. DR. Name: eDLI for the Si 16 cm x 16 cm LSC Greenhouse with an Optical Density of 2.0 (mol/m^2/day) Description: Extended daily light integral for a given day in the 16 cm x 16 cm LSC greenhouse using Si films at an optical density of 2.0 in units of mole per meter squared per day. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S8.csv ----------------------------------------- 1. Number of variables: 52 2. Number of cases/rows: 21 3. Variable List A. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. B. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in AZ (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in AZ in units of kilowatt hours per meter squared. C. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in AZ (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in AZ in units of kilowatt hours per meter squared. D. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in AZ (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in AZ in units of kilowatt hours per meter squared. E. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in AZ (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. F. Name: Total Energy Demand (TD) for LR305 Greenhouses in AZ (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in AZ in units of kilowatt hours per meter squared. G. Name: Heating Demand (HD) for LR305 Greenhouses in AZ (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in AZ in units of kilowatt hours per meter squared. H. Name: Cooling Demand (CD) for LR305 Greenhouses in AZ (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in AZ in units of kilowatt hours per meter squared. I. Name: Heating Fraction (Frac) for LR305 Greenhouses in AZ (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. J. Name: Total Energy Demand (TD) for Si Greenhouses in AZ (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in AZ in units of kilowatt hours per meter squared. K. Name: Heating Demand (HD) for Si Greenhouses in AZ (kWh/m^2) Description: Annual heating demand for Si greenhouses in AZ in units of kilowatt hours per meter squared. L. Name: Cooling Demand (CD) for Si Greenhouses in AZ (kWh/m^2) Description: Annual cooling demand for Si greenhouses in AZ in units of kilowatt hours per meter squared. M. Name: Heating Fraction (Frac) for Si Greenhouses in AZ (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. N. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. O. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in FL (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in FL in units of kilowatt hours per meter squared. P. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in FL (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in FL in units of kilowatt hours per meter squared. Q. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in FL (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in FL in units of kilowatt hours per meter squared. R. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in FL (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. S. Name: Total Energy Demand (TD) for LR305 Greenhouses in FL (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in FL in units of kilowatt hours per meter squared. T. Name: Heating Demand (HD) for LR305 Greenhouses in FL (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in FL in units of kilowatt hours per meter squared. U. Name: Cooling Demand (CD) for LR305 Greenhouses in FL (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in FL in units of kilowatt hours per meter squared. V. Name: Heating Fraction (Frac) for LR305 Greenhouses in FL (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. W. Name: Total Energy Demand (TD) for Si Greenhouses in FL (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in FL in units of kilowatt hours per meter squared. X. Name: Heating Demand (HD) for Si Greenhouses in FL (kWh/m^2) Description: Annual heating demand for Si greenhouses in FL in units of kilowatt hours per meter squared. Y. Name: Cooling Demand (CD) for Si Greenhouses in FL (kWh/m^2) Description: Annual cooling demand for Si greenhouses in FL in units of kilowatt hours per meter squared. Z. Name: Heating Fraction (Frac) for Si Greenhouses in FL (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AA. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. AB. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in MN (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in MN in units of kilowatt hours per meter squared. AC. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in MN (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in MN in units of kilowatt hours per meter squared. AD. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in MN (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in MN in units of kilowatt hours per meter squared. AE. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in MN (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AF. Name: Total Energy Demand (TD) for LR305 Greenhouses in MN (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in MN in units of kilowatt hours per meter squared. AG. Name: Heating Demand (HD) for LR305 Greenhouses in MN (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in MN in units of kilowatt hours per meter squared. AH. Name: Cooling Demand (CD) for LR305 Greenhouses in MN (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in MN in units of kilowatt hours per meter squared. AI. Name: Heating Fraction (Frac) for LR305 Greenhouses in MN (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AJ. Name: Total Energy Demand (TD) for Si Greenhouses in MN (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in MN in units of kilowatt hours per meter squared. AK. Name: Heating Demand (HD) for Si Greenhouses in MN (kWh/m^2) Description: Annual heating demand for Si greenhouses in MN in units of kilowatt hours per meter squared. AL. Name: Cooling Demand (CD) for Si Greenhouses in MN (kWh/m^2) Description: Annual cooling demand for Si greenhouses in MN in units of kilowatt hours per meter squared. AM. Name: Heating Fraction (Frac) for Si Greenhouses in MN (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AN. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. AO. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in PA (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in PA in units of kilowatt hours per meter squared. AP. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in PA (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in PA in units of kilowatt hours per meter squared. AQ. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in PA (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in PA in units of kilowatt hours per meter squared. AR. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in PA (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AS. Name: Total Energy Demand (TD) for LR305 Greenhouses in PA (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in PA in units of kilowatt hours per meter squared. AT. Name: Heating Demand (HD) for LR305 Greenhouses in PA (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in PA in units of kilowatt hours per meter squared. AU. Name: Cooling Demand (CD) for LR305 Greenhouses in PA (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in PA in units of kilowatt hours per meter squared. AV. Name: Heating Fraction (Frac) for LR305 Greenhouses in PA (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AW. Name: Total Energy Demand (TD) for Si Greenhouses in PA (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in PA in units of kilowatt hours per meter squared. AX. Name: Heating Demand (HD) for Si Greenhouses in PA (kWh/m^2) Description: Annual heating demand for Si greenhouses in PA in units of kilowatt hours per meter squared. AY. Name: Cooling Demand (CD) for Si Greenhouses in PA (kWh/m^2) Description: Annual cooling demand for Si greenhouses in PA in units of kilowatt hours per meter squared. AZ. Name: Heating Fraction (Frac) for Si Greenhouses in PA (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S9.csv ----------------------------------------- 1. Number of variables: 52 2. Number of cases/rows: 21 3. Variable List A. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. B. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in AZ (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in AZ in units of kilowatt hours per meter squared. C. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in AZ (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in AZ in units of kilowatt hours per meter squared. D. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in AZ (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in AZ in units of kilowatt hours per meter squared. E. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in AZ (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. F. Name: Total Energy Demand (TD) for LR305 Greenhouses in AZ (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in AZ in units of kilowatt hours per meter squared. G. Name: Heating Demand (HD) for LR305 Greenhouses in AZ (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in AZ in units of kilowatt hours per meter squared. H. Name: Cooling Demand (CD) for LR305 Greenhouses in AZ (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in AZ in units of kilowatt hours per meter squared. I. Name: Heating Fraction (Frac) for LR305 Greenhouses in AZ (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. J. Name: Total Energy Demand (TD) for Si Greenhouses in AZ (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in AZ in units of kilowatt hours per meter squared. K. Name: Heating Demand (HD) for Si Greenhouses in AZ (kWh/m^2) Description: Annual heating demand for Si greenhouses in AZ in units of kilowatt hours per meter squared. L. Name: Cooling Demand (CD) for Si Greenhouses in AZ (kWh/m^2) Description: Annual cooling demand for Si greenhouses in AZ in units of kilowatt hours per meter squared. M. Name: Heating Fraction (Frac) for Si Greenhouses in AZ (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. N. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. O. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in FL (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in FL in units of kilowatt hours per meter squared. P. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in FL (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in FL in units of kilowatt hours per meter squared. Q. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in FL (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in FL in units of kilowatt hours per meter squared. R. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in FL (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. S. Name: Total Energy Demand (TD) for LR305 Greenhouses in FL (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in FL in units of kilowatt hours per meter squared. T. Name: Heating Demand (HD) for LR305 Greenhouses in FL (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in FL in units of kilowatt hours per meter squared. U. Name: Cooling Demand (CD) for LR305 Greenhouses in FL (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in FL in units of kilowatt hours per meter squared. V. Name: Heating Fraction (Frac) for LR305 Greenhouses in FL (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. W. Name: Total Energy Demand (TD) for Si Greenhouses in FL (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in FL in units of kilowatt hours per meter squared. X. Name: Heating Demand (HD) for Si Greenhouses in FL (kWh/m^2) Description: Annual heating demand for Si greenhouses in FL in units of kilowatt hours per meter squared. Y. Name: Cooling Demand (CD) for Si Greenhouses in FL (kWh/m^2) Description: Annual cooling demand for Si greenhouses in FL in units of kilowatt hours per meter squared. Z. Name: Heating Fraction (Frac) for Si Greenhouses in FL (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AA. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. AB. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in MN (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in MN in units of kilowatt hours per meter squared. AC. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in MN (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in MN in units of kilowatt hours per meter squared. AD. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in MN (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in MN in units of kilowatt hours per meter squared. AE. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in MN (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AF. Name: Total Energy Demand (TD) for LR305 Greenhouses in MN (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in MN in units of kilowatt hours per meter squared. AG. Name: Heating Demand (HD) for LR305 Greenhouses in MN (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in MN in units of kilowatt hours per meter squared. AH. Name: Cooling Demand (CD) for LR305 Greenhouses in MN (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in MN in units of kilowatt hours per meter squared. AI. Name: Heating Fraction (Frac) for LR305 Greenhouses in MN (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AJ. Name: Total Energy Demand (TD) for Si Greenhouses in MN (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in MN in units of kilowatt hours per meter squared. AK. Name: Heating Demand (HD) for Si Greenhouses in MN (kWh/m^2) Description: Annual heating demand for Si greenhouses in MN in units of kilowatt hours per meter squared. AL. Name: Cooling Demand (CD) for Si Greenhouses in MN (kWh/m^2) Description: Annual cooling demand for Si greenhouses in MN in units of kilowatt hours per meter squared. AM. Name: Heating Fraction (Frac) for Si Greenhouses in MN (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AN. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. AO. Name: Total Energy Demand (TD) for CIS/ZnS Greenhouses in PA (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for CIS/ZnS greenhouses in PA in units of kilowatt hours per meter squared. AP. Name: Heating Demand (HD) for CIS/ZnS Greenhouses in PA (kWh/m^2) Description: Annual heating demand for CIS/ZnS greenhouses in PA in units of kilowatt hours per meter squared. AQ. Name: Cooling Demand (CD) for CIS/ZnS Greenhouses in PA (kWh/m^2) Description: Annual cooling demand for CIS/ZnS greenhouses in PA in units of kilowatt hours per meter squared. AR. Name: Heating Fraction (Frac) for CIS/ZnS Greenhouses in PA (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AS. Name: Total Energy Demand (TD) for LR305 Greenhouses in PA (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for LR305 greenhouses in PA in units of kilowatt hours per meter squared. AT. Name: Heating Demand (HD) for LR305 Greenhouses in PA (kWh/m^2) Description: Annual heating demand for LR305 greenhouses in PA in units of kilowatt hours per meter squared. AU. Name: Cooling Demand (CD) for LR305 Greenhouses in PA (kWh/m^2) Description: Annual cooling demand for LR305 greenhouses in PA in units of kilowatt hours per meter squared. AV. Name: Heating Fraction (Frac) for LR305 Greenhouses in PA (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. AW. Name: Total Energy Demand (TD) for Si Greenhouses in PA (kWh/m^2) Description: Annual total energy demand (sum of heating and cooling demands) for Si greenhouses in PA in units of kilowatt hours per meter squared. AX. Name: Heating Demand (HD) for Si Greenhouses in PA (kWh/m^2) Description: Annual heating demand for Si greenhouses in PA in units of kilowatt hours per meter squared. AY. Name: Cooling Demand (CD) for Si Greenhouses in PA (kWh/m^2) Description: Annual cooling demand for Si greenhouses in PA in units of kilowatt hours per meter squared. AZ. Name: Heating Fraction (Frac) for Si Greenhouses in PA (-) Description: Unitless fraction of annual total energy demands derived from heating, calculated as the heating demand divided by the total energy demand. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S10.csv ----------------------------------------- 1. Number of variables: 64 2. Number of cases/rows: 21 3. Variable List A. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. B. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. C. Name: CIS/ZnS Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS small-area LSC greenhouse in AZ in units of kilograms per meter squared. D. Name: CIS/ZnS Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a CIS/ZnS small-area LSC greenhouse in AZ in units of percent. E. Name: CIS/ZnS Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS large-area LSC greenhouse in AZ in units of kilograms per meter squared. F. Name: CIS/ZnS Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a CIS/ZnS large-area LSC greenhouse in AZ in units of percent. G. Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. H. Name: LR305 Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 small-area LSC greenhouse in AZ in units of kilograms per meter squared. I. Name: LR305 Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a LR305 small-area LSC greenhouse in AZ in units of percent. J. Name: LR305 Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 large-area LSC greenhouse in AZ in units of kilograms per meter squared. K. Name: LR305 Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a LR305 large-area LSC greenhouse in AZ in units of percent. L. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. M. Name: Si Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si small-area LSC greenhouse in AZ in units of kilograms per meter squared. N. Name: Si Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a Si small-area LSC greenhouse in AZ in units of percent. O. Name: Si Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in AZ (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si large-area LSC greenhouse in AZ in units of kilograms per meter squared. P. Name: Si Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in AZ (%) Description: The shade cloth transmittance used for a Si large-area LSC greenhouse in AZ in units of percent. Q. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. R. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. S. Name: CIS/ZnS Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in FL (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS small-area LSC greenhouse in FL in units of kilograms per meter squared. T. Name: CIS/ZnS Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in FL (%) Description: The shade cloth transmittance used for a CIS/ZnS small-area LSC greenhouse in FL in units of percent. U. Name: CIS/ZnS Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in FL (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS large-area LSC greenhouse in FL in units of kilograms per meter squared. V. Name: CIS/ZnS Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in FL (%) Description: The shade cloth transmittance used for a CIS/ZnS large-area LSC greenhouse in FL in units of percent. W. Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. X. Name: LR305 Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in FL (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 small-area LSC greenhouse in FL in units of kilograms per meter squared. Y. Name: LR305 Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in FL (%) Description: The shade cloth transmittance used for a LR305 small-area LSC greenhouse in FL in units of percent. Z. Name: LR305 Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in FL (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 large-area LSC greenhouse in FL in units of kilograms per meter squared. AA. Name: LR305 Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in FL (%) Description: The shade cloth transmittance used for a LR305 large-area LSC greenhouse in FL in units of percent. AB. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. AC. Name: Si Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in FL (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si small-area LSC greenhouse in FL in units of kilograms per meter squared. AD. Name: Si Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in FL (%) Description: The shade cloth transmittance used for a Si small-area LSC greenhouse in FL in units of percent. AE. Name: Si Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in FL (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si large-area LSC greenhouse in FL in units of kilograms per meter squared. AF. Name: Si Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in FL (%) Description: The shade cloth transmittance used for a Si large-area LSC greenhouse in FL in units of percent. AG. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. AH. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. AI. Name: CIS/ZnS Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS small-area LSC greenhouse in MN in units of kilograms per meter squared. AJ. Name: CIS/ZnS Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a CIS/ZnS small-area LSC greenhouse in MN in units of percent. AK. Name: CIS/ZnS Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS large-area LSC greenhouse in MN in units of kilograms per meter squared. AL. Name: CIS/ZnS Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a CIS/ZnS large-area LSC greenhouse in MN in units of percent. AM. Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. AN. Name: LR305 Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 small-area LSC greenhouse in MN in units of kilograms per meter squared. AO. Name: LR305 Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a LR305 small-area LSC greenhouse in MN in units of percent. AP. Name: LR305 Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 large-area LSC greenhouse in MN in units of kilograms per meter squared. AQ. Name: LR305 Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a LR305 large-area LSC greenhouse in MN in units of percent. AR. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. AS. Name: Si Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si small-area LSC greenhouse in MN in units of kilograms per meter squared. AT. Name: Si Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a Si small-area LSC greenhouse in MN in units of percent. AU. Name: Si Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in MN (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si large-area LSC greenhouse in MN in units of kilograms per meter squared. AV. Name: Si Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in MN (%) Description: The shade cloth transmittance used for a Si large-area LSC greenhouse in MN in units of percent. AW. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. AX. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. AY. Name: CIS/ZnS Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in PA (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS small-area LSC greenhouse in PA in units of kilograms per meter squared. AZ. Name: CIS/ZnS Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in PA (%) Description: The shade cloth transmittance used for a CIS/ZnS small-area LSC greenhouse in PA in units of percent. BA. Name: CIS/ZnS Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in PA (kg/m^2) Description: The annual fresh weight of lettuce produced in a CIS/ZnS large-area LSC greenhouse in PA in units of kilograms per meter squared. BB. Name: CIS/ZnS Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in PA (%) Description: The shade cloth transmittance used for a CIS/ZnS large-area LSC greenhouse in PA in units of percent. BC. Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. BD. Name: LR305 Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in PA (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 small-area LSC greenhouse in PA in units of kilograms per meter squared. BE. Name: LR305 Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in PA (%) Description: The shade cloth transmittance used for a LR305 small-area LSC greenhouse in PA in units of percent. BF. Name: LR305 Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in PA (kg/m^2) Description: The annual fresh weight of lettuce produced in a LR305 large-area LSC greenhouse in PA in units of kilograms per meter squared. BG. Name: LR305 Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in PA (%) Description: The shade cloth transmittance used for a LR305 large-area LSC greenhouse in PA in units of percent. BH. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. BI. Name: Si Annual Fresh Weight (FW) for 8 cm x 8 cm LSC Greenhouse in PA (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si small-area LSC greenhouse in PA in units of kilograms per meter squared. BJ. Name: Si Shade Transmittance (Shade T) for 8 cm x 8 cm LSC Greenhouse in PA (%) Description: The shade cloth transmittance used for a Si small-area LSC greenhouse in PA in units of percent. BK. Name: Si Annual Fresh Weight (FW) for 16 cm x 16 cm LSC Greenhouse in PA (kg/m^2) Description: The annual fresh weight of lettuce produced in a Si large-area LSC greenhouse in PA in units of kilograms per meter squared. BL. Name: Si Shade Transmittance (Shade T) for 16 cm x 16 cm LSC Greenhouse in PA (%) Description: The shade cloth transmittance used for a Si large-area LSC greenhouse in PA in units of percent. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S11.csv ----------------------------------------- 1. Number of variables: 40 2. Number of cases/rows: 20 3. Variable List A. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. B. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. C. Name: CIS/ZnS Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in AZ (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS small-area LSC greenhouse. D. Name: CIS/ZnS Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in AZ (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS large-area LSC greenhouse. E. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. F. Name: LR305 Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in AZ (-) Description: The unitless average fraction of red light transmitted in the LR305 small-area LSC greenhouse. G. Name: LR305 Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in AZ (-) Description: The unitless average fraction of red light transmitted in the LR305 large-area LSC greenhouse. H. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. I. Name: Si Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in AZ (-) Description: The unitless average fraction of red light transmitted in the Si small-area LSC greenhouse. J. Name: Si Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in AZ (-) Description: The unitless average fraction of red light transmitted in the Si large-area LSC greenhouse. K. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. L. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. M. Name: CIS/ZnS Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in FL (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS small-area LSC greenhouse. N. Name: CIS/ZnS Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in FL (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS large-area LSC greenhouse. O. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. P. Name: LR305 Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in FL (-) Description: The unitless average fraction of red light transmitted in the LR305 small-area LSC greenhouse. Q. Name: LR305 Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in FL (-) Description: The unitless average fraction of red light transmitted in the LR305 large-area LSC greenhouse. R. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. S. Name: Si Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in FL (-) Description: The unitless average fraction of red light transmitted in the Si small-area LSC greenhouse. T. Name: Si Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in FL (-) Description: The unitless average fraction of red light transmitted in the Si large-area LSC greenhouse. U. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. V. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. W. Name: CIS/ZnS Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in MN (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS small-area LSC greenhouse. X. Name: CIS/ZnS Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in MN (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS large-area LSC greenhouse. Y. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. Z. Name: LR305 Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in MN (-) Description: The unitless average fraction of red light transmitted in the LR305 small-area LSC greenhouse. AA. Name: LR305 Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in MN (-) Description: The unitless average fraction of red light transmitted in the LR305 large-area LSC greenhouse. AB. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. AC. Name: Si Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in MN (-) Description: The unitless average fraction of red light transmitted in the Si small-area LSC greenhouse. AD. Name: Si Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in MN (-) Description: The unitless average fraction of red light transmitted in the Si large-area LSC greenhouse. AE. Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. AF. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. AG. Name: CIS/ZnS Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in PA (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS small-area LSC greenhouse. AH. Name: CIS/ZnS Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in PA (-) Description: The unitless average fraction of red light transmitted in the CIS/ZnS large-area LSC greenhouse. AI. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. AJ. Name: LR305 Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in PA (-) Description: The unitless average fraction of red light transmitted in the LR305 small-area LSC greenhouse. AK. Name: LR305 Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in PA (-) Description: The unitless average fraction of red light transmitted in the LR305 large-area LSC greenhouse. AL. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. AM. Name: Si Red Fraction (Red Frac) in 8 cm x 8 cm LSC Greenhouses in PA (-) Description: The unitless average fraction of red light transmitted in the Si small-area LSC greenhouse. AN. Name: Si Red Fraction (Red Frac) in 16 cm x 16 cm LSC Greenhouses in PA (-) Description: The unitless average fraction of red light transmitted in the Si large-area LSC greenhouse. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S12.csv ----------------------------------------- 1. Number of variables: 40 2. Number of cases/rows: 21 3. Variable List A. Name: Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. B. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. C. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 8 cm x 8 cm LSC Greenhouses in AZ (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS small-area LSC greenhouses in units of degrees celsius. D. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 16 cm x 16 cm LSC Greenhouses in AZ (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS large-area LSC greenhouses in units of degrees celsius. E. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. F. Name: Average Annual Vegetable Temperature (Temp) in LR305 8 cm x 8 cm LSC Greenhouses in AZ (degrees C) Description: The average vegetable temperature over one year in LR305 small-area LSC greenhouses in units of degrees celsius. G. Name: Average Annual Vegetable Temperature (Temp) in LR305 16 cm x 16 cm LSC Greenhouses in AZ (degrees C) Description: The average vegetable temperature over one year in LR305 large-area LSC greenhouses in units of degrees celsius. H. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. I. Name: Average Annual Vegetable Temperature (Temp) in Si 8 cm x 8 cm LSC Greenhouses in AZ (degrees C) Description: The average vegetable temperature over one year in Si small-area LSC greenhouses in units of degrees celsius. J. Name: Average Annual Vegetable Temperature (Temp) in Si 16 cm x 16 cm LSC Greenhouses in AZ (degrees C) Description: The average vegetable temperature over one year in Si large-area LSC greenhouses in units of degrees celsius. K. Name: Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. L. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. M. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 8 cm x 8 cm LSC Greenhouses in FL (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS small-area LSC greenhouses in units of degrees celsius. N. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 16 cm x 16 cm LSC Greenhouses in FL (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS large-area LSC greenhouses in units of degrees celsius. O. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. P. Name: Average Annual Vegetable Temperature (Temp) in LR305 8 cm x 8 cm LSC Greenhouses in FL (degrees C) Description: The average vegetable temperature over one year in LR305 small-area LSC greenhouses in units of degrees celsius. Q. Name: Average Annual Vegetable Temperature (Temp) in LR305 16 cm x 16 cm LSC Greenhouses in FL (degrees C) Description: The average vegetable temperature over one year in LR305 large-area LSC greenhouses in units of degrees celsius. R. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. S. Name: Average Annual Vegetable Temperature (Temp) in Si 8 cm x 8 cm LSC Greenhouses in FL (degrees C) Description: The average vegetable temperature over one year in Si small-area LSC greenhouses in units of degrees celsius. T. Name: Average Annual Vegetable Temperature (Temp) in Si 16 cm x 16 cm LSC Greenhouses in FL (degrees C) Description: The average vegetable temperature over one year in Si large-area LSC greenhouses in units of degrees celsius. U. Name: Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. V. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. W. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 8 cm x 8 cm LSC Greenhouses in MN (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS small-area LSC greenhouses in units of degrees celsius. X. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 16 cm x 16 cm LSC Greenhouses in MN (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS large-area LSC greenhouses in units of degrees celsius. Y. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. Z. Name: Average Annual Vegetable Temperature (Temp) in LR305 8 cm x 8 cm LSC Greenhouses in MN (degrees C) Description: The average vegetable temperature over one year in LR305 small-area LSC greenhouses in units of degrees celsius. AA. Name: Average Annual Vegetable Temperature (Temp) in LR305 16 cm x 16 cm LSC Greenhouses in MN (degrees C) Description: The average vegetable temperature over one year in LR305 large-area LSC greenhouses in units of degrees celsius. AB. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. AC. Name: Average Annual Vegetable Temperature (Temp) in Si 8 cm x 8 cm LSC Greenhouses in MN (degrees C) Description: The average vegetable temperature over one year in Si small-area LSC greenhouses in units of degrees celsius. AD. Name: Average Annual Vegetable Temperature (Temp) in Si 16 cm x 16 cm LSC Greenhouses in MN (degrees C) Description: The average vegetable temperature over one year in Si large-area LSC greenhouses in units of degrees celsius. AE. Name: Name: Optical Density (OD) (-) Description: Unitless optical density of all luminophores at 450 nm. Data for the conventional greeenhouse are shown at OD = 0. AF. Name: CIS/ZnS Concentration (wt%) Description: The concentration of CIS/ZnS quantum dots in units of weight percent. AG. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 8 cm x 8 cm LSC Greenhouses in PA (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS small-area LSC greenhouses in units of degrees celsius. AH. Name: Average Annual Vegetable Temperature (Temp) in CIS/ZnS 16 cm x 16 cm LSC Greenhouses in PA (degrees C) Description: The average vegetable temperature over one year in CIS/ZnS large-area LSC greenhouses in units of degrees celsius. AI. Name: Name: LR305 Concentration (ppm) Description: The concentration of LR305 dye in units of parts per million. AJ. Name: Average Annual Vegetable Temperature (Temp) in LR305 8 cm x 8 cm LSC Greenhouses in PA (degrees C) Description: The average vegetable temperature over one year in LR305 small-area LSC greenhouses in units of degrees celsius. AK. Name: Average Annual Vegetable Temperature (Temp) in LR305 16 cm x 16 cm LSC Greenhouses in PA (degrees C) Description: The average vegetable temperature over one year in LR305 large-area LSC greenhouses in units of degrees celsius. AL. Name: Si Concentration (wt%) Description: The concentration of Si quantum dots in units of weight percent. AM. Name: Average Annual Vegetable Temperature (Temp) in Si 8 cm x 8 cm LSC Greenhouses in PA (degrees C) Description: The average vegetable temperature over one year in Si small-area LSC greenhouses in units of degrees celsius. AN. Name: Average Annual Vegetable Temperature (Temp) in Si 16 cm x 16 cm LSC Greenhouses in PA (degrees C) Description: The average vegetable temperature over one year in Si large-area LSC greenhouses in units of degrees celsius. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: Figure S13.csv ----------------------------------------- 1. Number of variables: 30 2. Number of cases/rows: 48 3. Variable List A. Name: Location Names (CitySTATE) Description: Cities and states for each simulated greenhouse's location. For example, a greenhouse located in Fort Lauderdale, Florida would be named FortLauderdaleFL. B. Name: Latitude (degrees) Description: Latitude of the simulated greenhouse. C. Name: Longitude (degrees) Description: Longitude of the simulated greenhouse. D. Name: Annual Fresh Weight (FW) in the Conventional Greenhouse (kg/m^2) Description: The annual fresh weight of lettuce produced in the conventional greenhouse in units of kilograms per meter squared. E. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 0.25 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 0.25 in units of kilogram per meter squared. F. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 0.5 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 0.5 in units of kilogram per meter squared. G. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 0.75 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 0.75 in units of kilogram per meter squared. H. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.0 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 1.0 in units of kilogram per meter squared. I. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.25 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 1.25 in units of kilogram per meter squared. J. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.5 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 1.5 in units of kilogram per meter squared. K. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.75 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 1.75 in units of kilogram per meter squared. L. Name: Annual Fresh Weight in the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 2.0 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using CIS/ZnS films at an optical density of 2.0 in units of kilogram per meter squared. M. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 0.25 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 0.25 in units of kilogram per meter squared. N. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 0.5 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 0.5 in units of kilogram per meter squared. O. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 0.75 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 0.75 in units of kilogram per meter squared. P. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 1.0 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 1.0 in units of kilogram per meter squared. Q. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 1.25 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 1.25 in units of kilogram per meter squared. R. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 1.5 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 1.5 in units of kilogram per meter squared. S. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 1.75 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 1.75 in units of kilogram per meter squared. T. Name: Annual Fresh Weight in the LSC Greenhouse with LR305 Films at an Optical Density of 2.0 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using LR305 films at an optical density of 2.0 in units of kilogram per meter squared. U. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 0.25 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 0.25 in units of kilogram per meter squared. V. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 0.5 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 0.5 in units of kilogram per meter squared. W. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 0.75 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 0.75 in units of kilogram per meter squared. X. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 1.0 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 1.0 in units of kilogram per meter squared. Y. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 1.25 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 1.25 in units of kilogram per meter squared. Z. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 1.5 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 1.5 in units of kilogram per meter squared. AA. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 1.75 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 1.75 in units of kilogram per meter squared. AB. Name: Annual Fresh Weight in the LSC Greenhouse with Si Films at an Optical Density of 2.0 (kg/m^2) Description: The annual fresh weight of lettuce produced in a given location in the LSC greenhouse using Si films at an optical density of 2.0 in units of kilogram per meter squared. AC. Name: Greenhouse that Produced the Highest Lettuce Yield (-) Description: Name of the greenhouse (either conventional or luminophore name for LSC greenhouses) that produced the most lettuce in a given location. AD. Name: Optical Density (-) Description: The corresponding optical density at 450 nm of the optimized luminophore listed in Column AC. If the conventional greenhouse was the optimized choice, the optical density is entered as 0. ----------------------------------------- DATA-SPECIFIC INFORMATION FOR: US Map Shade T.csv ----------------------------------------- 1. Number of variables: 28 2. Number of cases/rows: 48 3. Variable List A. Name: Location Names (CitySTATE) Description: Cities and states for each simulated greenhouse's location. For example, a greenhouse located in Fort Lauderdale, Florida would be named FortLauderdaleFL. B. Name: Latitude (degrees) Description: Latitude of the simulated greenhouse. C. Name: Longitude (degrees) Description: Longitude of the simulated greenhouse. D. Name: Shade Cloth Transmittance for the Conventional Greenhouse (%) Description: The selected shade cloth transmittance for the conventional greenhouse in units of percent. E. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 0.25 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 0.25 in units of percent. F. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 0.5 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 0.5 in units of percent. G. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 0.75 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 0.75 in units of percent. H. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.0 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 1.0 in units of percent. I. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.25 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 1.25 in units of percent. J. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.5 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 1.5 in units of percent. K. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 1.75 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 1.75 in units of percent. L. Name: Shade Cloth Transmittance for the LSC Greenhouse with CIS/ZnS Films at an Optical Density of 2.0 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using CIS/ZnS films at an optical density of 2.0 in units of percent. M. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 0.25 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 0.25 in units of percent. N. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 0.5 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 0.5 in units of percent. O. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 0.75 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 0.75 in units of percent. P. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 1.0 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 1.0 in units of percent. Q. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 1.25 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 1.25 in units of percent. R. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 1.5 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 1.5 in units of percent. S. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 1.75 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 1.75 in units of percent. T. Name: Shade Cloth Transmittance for the LSC Greenhouse with LR305 Films at an Optical Density of 2.0 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using LR305 films at an optical density of 2.0 in units of percent. U. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 0.25 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 0.25 in units of percent. V. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 0.5 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 0.5 in units of percent. W. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 0.75 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 0.75 in units of percent. X. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 1.0 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 1.0 in units of percent. Y. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 1.25 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 1.25 in units of percent. Z. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 1.5 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 1.5 in units of percent. AA. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 1.75 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 1.75 in units of percent. AB. Name: Shade Cloth Transmittance for the LSC Greenhouse with Si Films at an Optical Density of 2.0 (%) Description: The selected shade cloth transmittance for an LSC greenhouse in a given location using Si films at an optical density of 2.0 in units of percent.