[1] 周松秀, 田亚平, 刘兰芳. 南方丘陵区农业生态环境脆弱性的驱动力分析——以衡阳盆地为例. 地理科学进展, 2011, 30(7): 938-944 [Zhou S-X, Tian Y-P, Liu L-F. Analysis of driving forces of agricultural eco-environmental vulnerability in the hilly area in southern China: A case study in Hengyang Basin. Progress in Geography, 2011, 30(7): 938-944] [2] 刘正佳, 于兴修, 李蕾, 等. 基于SRP概念模型的沂蒙山区生态环境脆弱性评价. 应用生态学报, 2011, 22(8): 2084-2090 [Liu Z-J, Yu X-X, Li L, et al. Vulnerability assessment of eco-environment in Yimeng mountainous area of Shandong Province based on SRP conceptual model. Chinese Journal of Applied Ecology, 2011, 22(8): 2084-2090] [3] 张学玲, 余文波, 蔡海生, 等. 区域生态环境脆弱性评价方法研究综述. 生态学报, 2018, 38(16): 5970-5981 [Zhang X-L, Yu W-B, Cai H-S, et al. Review of the evaluation methods of regional eco-environmental vulnerability. Acta Ecologica Sinica, 2018, 38(16): 5970-5981] [4] 刘伯超, 唐凤德, 张连辉. 辽宁省农业生态环境脆弱性相关分析. 沈阳农业大学学报: 社会科学版, 2009, 11(1): 34-38 [Liu B-C, Tang F-D, Zhang L-H. Correlation of agricultural eco-environmental fragility of Liaoning Province. Journal of Shenyang Agricultural University: Social Sciences, 2009, 11(1): 34-38] [5] 周振民. 黄河下游引黄灌区农业生态环境脆弱性评价及对策. 云南农业大学学报:自然科学版, 2007, 22(1): 127-131 [Zhou Z-M. Evaluation and countermeasures of agricultural eco-environment frangibility in the irrigation districts of the downstream of Yellow River. Journal of Yunnan Agricultural University: Natural Science, 2007, 22(1): 127-131] [6] 夏兴生, 朱秀芳, 李月臣, 等. 基于AHP-PCA熵组合权重模型的三峡库区(重庆段)农业生态环境脆弱性评价. 南方农业学报, 2016, 47(4): 548-556 [Xia X-S, Zhu X-F, Li Y-C, et al. Evaluation for vulnerabi-lity of agroecological environment in Three Gorges Reservoir area (Chongqing section) based on AHP-PCA entropy combination weight mode. Journal of Southern Agriculture, 2016, 47(4): 548-556] [7] 杜福光, 张亚南, 高超. 河北省农业生态环境脆弱性评价研究. 环境与发展, 2016, 28(1): 36-41 [Du F-G, Zhang Y-N, Gao C. Research on agricultural ecological environment vulnerability assessment of Hebei Pro-vince. Environment and Development, 2016, 28(1): 36-41] [8] 陈静, 周静平, 李存军, 等. 全国农业生态系统脆弱性评价. 江苏农业科学, 2018, 46(2): 217-223 [Chen J, Zhou J-P, Li C-J, et al. National assessment of agro-ecosystem vulnerability. Jiangsu Agricultural Sciences, 2018, 46(2): 217-223] [9] 段小芳, 潘文权. 农业生态脆弱性指标体系评价研究——以邵阳市为例. 邵阳学院学报:自然科学版, 2017, 14(2): 90-94 [Duan X-F, Pan W-Q. Study on index system of agricultural vulnerability: A case study of Shaoyang City. Journal of Shaoyang University: Natural Science, 2017, 14(2): 90-94] [10] 赵克勤. 集对分析及其初步应用. 杭州: 浙江科技出版社, 2000 [Zhao K-Q. Set Pair Analysis and Preliminary Application. Hangzhou: Zhejiang Science and Technology Press, 2000] [11] 黄玙璠, 舒英格, 肖盛杨, 等. 喀斯特山区不同草地土壤养分与酶活性特征. 草业学报, 2020, 29(6): 93-104 [Huang Y-F, Shu Y-G, Xiao S-Y, et al. Quantification of soil nutrient levels and enzyme activities in different grassland categories in Karst Mountains. Acta Prataculturae Sinica, 2020, 29(6): 93-104] [12] 彭文君, 舒英格. 基于GIS的石漠化山区县域土地利用空间变化的生态风险测度. 水土保持研究, 2018, 25(1): 342-348 [Peng W-J, Shu Y-G. Assessment on ecological risk of land use spatial change at county level in the rocky desertification mountainous area based on GIS. Research of Soil and Water Conservation, 2018, 25(1): 342-348] [13] 赵珂, 饶懿, 王丽丽, 等. 西南地区生态脆弱性评价研究——以云南、贵州为例. 地质灾害与环境保护, 2004, 15(2): 38-42 [Zhao K, Rao Y, Wang L-L, et al. Evaluation of ecological fragility in Southwest of China. Journal of Geological Hazards and Environment Pre-servation, 2004, 15(2): 38-42] [14] 李浩, 杨侃, 陈垒. 灰色三角白化权SPA模型在水资源脆弱性评价中的应用. 水电能源科学, 2016, 34(6): 18-21 [Li H, Yang K, Chen L. Application of set pair analysis model based on trigonometrically whiten weight in water resources vulnerability evaluation. Water Resources and Power, 2016, 34(6): 18-21] [15] 梁鑫源, 李阳兵, 邵景安, 等. 三峡库区山区传统农业生态系统转型. 地理学报, 2019, 74(8): 1605-1621 [Liang X-Y, Li Y-B, Shao J-A, et al. Traditional agroecosystem transition in mountainous area of Three Gorges Reservoir area. Acta Geographica Sinica, 2019, 74(8): 1605-1621] [16] Pei W, Fu Q, Liu D, et al. Assessing agricultural drought vulnerability in the Sanjiang Plain based on an improved projection pursuit model. Natural Hazards, 2016, 82: 683-701 [17] Teshome M. Rural households' agricultural land vulnera-bility to climate change in Dembia woreda, Northwest Ethiopia. Environmental Systems Research, 2016, 5: 1-18 [18] 舒持恺, 杨侃. 基于改进的集对分析方法在河流健康评价中的应用. 水力发电, 2017, 43(6): 1-4 [Shu C-K, Yang K. River health assessment based on improved set pair analysis method. Water Power, 2017, 43(6): 1-4] [19] 郭世兴, 刘斌, 王光社, 等. 基于Mann-Kendall法的汉江上游水沙趋势分析. 水电能源科学, 2015, 33(11): 140-142 [Guo S-X, Liu B, Wang G-S, et al. Trend analysis of flow and sediment in upstream of Hanjiang basin based on Mann-Kendall test method. Water Resources and Power, 2015, 33(11): 140-142] [20] Zhang LN, Wu FP, Yu LL, et al. Grey clustering evalua-tion model based on D-S evidence theory to evaluate the scheme of basin initial water rights allocation. Open Cybernetics & Systemics Journal, 2015, 9: 7-16 [21] 石汝杰. 基于三角白化权函数的重庆市水资源承载力灰色聚类评价. 中国农业资源与区划, 2015, 36(6): 22-29 [Shi R-J. Grey clustering assessment on the carrying capacity of water resource in Chongqing based on triangle whitening weight function. Chinese Journal of Agricultural Resources and Regional Planning, 2015, 36(6): 22-29] [22] 安宏锋, 徐浩, 安宁, 等. 喀斯特山区生态环境脆弱性综合评价——以贵州省黔中地区为例. 环境影响评价, 2016, 38(4): 51-56 [An H-F, Xu H, An N, et al. Comprehensive evaluation of eco-environmental vulnerability in Karst Mountain areas: Central region of Guizhou Province as an example. Environmental Impact Assessment, 2016, 38(4): 51-56] [23] Tao H, Gemmer M, Bai Y, et al. Trends of streamflow in the Tarim River basin during the past 50 years: Human impact or climate change. Journal of Hydrology, 2011, 400: 1-9 |