Journal article
Effect of long term fertilization management strategies on methane emissions and rice yield
P Hou, Y Yu, L Xue, E Petropoulos, S He, Y Zhang, A Pandey, L Xue, L Yang, D Chen
Science of the Total Environment | Published : 2020
Abstract
Optimum fertilization is an efficient method to maintain rice yield and reduce N-losses. It is essential though to evaluate methane emissions from paddy fields, to further understand its impact on greenhouse gas budget. Therefore, a field experiment was conducted to investigate the effect of long-term optimum fertilization on CH4 emissions and rice yield. We collected data in the 7th and 8th year from a field experiment initiated in 2010. Four optimum fertilization strategies, reduced N-fertilizer and zero-P treatment (RNP, 200 kg N/ha), sulfur-coated urea combined with uncoated urea treatment (SCU, 200 kg N/ha), organic fertilizer combined chemical fertilizer treatment (OCN, 200 kg N/ha), o..
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Awarded by National Natural Science Foundation of China
Funding Acknowledgements
This work was supported by the National Key Research and Development Program, Ministry of Science and Technology, China [2017YFD0300104]; the National Natural Science Foundation of China [41601319]; the National Major Project of Science and Technology Ministry of China [2017ZX07202-004-03]; and Jiangsu Agriculture Science and Technology Independent Innovation Fund [CX (19)1007]. The authors would like to thank Prof. Yu Jiang from Nanjing Agricultural University and Dr. Jun Zhang from Chinese Academy of Agricultural Sciences for technical support.