Improving cropping systems reduces the carbon footprints of wheat-cotton production under different soil fertility levels
文献类型: 外文期刊
第一作者: Wang, Zhanbiao
作者: Wang, Zhanbiao;Wang, Guoping;Han, Yingchun;Feng, Lu;Fan, Zhengyi;Lei, Yaping;Yang, Beifang;Li, Xiaofei;Xiong, Shiwu;Xing, Fangfang;Xin, Minghua;Du, Wenli;Li, Yabing;Li, Cundong
作者机构:
关键词: Carbon footprint; greenhouse gas emissions; cotton; wheat; cropping system
期刊名称:ARCHIVES OF AGRONOMY AND SOIL SCIENCE ( 影响因子:3.092; 五年影响因子:2.745 )
ISSN: 0365-0340
年卷期:
页码:
收录情况: SCI
摘要: A field experiment was performed to assess the carbon footprint (CF) of four cropping systems to identify the sustainable cropping system. The four cropping systems were cotton monoculture (CM), winter wheat intercropped with cotton (WIC), wheat cropping followed by transplanted cotton (WTC) and direct-seeded cotton after winter wheat harvest (WDC). The CF calculated per unit area (CFa), yield (CFy), biomass (CFb) and economic output (CFe) increased in the order CM < WIC < WTC < WDC in the low-fertility plot and WIC < WTC < WDC < CM in the high-fertility plot. The results indicated that CM was the best cropping system in the low-fertility plot and presented CFa, CFy, CFb and CFe values of 4848.14 kg CO(2)eq ha(-1) a(-1), 0.41 kg CO(2)eq kg(-1) a(-1), 0.17 kg CO(2)eq kg(-1) a(-1) and 0.06 kg CO(2)eq yen a(-1), respectively, whereas WIC was the cropping system with the lowest CFs in the high-fertility plot and presented CFa, CFy, CFb and CFe values of 14,410.70 kg CO(2)eq ha(-1) a(-1), 1.31 kg CO(2)eq kg(-1)a(-1), 0.53 kg CO(2)eq kg(-1) a(-1) and 0.34 kg CO(2)eq yen (-1)a(-1), respectively. Thus, it can be concluded that improving cropping systems provides a good option for reducing CF and consequently mitigating climate change.
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