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Can N2 O emissions offset the benefits from soil organic carbon storage?

Bertrand GuenetBenoit GabrielleClaire ChenuDominique ArrouaysJérôme BalesdentMartial BernouxElisa BruniJean-Pierre CalimanRémi CardinaelSongchao ChenPhilippe CiaisDominique DesboisJulien FoucheStefan FrankCatherine HenaultEmanuele LugatoVictoria NaipalThomas NesmeMichael ObersteinerSylvain PellerinDavid S PowlsonDaniel P RasseFrédéric ReesJean-François SoussanaYang SuHanqin TianHugo ValinFeng Zhou
Published in: Global change biology (2020)
To respect the Paris agreement targeting a limitation of global warming below 2°C by 2100, and possibly below 1.5°C, drastic reductions of greenhouse gas emissions are mandatory but not sufficient. Large-scale deployment of other climate mitigation strategies is also necessary. Among these, increasing soil organic carbon (SOC) stocks is an important lever because carbon in soils can be stored for long periods and land management options to achieve this already exist and have been widely tested. However, agricultural soils are also an important source of nitrous oxide (N2 O), a powerful greenhouse gas, and increasing SOC may influence N2 O emissions, likely causing an increase in many cases, thus tending to offset the climate change benefit from increased SOC storage. Here we review the main agricultural management options for increasing SOC stocks. We evaluate the amount of SOC that can be stored as well as resulting changes in N2 O emissions to better estimate the climate benefits of these management options. Based on quantitative data obtained from published meta-analyses and from our current level of understanding, we conclude that the climate mitigation induced by increased SOC storage is generally overestimated if associated N2 O emissions are not considered but, with the exception of reduced tillage, is never fully offset. Some options (e.g. biochar or non-pyrogenic C amendment application) may even decrease N2 O emissions.
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