Methane emission from rice fields as affected by land use change

Article ID	Journal	Published Year	Pages	File Type
10970585	Agriculture, Ecosystems & Environment	2010	7 Pages	PDF

Abstract

â¶ Conversion of upland crop to rice paddy significantly reduces CH4 emission â¶ Continuous rice cultivation resulted in higher CH4 emission than short-term paddy â¶ High CH4 emissions from continuous rice cultivation was attributed to increase Fe(II) concentration and population of methanogenic archaea â¶ Length of non-paddy significantly reduces electron donor availability as revealed by low Fe(III) reduction and methanogenic archaeal population causing low CH4 emission.

Keywords

Electron donor Rice paddy Land conversion Methane Methanogens Electron acceptor

Related Topics

Life Sciences Agricultural and Biological Sciences Agronomy and Crop Science

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Methane emission from rice fields as affected by land use change

Authors

Moniruzzaman Khan Eusufzai, Takeshi Tokida, Masumi Okada, Shu-ichi Sugiyama, Guang Cheng Liu, Miyuki Nakajima, Ryoji Sameshima,