农田土壤碳汇与稻田土壤温室气体排放研究进展

Guo Liping, Lin Erda
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引用次数: 77

摘要

本文讨论了水稻土壤对大气温室效应的双重贡献。一方面,中国水稻土的有机碳储量比旱地土壤多12-58%;近600年来,由于旱地土壤向水稻土的转化,水稻土0 ~ 100 cm土壤深度的有机碳储量增加了120.8 ~ 584.0 Tg (Teragram=1012g)。另一方面,水稻土是大气CH4的另一个重要来源。在控制CH4排放的因素中,本文主要综述了水状况。季中曝气是减少CH4排放和提高水稻产量的手段之一。而N2O在流域期确实有排放,其长期全球变暖潜势(GWP)较高。因此,合理控制水稻土的水分状况,合理施用氮肥,以最大限度地增加其汇量,最大限度地减少其大气温室气体源。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Carbon sink in cropland soils and the emission of greenhouse gases from paddy soils: a review of work in China

This paper discusses the dual contribution of rice paddy soils to atmospheric greenhouse effect. On one hand, the paddy soils store more organic carbon than the upland soils by 12–58% in China. The amount of organic carbon stored in paddy soils increased by 120.8–584.0 Tg (Teragram=1012g) in 0–100 cm soil depths due to the conversion of upland soils to paddy soils in the past 600 years in China. On the other hand, the paddy soils are another important source of atmospheric CH4. Among the factors governing the CH4 emission, the water regime was mainly reviewed in this paper. Mid-season aeration is one of the means to mitigate the CH4 emission and also contribute to the higher rice yield. However N2O emission does occur during the drainage period, and its global warming potential (GWP) is higher in long term. Therefore, it is important to properly control the water regimes and judiciously use nitrogen fertilizers in paddy soils in order to maximize its sinks and minimize its sources of atmospheric greenhouse gases (GHGs).

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