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Abstract:
Abstract
Under elevated atmospheric CO2 (eCO2) and tropospheric O3 (eO3), soil microbial processes can be altered through plant input changes. Particularly, processes underlying N2O emissions are characterized by various controls that can be affected differently by eCO2 and eO3. In order to determine the effect of eCO2 and eO3 on sources of N2O emissions, we set up an incubation experiment using soils from a soybean agroecosystem that was exposed to elevated CO2 and/or O3 in a free air concentration enrichment experiment (SoyFACE). Ammonium nitrate, isotopically enriched in either ammonium ((15NH4)2NO3) or nitrate ((NH4)215NO3), was added to the soils and N2O emissions as well as 15N content in N2O were determined over time (12 days). We hypothesized that eCO2 would increase total N2O emissions and the fraction of N2O derived from denitrification (N2OD), driven by an increase in root exudation and anaerobic microhabitat associated with increased soil aggregation. Under eO3, decreased root exudation, decreased soil aggregation and decreased N2-fixation resulting in increased uptake of soil NO3- and thus decreased availability of NO3- for denitrifiers have been observed. Therefore, we expected a decrease in total N2O emissions and an increase in the fraction of nitrification derived N2O (N2ON) under eO3. eCO2 tended to increase total N2O emissions (p = 0.0703), while eO3 had no effect. After addition of (15NH4)2NO3, we observed a significant increase in 15N2O for soils previously exposed to O3, while significantly higher 15N2O was found under eCO2 on day 2 and 9 of the incubation after addition of (NH4)215NO3. This suggests an increase in N2ON under eO3 and an increase in N2OD under eCO2, corroborating our hypothesis. Our results demonstrate significant effects of eCO2 and eO3 on sources of N2O emissions from soybean agroecosystems, which can have important implications for predicting and mitigating future N2O emissions.