摘要
以武汉市3个粮食主产区为例,选取已完成的8个典型高标准农田建设项目为样本,考虑项目的实施过程和效益,构建基于行为与结果的绩效评价指标体系,运用改进灰靶模型对高标准农田建设项目绩效进行分析评价,最后提出相关政策建议。结果表明,8个研究样本的综合靶心度值在0.596~0.798,其中黄陂区李集街白庙项目区的绩效最好,江夏区五里界“四化同步”示范镇项目区绩效最差,项目实施过程和效益绩效的评价结果与样本区的实际情况基本吻合;项目实施绩效层和效益绩效层的靶心度值分别在0.180~0.217和0.405~0.603,说明项目效益绩效的贡献率相对较大;改进后的灰靶模型弥补了传统灰靶模型的不足,在高标准农田建设绩效评价方面具有较好的实际应用价值。
Taking the three major grain producing areas in Wuhan City as an example,and the completed eight typical high standard farmland construction projects as samples,this paper considered the implementation process and benefit of the project,built the per⁃formance evaluation index system based on the behavior and the results,used the improved grey target model to analyze and evaluate high-standard farmland construction project performance,and finally put forward relevant policy recommendations.The results showed that the integrated target value of eight sampls was 0.596~0.798.Baimiao project area of Liji street in Huangpi district had the best performance,and the"four modernizations synchronization"demonstration town project area of Wulijie street in Jiangxia district had the worst performance.The evaluation results of the project implementation process and the benefit performance were basically consistent with the actual situation of the sample area;the target values of project implementation performance layer and benefit perfor⁃mance layer were 0.180~0.217 and 0.405~0.603,respectively,which suggested that the contribution of the project benefit perfor⁃mance was relatively large;the improved grey target model made up for the deficiency of the old gray target model,and had certain ac⁃tual application value in terms of the performance evaluation of construction of high-standard farmland.
作者
董普侠
杜赛南
DONG Pu-xia;DU Sai-nan(HICC Green Materials Investment Co.,Ltd.,Wuhan 430000,China;School of Resources and Environment,Hubei University,Wuhan 430062,China)
出处
《湖北农业科学》
2022年第18期245-250,共6页
Hubei Agricultural Sciences
关键词
高标准农田建设
绩效评价
灰靶模型
组合赋权法
武汉市
high-standard farmland construction
performance evaluation
grey target model
combination weighting method
Wuhan City
