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作 者:路壹 黄璜[2,3] 郑华斌[2,3] 姚林[1,2] 贺慧[1,2] 刘建霞[1,2] 李静怡[2,3]
机构地区:[1]湖南农业大学生物科学与技术学院,长沙410128 [2]南方粮油作物协同创新中心,长沙410128 [3]湖南农业大学农学院,长沙410128
出 处:《作物研究》2015年第3期240-243,共4页Crop Research
摘 要:运用生态经济学原理,对湖南省典型水稻生产系统的固碳能力与碳足迹进行系统分析和比较。结果表明:早稻、中稻和晚稻生产系统固碳能力分别为3 901.7、5 375.2、4 852.3 kg C/hm2,3个水稻生产系统每生产1 kg的经济产量相当于固定0.61、0.67、0.65 kg C。早稻、中稻和晚稻生产系统的生产资料碳足迹分别为0.172、0.133、0.139 kg CO2equi./kg。早稻、中稻和晚稻生产系统的生产资料碳足迹以化肥最大,其次是电力和柴油的碳足迹。The carbon sequestration and carbon footprint in the typical rice production system in Hunan province were ana- lyzed and compared by the principle of ecological economics. The results showed that carbon sequestration capacity of early rice, middle - season rice and late rice production system were 3 901.7,5 375.2,4 852. 3 kg C/hm2 , respectively. 1 kg e- conomic yield in three rice production systems were equivalent to fix O. 65,0.67,0.61 kg C ,respectively. Carbon footprints of production materials in the early rice, middle -season rice and late rice production system were 0. 172,0. 133, 0. 139 kgCO2 equi./kg, the biggest carbon footprint among production materials in the early rice, middle -season rice and late rice production system was chemical fertilizer,followed by the electric power and diesel.
分 类 号:S314[农业科学—作物栽培与耕作技术] S511[农业科学—农艺学]
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