Can biochar amendment be an ecological engineering technology to depress N2O emission in rice paddies?-A cross site field experiment from South China

Article ID	Journal	Published Year	Pages	File Type
6302774	Ecological Engineering	2012	6 Pages	PDF

Abstract

âº Biochar amendment to seasonally flooded rice paddy fields could greatly depress N2O emission and increase N use efficiency while enhance soil fertility. âº Emission intensity of N2O in rice grain production could be greatly reduced while sustaining high yield, improving the managed wetland ecosystem services. âº As the above effects observed across the sites from South China, biochar amendment is recommended as an ecological engineering technology to mitigate N2O emission and sustain rice productivity in China.

Keywords

Biochar amendment AEN Field experiment Nitrogen use efficiency N2O emission Emission intensity Emission factor Ecological engineering

Related Topics

Life Sciences Agricultural and Biological Sciences Ecology, Evolution, Behavior and Systematics

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Can biochar amendment be an ecological engineering technology to depress N2O emission in rice paddies?-A cross site field experiment from South China

Authors

Xiao-yu Liu, Jing-jing Qu, Lian-qing Li, A-feng Zhang, Zheng Jufeng, Jin-wei Zheng, Gen-xing Pan,