Assessing Agricultural Nitrous Oxide Emissions and Hot Moments Using Mesocosm Simulations
2021-02
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Assessing Agricultural Nitrous Oxide Emissions and Hot Moments Using Mesocosm Simulations
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2021-02
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Nitrous oxide (N2O) is a major greenhouse gas and the leading stratospheric ozone depleting substance emitted today. Effective mitigation strategies from agricultural soils, the largest anthropogenic source of N2O, have remained elusive due to the occurrence of difficult to predict “hot moments,” or brief periods that contribute disproportionately to N2O budgets. Future precipitation patterns may further complicate mitigation efforts by causing more favorable soil conditions that drive N2O emissions. The objectives of this thesis, therefore, were to: 1) Assess the sensitivity of N2O emissions to changes in precipitation; 2) Devise an approach to objectively identify hot moments; and 3) Identify the conditions that drive these hot moments. Six growing season simulations with nearly continuous N2O measurements from an indoor mesocosm facility were used to address each of these objectives.Four seasons comparing historical normal (1984-2014) versus end-of-century (2071-2099) precipitation patterns demonstrated that, for non-limiting soil nitrogen, the greatest N2O emissions occurred when soil water-filled pore space (WFPS) was between 40 and 80% and that cumulative emissions increased with the number of days above ~60% WFPS. Consequently, any future changes in precipitation that contribute to these conditions will likely increase N2O emissions. An assessment of 1350 rain events revealed that N2O emissions consistently increased within 24 hours of rainfall and when soil moisture was near ~60% WFPS and NH4+ was greater than 10 mg N kg-1 soil. However, emissions were suppressed when WFPS was ~60% and soil NH4+ was below 5 mg N kg-1 soil, demonstrating that soil NH4+ availability is an important determinant of the N2O emission response to rain. Finally, a new approach to categorize hot moments from background N2O emissions identified greater soil nitrate (NO3-), air temperature, and 10 cm WFPS among hot moments. Further, short-term pulses (up to 38 hours) of hot moments were sustained when nitrate (NO3-) was greater than 50 mg N kg-1 soil and WFPS was above 50%, and were controlled by short-term changes in WFPS and air temperature. These findings have important implications for the development of N2O emission models, agricultural management and mitigation strategies, and demonstrate the efficacy of conducting mesocosm experiments under controlled conditions.
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University of Minnesota M.S. thesis. 2021. Major: Land and Atmospheric Science. Advisor: Timothy Griffis. 1 computer file (PDF); 133 pages.
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Miller, Lee. (2021). Assessing Agricultural Nitrous Oxide Emissions and Hot Moments Using Mesocosm Simulations. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/219276.
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