模拟增温条件下翻耕免耕农田土壤CH<sub>4</sub>通量响应

涂纯; 李发东

文章摘要

涂纯,李发东.模拟增温条件下翻耕免耕农田土壤CH₄通量响应[J].农业环境科学学报,2016,35(9):1788-1796.

模拟增温条件下翻耕免耕农田土壤CH₄通量响应

Responses of soil CH₄ fluxes to simulated warming in conventional tillage and no-tillage systems

投稿时间：2016-02-12

DOI：10.11654/jaes.2016-0182

中文关键词: 模拟增温翻耕农田免耕农田土壤CH₄通量

英文关键词: simulated warming conventional tillage system no-tillage system soil CH₄ flux

基金项目:国家自然科学基金项目（31170414）；中国科学院“百人计划”项目

作者	单位	E-mail
涂纯	中国科学院地理科学与资源研究所生态系统网络观测与模拟重点实验室, 北京 100101 中国科学院大学, 北京 100049
李发东	中国科学院地理科学与资源研究所生态系统网络观测与模拟重点实验室, 北京 100101 中国科学院大学, 北京 100049	lifadong@igsnrr.ac.cn

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中文摘要:

为研究未来气候变暖下我国华北翻耕、免耕农田CH₄通量响应，评估该地农田碳汇/源情况，使用远红外辐射增温仪模拟气候变暖，设计翻耕增温（CTW）、翻耕不增温（CTN）、免耕增温（NTW）、免耕不增温（NTN）4个处理。研究表明，2013-2015年小麦-玉米季，增温分别显著提高翻耕、免耕农田10 cm土壤温度1.5℃和1.4℃（P<0.05）；但对两种耕作农田土壤水分的影响并不显著（P>0.05）。各处理土壤CH₄通量无明显季节变化，但累积CH₄吸收具有显著年际差异。2013-2014年小麦季，CTW和NTW相比CTN和NTN处理，累积CH₄吸收分别显著增加35.8%和108.8%（P<0.01）；但在2014-2015年，CTW处理显著降低17.7%（P<0.05）。两年玉米季，处理间累积CH₄吸收无显著差异（P>0.05）。各处理土壤微生物生物量碳（MBC）含量与CH₄存在显著正相关关系。未来气候变暖条件下，翻耕农田MBC含量减小将可能减缓华北农田CH₄吸收。

英文摘要:

Methane(CH₄) is one of the most important greenhouse gases contributing to climate warming. Understanding the responses of cropland soil CH₄ fluxes to climate warming under different tillage systems is critical to evaluation of the dynamics of soil carbon sink/source along with climate changes in the North China Plain(NCP). A field experiment of simulated climate warming using infrared radiation instrument was conducted to measure CH₄ fluxes from the wheat-maize rotation field with four treatments including conventional tillage with and without warming(CTW and CTN) and no-tillage with and without warming(NTW and NTN). Results showed that during wheat-maize growing period in 2013-2015 soil temperature at 10 cm soil depth was significantly elevated by 1.5℃ in CTW, and 1.4℃ in NTW, compared with CTN and NTN, respectively(P<0.05). The warming did not significantly affect soil moisture in these two tillage systems because of irrigation(P>0.05). Furthermore, soil CH₄ fluxes did not show obvious seasonal changes among treatments. However, annual cumulative soil CH₄ uptake showed significant differences among years. During wheat season in 2013-2014, the cumulative CH₄ uptake in CTW and NTW increased by 35.8% and 108.8%, compared with those in CTN and NTN, respectively(P<0.01). During 2014-2015, however, it was reduced by 17.7% in CTW, compared with CTN(P<0.05). During maize season in two years, cumulative CH₄ uptake was not significantly affected by experimental warming in two tillage systems(P>0.05). In addition, a significant positive relationship between soil microbial biomass carbon(MBC) and CH₄ uptake was found. Decreased MBC content in CTW indicated that the limitation of climate warming projection on activity of soil organism may reduce the capability of soil CH₄ sink in conventional tillage farmland of NCP.

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