Effects of Urea and Controlled Release Urea Fertilizers on Methane Emission from Paddy Fields: A Multi-Year Field Study 被引量：22

Effects of Urea and Controlled Release Urea Fertilizers on Methane Emission from Paddy Fields: A Multi-Year Field Study

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摘要 A four-year(2008–2011) field study was implemented in a major rice-growing region of China to better understand the effect of urea and controlled release fertilier(CRF, thermoplastic resin-coated urea in this study) on CH4 emission from paddy fields. Over the four years, the average CH4 emission during the rice growing seasons was 76.9, 65.8 and 64.9 kg CH4ha-1in treatments CK(zero N), U(urea) and C(CRF), respectively. Urea and CRF significantly reduced CH4 emission by 14.4% and 15.6%, and increased average rice grain yield by 25.8% and 19.7%(P < 0.05), respectively, compared with treatment CK. Flooding duration would affect CRF's effect on CH4 emission from paddy fields. Under normal aeration conditions, CH4 emission tended to be 3.9%–15.2% lower in treatment C than in treatment U from 2009 to 2011, while it tended to be 4.2% higher under delayed aeration conditions in 2008. The findings suggest that mid-season aeration(MSA) starting on D30(30 days after rice transplanting), just like the local practice, would optimize the CRF's effect on CH4 emission from rice fields in China. Over the four years, average rice yield did not differ between treatments U and C, and tended to be 5% lower in treatment C than in treatment U. A four-year（2008–2011） field study was implemented in a major rice-growing region of China to better understand the effect of urea and controlled release fertilier（CRF, thermoplastic resin-coated urea in this study） on CH4 emission from paddy fields. Over the four years, the average CH4 emission during the rice growing seasons was 76.9, 65.8 and 64.9 kg CH4ha-1in treatments CK（zero N）, U（urea） and C（CRF）, respectively. Urea and CRF significantly reduced CH4 emission by 14.4% and 15.6%, and increased average rice grain yield by 25.8% and 19.7%（P 〈 0.05）, respectively, compared with treatment CK. Flooding duration would affect CRF＇s effect on CH4 emission from paddy fields. Under normal aeration conditions, CH4 emission tended to be 3.9%–15.2% lower in treatment C than in treatment U from 2009 to 2011, while it tended to be 4.2% higher under delayed aeration conditions in 2008. The findings suggest that mid-season aeration（MSA） starting on D30（30 days after rice transplanting）, just like the local practice, would optimize the CRF＇s effect on CH4 emission from rice fields in China. Over the four years, average rice yield did not differ between treatments U and C, and tended to be 5% lower in treatment C than in treatment U.

作者 JI Yang LIU Gang MA Jing ZHANG Guang-Bin XU Hua

机构地区 State Key Laboratory of Soil and Sustainable Agriculture Department of Applied Meteorology State Key Laboratory of Soil and Sustainable Agriculture

出处《Pedosphere》 SCIE CAS CSCD 2014年第5期662-673,共12页 土壤圈（英文版）

基金 Supported by the Key Program for International S&T Cooperation Projects of China(No.2012DFG90290) the Non-Profit Research Foundation for Agriculture,China(No.201103039) the National Natural Science Foundation of China(Nos.41271259 and 412012433) the Research Fund of State Key Laboratory of Soil and Sustainable Agriculture,Institute of Soil Science,Chinese Academy of Sciences(No.Y412201414)

关键词 FLOOD trace gas mid-season aeration paddy soil rice yield thermoplastic resin-coated urea 控释尿素甲烷排放稻田 CH4排放肥料水稻产量 CRF 热塑性树脂

分类号 S181 [农业科学—农业基础科学]

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