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Research of wheat production efficiency based on fertilizer reduction potential and carbon emission reduction |
ZHU Ning, CAO Bo, QIN Fu |
Institute of Agricultural Economics and Development, Chinese Academy of Agricultural Sciences, Beijing 100081, China |
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Abstract Based on input-output data of wheat in main wheat-producing provinces of China from 2004 to 2015, the potential of chemical fertilizer reduction and carbon emission reduction in wheat production in China was analyzed and the environmental efficiency and environment of wheat production were estimated using SBM model and ML index respectively in this paper. The results showed that:under the condition of scientific fertilization, the potential of reducing chemical fertilizers and reducing carbon emissions from wheat production in major producing provinces were 51.66% and 37.41% respectively. Under the conditions of fertilizer reduction and carbon emission reduction, the efficiency of wheat production environment was not reduced, the average efficiency of wheat production environment was 0.970 from 2004 to 2015, and the efficiency of wheat production environment in the north was lower than that in the south; the MLEFFCH index, MLTECH Index, the ML index of wheat production exceeded 1, which was larger than that of the chemical fertilizers. Fertilizer reduction and carbon reduction should benefit the actual production approaching to the maximum production output, in order to achieve the optimal Pareto production.
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Received: 23 June 2017
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[1] |
蔡荣.农业化学品投入状况及其对环境的影响[J]. 中国人口·资源与环境, 2010,20(3):107-110.
|
[2] |
Vitousek P M, Naylor R, Crews T, et al. Nutrient imbalances in agricultural development[J]. Science, 2009,324(19):1519-1520.
|
[3] |
Guo J H, Liu X J, Zhang Y, et al. Significant acidification in major Chinese croplands[J]. Science, 2010,327(19):1008-1010.
|
[4] |
陆文聪,刘聪.化肥污染对粮食作物生产的环境惩罚效应[J]. 中国环境科学, 2017,37(5):1988-1994.
|
[5] |
Ongley, E D, Zhang X, Xu T. Current status of agricultural and rural non-point source pollution assessment in China[J]. Environmental Pollution, 2010,158(5):1159-1168.
|
[6] |
张维理,冀宏杰,Kolbe H,等.中国农业面源污染形势估计及控制对策Ⅱ. 欧美国家农业面源污染状况及控制[J]. 中国农业科学, 2004,37(7):1018-1025.
|
[7] |
张维理,徐爱国,冀宏杰,等.中国农业面源污染形势估计及控制对策Ⅲ.中国农业面源污染控制中存在问题分析[J]. 中国农业科学, 2004,37(7):1026-1033.
|
[8] |
李波,张俊飚,李海鹏.中国农业碳排放时空特征及影响因素分解[J]. 中国人口·资源与环境, 2011,21(8):80-86.
|
[9] |
张灿强,王莉,华春林,等.中国主要粮食生产的化肥削减潜力及其碳减排效应[J]. 资源科学, 2016,38(4):790-797.
|
[10] |
张海鑫,杨钢桥.耕地细碎化及其对粮食生产技术效率的影响——基于超越对数随机前沿生产函数与农户微观数据[J]. 资源科学, 2012,34(5):903-910.
|
[11] |
马林静,欧阳金琼,王雅鹏.农村劳动力资源变迁对粮食生产效率影响研究[J]. 中国人口·资源与环境, 2014,24(9):103-109.
|
[12] |
赵丽平,侯德林,王雅鹏,等.城镇化对粮食生产环境技术效率影响研究[J]. 中国人口·资源与环境, 2016,26(3):153-162.
|
[13] |
高鸣,马玲.贫困视角下粮食生产技术效率及其影响因素——基于EBM-Goprobit二步法模型的实证分析[J]. 中国农村观察, 2015,36(4):49-60.
|
[14] |
李静,李晶瑜.中国粮食生产的化肥利用效率及决定因素研究[J]. 农业现代化研究, 2011,32(5):565-568.
|
[15] |
杨增旭,韩洪云.化肥施用技术效率及影响因素——基于小麦和玉米的实证分析[J]. 中国农业大学学报, 2011,16(1):140-147.
|
[16] |
史常亮,朱俊峰,栾江.我国小麦化肥投入效率及其影响因素分析——基于全国15个小麦主产省的实证[J]. 农业技术经济, 2015,36(11):69-78.
|
[17] |
田云,张俊飚,李波.中国粮食主产区农业碳排强度估算及其分析[J]. 地理科学进展, 2012,31(11):1546-1551.
|
[18] |
田云.中国低碳农业发展:生产效率、空间差异与影响因素研究[D]. 武汉:华中农业大学, 2015.
|
[19] |
杨璐嘉.低碳视角下粮食主产区农业全要素生产率比较——基于中国13省2002-2011年数据的分析[J]. 湖南农业大学学报(社会科学版), 2013,14(6):27-32.
|
[20] |
邓明君,邓俊杰,刘佳宇.中国粮食作物化肥施用的碳排放时空演变与减排潜力[J]. 资源科学, 2016,38(3):534-544.
|
[21] |
潘丹,应瑞瑶.中国农业生态效率评价方法与实证——基于非期望产出的SBM模型分析[J]. 生态学报, 2013,33(12):3837-3845.
|
[22] |
田伟,杨璐嘉,姜静.低碳视角下中国农业环境效率的测算与分析——基于非期望产出的SBM模型[J]. 中国农村观察, 2014,35(5):59-71.
|
[23] |
胡达沙,李杨.环境效率评价及其影响因素的区域差异[J]. 财经科学, 2012,44(4):116-124.
|
[24] |
涂正革,刘磊珂.考虑能源、环境因素的中国工业效率评价——基于SBM模型的省级数据分析[J]. 经济评论, 2011,32(2):55-65.
|
[25] |
王兵,杨华,朱宁.中国各省份农业效率和全要素生产率增长——基于SBM方向性距离函数的实证分析[J]. 南方经济, 2011,30(10):12-25.
|
[26] |
吴传清,董旭.环境约束下长江经济带全要素能源效率的时空分异研究——基于超效率DEA模型和ML指数法[J]. 长江流域资源与环境, 2015,24(10):1646-1653.
|
[27] |
王维国,范丹.中国区域全要素能源效率收敛性及影响因素分析——基于Malmqulist-Luenberger指数法[J]. 资源科学, 2012,34(10):1816-1824.
|
[28] |
王兵,吴延瑞,颜鹏飞.中国区域环境效率与环境全要素生产率增长[J]. 经济研究, 2010,45(5):95-109.
|
[29] |
郝晓燕,韩一军,李雪,等.小麦技术效率的地区差异及门槛效应[J]. 农业技术经济, 2016,36(10):84-94.
|
[30] |
陈舜,逯非,王效科.中国氮磷钾肥制造温室气体排放系数的估算[J]. 生态学报, 2015,35(19):6371-6383.
|
|
|
|