Effects of Combined Applications of Pig Manure and Chemical Fertilizers on CH4 and N2O Emissions and Their Global Warming Potentials in Paddy Fields with Double-Rice CroppingChinese Full Text
WANG Cong;SHEN Jian-lin;ZHENG Liang;LIU Jie-yun;QIN Hong-ling;LI Yong;WU Jin-shui;Key Laboratory of Agro-ecological Processes in Subtropical Region,Institute of Subtropical Agriculture,Chinese Academy of Sciences;Changsha Research Station for Agricultural & Environmental Monitoring,Institute of Subtropical Agriculture,Chinese Academy of Sciences;University of Chinese Academy of Sciences;College of Bioscience and Biotechnology,Hunan Agricultural University;
Abstract: A field experiment was carried out to study the effects of combined applications of pig manure and chemical fertilizers on CH4 and N2O emissions,which were measured using the static chamber/gas chromatography method,and their global warming potentials in typical paddy fields with double-rice cropping in Hunan province. The results showed that the combined applications of pig manure and chemical fertilizers did not change the seasonal patterns of CH4 and N2O emissions from paddy soils,but significantly changed the magnitudes of CH4 and N2O fluxes in rice growing seasons as compared with sole application of chemical fertilizers. During the two rice growing seasons,the cumulative CH4 emissions for the pig manure and chemical nitrogen(N) fertilizer each contributing to50% of the total applied N(1/2N + PM) treatment were higher than those for the treatments of no N fertilizer(0N),half amount of chemical N fertilizer(1/2N) and 100% chemical N fertilizer(N) by 54. 83%,33. 85% and 43. 30%,respectively(P < 0. 05),whilst the cumulative N2 O emissions for the 1/2N + PM treatment were decreased by 67. 50% compared with N treatment,but increased by 129. 43% and 119. 23% compared with 0N and 1/2N treatments,respectively(P < 0. 05). CH4 was the dominant contributor to the global warming potential(GWP) in both rice growing seasons,which contributed more than 99% to the integrated GWP of CH4 and N2O emissions for all the four treatments. Both GWP and yield-scaled GWP for the treatment of 1/2N + PM were significantly higher than the other three treatments. The yield-scaled GWP for the treatment of 1/2N + PM was higher than those for the N,1/2N and 0N treatments by 58. 21%,26. 82% and 20. 63%,respectively. Therefore,combined applications of pig manure andchemical fertilizers in paddy fields would increase the GWP of CH4 and N2O emissions during rice growing seasons and this effect should be considered in regional greenhouse gases emissions inventory.
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- DOI:
10.13227/j.hjkx.2014.08.040
- Series:
- Subject:
- Classification Code:
X144;X712
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