Performance evaluation and correlational analysis of cultivated land ecological compensation policy based on entropy-weight TOPSIS method: taking Kaihua County, Zhejiang Province, China as an example

doi:10.3969/j.issn.1004-1524.2022.12.23

Acta Agriculturae Zhejiangensis ›› 2022, Vol. 34 ›› Issue (12): 2800-2808.DOI: 10.3969/j.issn.1004-1524.2022.12.23

• Agricultural Economy and Development • Previous Articles Next Articles

Performance evaluation and correlational analysis of cultivated land ecological compensation policy based on entropy-weight TOPSIS method: taking Kaihua County, Zhejiang Province, China as an example

ZHANG Yanbin¹(), LIANG Ying²^,^*(), GENG Bin³, GU Mingzhe³, XU Baogen³

1. Zhejiang Provincial Land Consolidation Center, Hangzhou 310007, China
2. School of Business Administration, Zhejiang University of Finance & Economics Dongfang College, Jiaxing 314408, Zhejiang, China
3. Institute of Land and Urban-Rural Development, Zhejiang University of Finance & Economics, Hangzhou 310018, China

Received:2021-07-05 Online:2022-12-25 Published:2022-12-26
Contact: LIANG Ying

Abstract

Abstract:

It is of great significance to study the comprehensive performance of ecological compensation policy for cultivated land ecological protection. This paper took Kaihua County, Zhejiang Province as the research area and constructed the performance evaluation index system of ecological compensation policy at the county level. Then entropy-weighted (TOPSIS) method was used to evaluate the comprehensive performance of ecological compensation policies from 2007 to 2020 and grey correlational analysis was used to calculate the correlative degree between indicators and evaluation of comprehensive levels. It was found that the comprehensive performance of ecological compensation policy was uptrend from 2007 to 2020. Although there was a brief decline in 2009 and 2013, it soon continued to rise, and maintained steady growth after 2015. farmers' enthusiasm for ecological componsation of cultivated land and annual per capita income of rural residents had the greatest impact on performance evaluation. Empirical evidence showed that ecological compensation policies played a better effect, and it was necessary to continue to implement. The evaluation and correlation analysis of the comprehensive performance of ecological compensation policy in this study was of great significance to improve and innovate the cultivated land ecological compensation policy.

Key words: farmland ecological compensation policy, performance appraisal, entropy-weight, correlation

CLC Number:

F301.21

ZHANG Yanbin, LIANG Ying, GENG Bin, GU Mingzhe, XU Baogen. Performance evaluation and correlational analysis of cultivated land ecological compensation policy based on entropy-weight TOPSIS method: taking Kaihua County, Zhejiang Province, China as an example[J]. Acta Agriculturae Zhejiangensis, 2022, 34(12): 2800-2808.

Figures/Tables 3

References 29

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准则 Guideline	变量 Variable	指标 Index	单位 Unit	指标方向 Index direction
区域共同富裕效益 Regional common	X₁	农村居民人均年收入 Annual per capita income of rural residents	元·人^-1 Yuan·person^-1	+
prosperity benefits	X₂	城乡居民收入比 Urban and rural income ratio	%	+
	X₃	粮食总产量 Grain total output	t	+
	X₄	粮食单产水平 Grain yield per unit area	kg·hm^-2	+
	X₅	农户耕地生态补偿积极性 Farmers' enthusiasm for ecological compensation of cultivated land	-	+
	X₆	外出务工人数 Number of migrant workers	人 person	+
耕地绿色投入效益 Green input benefit of	X₇	无公害农产品生产基地面积 Area of pollution-free agricultural products production base	hm²	+
cultivated land	X₈	化肥施用量(折纯) Chemical fertilizer application amount (discounted)	t·hm^-2	-
	X₉	农药使用量 Consumption of Chemical Pesticides	t·hm^-2	-
耕地生态效益 Ecological benefit of	X₁₀	大气调节功能价值 Value of atmospheric regulation function	元 Yuan	+
cultivated land	X₁₁	水源涵养功能价值 Water conservation function value	元 Yuan	+
	X₁₂	其他生态功能价值 Other ecological function value	元 Yuan	+

准则 Guideline	变量 Variable	指标 Index	单位 Unit	指标方向 Index direction
区域共同富裕效益 Regional common	X₁	农村居民人均年收入 Annual per capita income of rural residents	元·人^-1 Yuan·person^-1	+
prosperity benefits	X₂	城乡居民收入比 Urban and rural income ratio	%	+
	X₃	粮食总产量 Grain total output	t	+
	X₄	粮食单产水平 Grain yield per unit area	kg·hm^-2	+
	X₅	农户耕地生态补偿积极性 Farmers' enthusiasm for ecological compensation of cultivated land	-	+
	X₆	外出务工人数 Number of migrant workers	人 person	+
耕地绿色投入效益 Green input benefit of	X₇	无公害农产品生产基地面积 Area of pollution-free agricultural products production base	hm²	+
cultivated land	X₈	化肥施用量(折纯) Chemical fertilizer application amount (discounted)	t·hm^-2	-
	X₉	农药使用量 Consumption of Chemical Pesticides	t·hm^-2	-
耕地生态效益 Ecological benefit of	X₁₀	大气调节功能价值 Value of atmospheric regulation function	元 Yuan	+
cultivated land	X₁₁	水源涵养功能价值 Water conservation function value	元 Yuan	+
	X₁₂	其他生态功能价值 Other ecological function value	元 Yuan	+

单项指标 Single index	贴近度 Similar degree(r_i)	单项指标 Single index	贴近度 Similar degree(r_i)
X₁	0.83	X₇	0.78
X₂	0.68	X₈	0.62
X₃	0.73	X₉	0.58
X₄	0.65	X₁₀	0.66
X₅	0.86	X₁₁	0.74
X₆	0.73	X₁₂	0.72

单项指标 Single index	贴近度 Similar degree(r_i)	单项指标 Single index	贴近度 Similar degree(r_i)
X₁	0.83	X₇	0.78
X₂	0.68	X₈	0.62
X₃	0.73	X₉	0.58
X₄	0.65	X₁₀	0.66
X₅	0.86	X₁₁	0.74
X₆	0.73	X₁₂	0.72

Performance evaluation and correlational analysis of cultivated land ecological compensation policy based on entropy-weight TOPSIS method: taking Kaihua County, Zhejiang Province, China as an example

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