Quantifying carbon (C) sequestration in paddy soils is necessary to help better understand the effect of agricultural practices on the C cycle. The objective of the present study was to assess the effects of tillage practices [conventional tillage (CT) and no-tillage (NT)] and the application of nitrogen (N) fertilizer (0 and 210 kg N ha−1) on fluxes of CH4 and CO2, and soil organic C (SOC) sequestration during the 2009 and 2010 rice growing seasons in central China. Application of N fertilizer significantly increased CH4 emissions by 13%–66% and SOC by 21%–94% irrespective of soil sampling depths, but had no effect on CO2 emissions in either year. Tillage significantly affected CH4 and CO2 emissions, where NT significantly decreased CH4 emissions by 10%–36% but increased CO2 emissions by 22%–40% in both years. The effects of tillage on the SOC varied with the depth of soil sampling. NT significantly increased the SOC by 7%–48% in the 0–5 cm layer compared with CT. However, there was no significant difference in the SOC between NT and CT across the entire 0–20 cm layer. Hence, our results suggest that the potential of SOC sequestration in NT paddy fields may be overestimated in central China if only surface soil samples are considered.
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机译:为了更好地了解农业实践对碳循环的影响,必须对稻田土壤中的碳(C)隔离进行量化。本研究的目的是评估耕作方式的影响[常规耕作(CT)和免耕(NT)],以及施用氮肥(0和210 kg N ha-1)对土壤通量的影响。中国中部2009年和2010年水稻生长季的CH4和CO2以及土壤有机碳(SOC)的固存。不论土壤采样深度如何,施用氮肥均显着增加了CH4排放量13%–66%和SOC 21%–94%,但在任何一年中均不影响CO2排放。耕作显着影响了CH4和CO2排放,在这两个年度中,NT显着降低了CH4排放10%–36%,但增加了CO2排放22%–40%。耕作对土壤有机碳的影响随土壤采样深度的变化而变化。与CT相比,NT在0-5 cm层中的SOC显着提高了7%-48%。但是,在整个0-20 cm的层中,NT和CT之间的SOC没有显着差异。因此,我们的结果表明,如果仅考虑表层土壤样本,则在中国中部地区可能会高估北半球稻田中SOC隔离的潜力。
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