MLC-CHEM code and data for A vertically-resolved canopy improves chemical transport model predictions of ozone deposition to north temperate forests

Vermeuel, Michael
Millet, Dylan
Farmer, Delphine
Ganzeveld, Laurens
Visser, Auke
Alwe, Hariprasad
Bertram, Timothy
Cleary, Patricia
Desai, Ankur
Helmig, Detlev
Kavassalis, Sarah
Link, Michael
Pothier, Matson
Riches, Mj
Wang, Wei
Williams, Sara
2024-11-21
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https://doi.org/10.13020/h966-ms14
 https://hdl.handle.net/11299/267902
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2016
2021

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MLC-CHEM code and data for A vertically-resolved canopy improves chemical transport model predictions of ozone deposition to north temperate forests

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2024-11-21

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University of Minnesota Atmospheric Chemistry Group

Author Contact

Millet, Dylan
dbm@umn.edu

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Dataset
Simulation Data
Observational Data

Abstract

This data set includes model code, input, and output data to constrain the 1D Multi-Layer Canopy CHemistry and Exchange Model (MLC-CHEM) for simulations of ozone deposition over three north temperate forests across four field studies. These studies include The Flux Closure Study 2021, The Probing Ecosystem Responses Involving Notable Organics (PEcoRINO) study in 2020, The Chequamegon Heterogenous Ecosystem Energy-balance Study Enabled by a High-density Extensive Array of Detectors 2019 (CHEESEHEAD19) in 2019, and the Program for Research on Oxidants: Photochemistry, Emissions, Transport - Atmospheric Measurements of Oxidants in Summer (PROPHET-AMOS) in 2016.

Description

This folder contains subdirectories for individual MLC-CHEM input data, code, and output data for: a. Manitou Experimental Forest Observatory during the FluCS 2021 study, Woodland Park, CO Aug-Sep 2021 (FluCS) b. Chequamegon-Nicolet National Forest at the Us-PFA/WLEF-TV tower during the CHEESHEAD19 field study, Park Falls, WI Jul 2019 (C19) c. University of Michigan Biological Station during the PROPHET AMOS field study, MI, Jul 2016 (PROPHET) d. Chequamegon-Nicolet National Forest at the Us-PFA/WLEF-TV tower during the PEcoRINO field study, Park Falls, WI Sep 2020 (LEF)

Referenced by

https://doi.org/10.22541/essoar.172313458.86659538/v1
M.P. Vermeuel, D.B. Millet, D.K. Farmer, L.N. Ganzeveld, A.J. Visser, H.D. Alwe, T.H. Bertram, P.A. Cleary, A.R. Desai, D. Helmig, S.C. Kavassalis, M.F. Link, M.A. Pothier, M. Riches, W. Wang, S. Williams (2024), A vertically resolved canopy improves chemical transport model predictions of ozone deposition to north temperate forests, J. Geophys. Res., Accepted

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Data Repository for U of M (DRUM)

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National Science Foundation (AGS-1932771, AGS-1932849)

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Vermeuel, Michael; Millet, Dylan; Farmer, Delphine; Ganzeveld, Laurens; Visser, Auke; Alwe, Hariprasad; Bertram, Timothy; Cleary, Patricia; Desai, Ankur; Helmig, Detlev; Kavassalis, Sarah; Link, Michael; Pothier, Matson; Riches, Mj; Wang, Wei; Williams, Sara. (2024). MLC-CHEM code and data for A vertically-resolved canopy improves chemical transport model predictions of ozone deposition to north temperate forests. Retrieved from the Data Repository for the University of Minnesota (DRUM), https://doi.org/10.13020/h966-ms14.

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VermeuelJGRA_2024_files.zip
Data and model simulations
(42.5 MB)

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