1 史伟达, 崔远来. 农业非点源污染及模型研究进展[J]. 中国农村水利水电, 2009 (5): 60-64 [Shi WD, Cui YL. Research progress of agriculture non-point source pollution and models [J]. Chin Rural Water Hydropower, 2009 (5): 60-64 2 丁晓雯, 李薇, 陈庆伟. 农业非点源污染模型研究现状与发展趋势[J]. 现代农业科技, 2008 (14): 261-262, 265 [Ding XW, Li W, Chen QW. Research status and development trend of non-point source pollution model in agriculture [J]. Mod Agric Sci Technol, 2008, (14): 261-262, 265 3 孙本发. SWAT模型在巢湖典型监测点农业面源污染模拟的评价与验证研究[D]. 合肥: 安徽农业大学, 2013 [Sun BF. Simulation of agricultural nonpoint sources pollution in the monitoring spots of Chaohu lake on SWAT model [D]. Hefei: Anhui Agricultural University, 2013] 4 李秀芬, 朱金兆, 顾晓君, 朱建军. 农业面源污染现状与防治进展[J]. 中国人口?资源与环境, 2010, 20 (4): 81-84 [Li XF, Zhu JZ, Gu XJ, Zhu J. Current situation and control of agricultural non-point source pollution [J]. J Chin Populat Resour Environ, 2010, 20 (4): 81-84 5 盛盈盈. 基于SWAT模型的梅江流域农业非点源污染时空分布特征分析[D]. 南昌: 江西师范大学, 2015 [Sheng YY. Temporal-spatial distribution of non-point source pollution in Meijiang River watershed based on SWAT model [D]. Nanchang: Jiangxi Normal University, 2015 6 原杰辉. SWAT模型在农业非点源污染研究中的应用[D]. 长春: 吉林大学, 2009 [Yuan JH. The application of SWAT model in agriculture non-point source pollution: a case study of Shitoukoumen reservoir catchment basin [D]. Changchun: Jilin University, 2009 7 侯伟. 基于SWAT模型的三峡库区典型小流域农业非点源污染模拟研究[D]. 雅安: 四川农业大学, 2014 [Hou W. Simulating agricultural non-poing source pollution from a typical agricultral small watershed of three goreges reservoir area based on SWAT model [D]. Ya’an: Sichuan Agricultural University, 2014] 8 张红举, 崔广柏, 冯健. 农业非点源污染模型研究概况[J]. 江苏环境科技, 2002, 15 (2): 37-39 [Zhang HJ, Cui GB, Feng J. Model research survey of non-point source pollution of agriculture [J]. Jiangsu Environ Sci Technol, 2002, 15 (2): 37-39 9 尹刚, 王宁, 袁星, 张捷. 基于SWAT模型的图们江流域氮磷营养物非点源污染研究[J]. 农业环境科学学报, 2011, 30 (4): 704-710 [Yin G, Wang N, Yuan X, Zhang J. Non-point source pollution of nitrogen and phosphorus nutrients using SWAT model in tumen river watershed, China [J]. J Agro-Environ Sci, 2011, 30 (4): 704-710] 10 闫雪嫚, 卢文喜, 宋文博, 赵莹. 基于SWAT模型的伊通河流域农业非点源污染损失估算[J]. 节水灌溉, 2017 (3): 57-60 [Yan XM, Lu WX, Song WB, Zhao Y. Estimation of the loss caused by agricultural non-point source pollution in yitong river watershed based on SWAT Model [J]. Water Sav Irrig, 2017 (3): 57-60] 11 胡泽文, 孙建军, 武夷山. 国内知识图谱应用研究综述[J]. 图书情报工作, 2013, 57 (3): 131-137, 184 [Hu ZW, Sun JJ, Wu YS. Research review on application of knowledge mapping in China [J]. Library Inform Serv, 2013, 57 (3): 131-137, 184 12 韩增林, 李彬, 张坤领, 李璇. 基于CiteSpace中国海洋经济研究的知识图谱分析[J]. 地理科学, 2016, 36 (5): 643-652 [Han ZL, Li B, Zhang KL, Li X. Knowledge structure of China’s marine economy research: an analysis based on CiteSpace map [J]. Sci Geogr Sin, 2016, 36 (5): 643-652] 13 李杰, 郭晓宏, 姜亢, 吕鹏辉. 安全科学知识图谱的初步研究——以《Safety Science》期刊数据为例[J]. 中国安全科学学报, 2013, 23 (4): 152-158 [Li J, Guo XH, Jiang K, Lü PH. Preliminary study of knowledge map of safety science-base on data of safety science [J]. Chin Saf Sci J, 2013, 23 (4): 152-158 14 张思琦, 张文兰, 李宝. 国外近十年深度学习的研究现状与发展趋势——基于引文分析及共词矩阵的知识图谱分析[J]. 远程教育杂志, 2016 (2): 64-72 [Zhang SQ, Zhang WL, Li B. Preliminary study of knowledge map of safety science- base on data of safety science [J]. Chin Safety Sci J, 2016 (2): 64-72 15 庄咏涛, 李怀恩. 农业非点源污染模型浅析[J]. 西北水资源与水工程, 2001, 12 (4): 12-16 [Zhuang YT, Li HE. Analysis of agricultural nonpoint pollution models [J]. NW Water Resour Water Eng, 2001, 12 (4): 12-16 16 Chen CM. CiteSpace II: detecting and visualizing emerging trends and transient patterns in scientific literature [J]. J Associnf Sci Techno, 2006, 57 (3): 359-377 17 Srinivasan R, Arnold JG. Integration of a basin‐scale water quality model with gis [J]. Water Resour Bull, 1994, 30 (3): 453-462 18 孙本发, 马友华, 胡善宝, 路青, 张维维, 方凡. 农业面源污染模型及其应用研究[J]. 农业环境与发展, 2013 (3): 1-5 [Sun BF, Ma YH, Hu SB, Lu Q, Zhang WW, Fang F. Study on the model and its application of agricultural surface source pollution [J]. Agro-Environ Dev, 2013 (3): 1-5 19 Zhang XS, Hao FH, Cheng HG, Li DF. Application of swat model in the upstream watershed of the luohe river [J]. Chin Geogr Sci, 2003, 13 (4): 334-339 20 Hao FH, Zhang XS, Yang ZF. A distributed non-point source pollution model: calibration and validation in the Yellow River Basin [J]. J Environ Sci, 2004, 16 (4): 646 21 徐萍, 王玥, 熊燕, 陈大明, 王小理, 于建荣. 干细胞研究国际发展态势分析[J]. 科学观察, 2011, 6 (2): 1-15 [Xu P, Wang Y, Xiong Y, Chen DM, Wang XL, Yu JR. International development of stem cell [J]. Sci Focus, 2011, 6 (2): 1-15 22 Arnold JG, Srinivasan R, Muttiah RS, Williams JF. Large area hydrologic modeling and assessment - Part 1: Model development [J]. J Am Water Resour Assoc, 1998, 34 (1): 73-89 23 Arnold JG, Fohrer N. SWAT2000: current capabilities and research opportunities in applied watershed modelling [J]. Hydrol Process, 2005, 19 (3): 563-572 24 Arnold JG, Moriasi DN, Gassman PW, Abbaspour KC, White MJ, Srinivasan R, Santhi C, Harmel RD, Griensven AV, Liew MWV. SWAT: Model use, calibration, and validation [J]. Trans ASABE, 2012, 55 (4): 1345-1352 25 Gassman PW, Reyes MR, Green CH, Arnold JG. The soil and water assessment tool: historical development, applications, and future research directions [J]. Trans ASABE, 2007, 50 (4): 1211-1250 26 颜寿, 万闰兰, 李莹, 何涛, 胡亚东, 张华, 淳泽. 植物S位点自交不亲和机制研究的态势分析[J]. 科学观察, 2016, 11 (4): 9-18 [Yan S, Wan RL, Li Y, He T, Hu YD, Zhang H, Chun Z. The analysis on self-incompatibility mechanism in the S-locus of plant [J]. Sci Focus, 2016, 11 (4): 9-18 27 李迪. 基于SWAT模型的东辽河流域农业非点源污染模拟研究[D]. 长春: 吉林大学, 2011 [LI D. Simulation of agriculture non-point source pollution in dongliaohe watershed based on SWAT model [D]. Changchun: Jilin University, 2011 28 Zhou YY, Xu YJ, Xiao WH, Wang JH, Huang Y, Yang H. Climate change impacts on flow and suspended sediment yield in headwaters of high-latitude regions-a case study in China’s Far Northeast [J]. Water, 2017, 9 (12): 966-983 29 张召喜. 基于SWAT模型的凤羽河流域农业面源污染特征研究[D]. 北京: 中国农业科学院, 2013 [Zhang ZX. Study on charateristics of agricultural non-point source pollution in Fengyu river basin based on SWAT model [D]. Beijing: Chinese Academy of Agricultural sciences, 2013] 30 Lee S, Yeo IY, Sadeghi AM, Mccarty GW, Hively WD, Lang MW, Sharifi A. Comparative analyses of hydrological responses of two adjacent watersheds to climate variability and change using the SWAT model [J]. Hydrol Earth Syst Sci, 2018, 22 (1): 689-708 31 Teshager AD, Gassman PW, Secchi S, Schoof JT, Misgna G. Modeling agricultural watersheds with the Soil and Water Assessment Tool (SWAT): calibration and validation with a novel procedure for spatially explicit HRUs [J]. Environ Manage, 2016, 57 (4): 894-911 32 吴春蕾, 马友华, 李英杰, 王桂苓, 孙兴旺, 张丽娟. SWAT模型在巢湖流域农业面源污染研究中应用前景与方法[J]. 中国农学通报, 2010, 26 (18): 324-328 [Wu CL, Ma YH, Li YJ, Wang GL, Sun XW, Zhang LJ. Prospect and method on agricultural non-point source pollution of SWAT model in Chao Lake Basin [J]. Chine Agric Sci Bull, 2010, 26 (18): 324-328 33 Sinnathamby S, Douglas MKR, Craige C. Field-scale calibration of crop-yield parameters in the Soil and Water Assessment Tool (SWAT) [J]. Agric Water Manage, 2017, 180 (A): 61-69 34 Strehmel A, Schmalz B, Fohrer N. Evaluation of land use, land management and soil conservation strategies to reduce non-point source pollution loads in the Three Gorges Region, China [J]. Environ Manage, 2016, 58 (5): 906-921 35 Meng XY, Wang H, Lei XH, Cai SY, Wu HJ, Ji XN, Wang JH. Hydrological modeling in the manas river basin using soil and water assessment tool driven by cmads [J]. Teh Vjesn, 2017, 24 (2): 525-534 36 Zhang Y, Zhong PA, Chen J, Bing JP, Xu DH, Wang ML. Impacts of climate change and human activities on the three gorges reservoir inflow [J]. Water, 2017, 9 (12): 957-971 37 李家科, 杨静媛, 李怀恩, 沈冰, 杜鹃. 基于SWAT模型的陕西沣河流域非点源污染模拟[J]. 水资源与水工程学报, 2012, 23 (4): 11-17 [Li JK, Yang JY, Li HE, Shen B, Du J. J Water Resour Water Eng, 2012, 23 (4): 11-17 38 Ouyang W, Gao X, Wei P, Gao B, Lin CY, Hao FH. A review of diffuse pollution modeling and associated implications for watershed management in China [J]. J Soils Sediments, 2017, 17 (6): 1527-1536 39 Shi YY, Xu GH, Wang YG, Bernard AE, Peng H, Zhang WS, Cheng ML, Dai ML. Modelling hydrology and water quality processes in the Pengxi River basin of the Three Gorges Reservoir using the soil and water assessment tool [J]. Agric Water Manage, 2017, 182: 24-38 40 习近平在中共中央政治局第六次集体学习时强调 坚持节约资源和保护环境基本国策 努力走向社会主义生态文明新时代[J]. 吉林环境, 2013 (4): 4-5 [Xi stressed his commitment in the Sixth Group Study of the Political Bureau of the CPC Central Committee, to conserve resources and protect the basic state policy of the environment and strive for a new era of socialist ecological civilization [J]. Chin Environ Manage, 2013 (4): 4-5