[1] LIU L Y,ZHENG X Q,PENG C F,et al.Driving Forces and Future Trends on Total Nitrogen Loss of Planting in China[J].Environmental Pollution,2020,267:115660. [2] MA Q,LI S L,XU Z Q,et al.Changes in N Supply Pathways under Different Long-term Fertilization Regimes in Northeast China[J].Soil and Tillage Research,2020,201:104609. [3] WU Y H,LIU J Z,SHEN R F,et al.Mitigation of Nonpoint Source Pollution in Rural Areas:From Control to Synergies of Multi Ecosystem Services[J].Science of the Total Environment,2017,607/608:1376-1380. [4] 朱康文,陈玉成,杨志敏,等.基于文献定量法的农业面源污染风险评估研究动态[J].生态与农村环境学报,2020,36(4):425-432.[ZHU Kang-wen,CHEN Yu-cheng,YANG Zhi-min,et al.Research Trends of Agricultural Non-point Source Pollution Risk Assessment Based on Bibliometric Method[J].Journal of Ecology and Rural Environment,2020,36(4):425-432.] [5] 孙铖,周华真,陈磊,等.东北三省农田化肥氮地下淋溶污染等级评估[J].农业资源与环境学报,2018,35(5):405-411.[SUN Cheng,ZHOU Hua-zhen,CHEN Lei,et al.Pollution Grade Assessment of Nitrogen Leaching from Farmland Fertilizer in Three Northeastern Provinces[J].Journal of Agricultural Resources and Environment,2018,35(5):405-411.] [6] OLIVERAS-BERROCALES M,SOTOMAYOR-RAMÍREZ D,DELGADO J A,et al.The New Caribbean Nitrogen Index to Assess Nitrogen Dynamics in Vegetable Production Systems in Southwestern Puerto Rico[J].International Soil and Water Conservation Research,2017,5(1):69-75. [7] DREWRY J J,NEWHAM L T H,GREENE R S B.Index Models to Evaluate the Risk of Phosphorus and Nitrogen Loss at Catchment Scales[J].Journal of Environmental Management,2011,92(3):639-649. [8] LIAN H S,LEI Q L,ZHANG X Y,et al.Effects of Anthropogenic Activities on Long-term Changes of Nitrogen Budget in a Plain River Network Region:A Case Study in the Taihu Basin[J].Science of the Total Environment,2018,645:1212-1220. [9] LEMUNYON J L,GILBERT R G.The Concept and Need for a Phosphorus Assessment Tool[J].Journal of Production Agriculture,1993,6(4):483-486. [10] BECHMANN M,STÅLNACKE P,KVÆRNØ S,et al.Integrated Tool for Risk Assessment in Agricultural Management of Soil Erosion and Losses of Phosphorus and Nitrogen[J].Science of the Total Environment,2009,407(2):749-759. [11] YE H M,YUAN X Y,HAN L,et al.Risk Assessment of Nitrogen and Phosphorus Loss in a Hilly-plain Watershed Based on the Different Hydrological Period:A Case Study in Tiaoxi Watershed[J].Sustainability,2017,9(8):1493. [12] 张平,高阳昕,刘云慧,等.基于氮磷指数的小流域氮磷流失风险评价[J].生态环境学报,2011,20(增刊1):1018-1025.[ZHANG Ping,GAO Yang-xin,LIU Yun-hui,et al.Identification on the Risk of Nitrogen and Phosphorus Loss at Small Watershed Based on Nitrogen and Phosphorus Index[J].Ecology and Environmental Sciences,2011,20(Suppl. 1):1018-1025.] [13] ZHANG W,MA Y,LU Q,et al.Nutrient Loss from Farmland:Research on and Application of Phosphorus Index Method[J].Agricultural Science&Technology,2015,16(2):262-265. [14] HUANG Y L,HUANG J L,ERVINIA A,et al.Land Use and Climate Variability Amplifies Watershed Nitrogen Exports in Coastal China[J].Ocean&Coastal Management,2021,207:104428. [15] ZHANG S H,HOU X N,WU C S,et al.Impacts of Climate and Planting Structure Changes on Watershed Runoff and Nitrogen and Phosphorus Loss[J].Science of the Total Environment,2020,706:134489. [16] FU J,WU Y L,WANG Q H,et al.Importance of Subsurface Fluxes of Water,Nitrogen and Phosphorus from Rice Paddy Fields Relative to Surface Runoff[J].Agricultural Water Management,2019,213:627-635. [17] 夏永秋,杨旺鑫,施卫明,等.我国集约化种植业面源氮发生量估算[J].生态与农村环境学报,2018,34(9):782-787.[XIA Yong-qiu,YANG Wang-xin,SHI Wei-ming,et al.Estimation of Non-point Source N Emission in Intensive Cropland of China[J].Journal of Ecology and Rural Environment,2018,34(9):782-787.] [18] KALKHOFF S J,HUBBARD L E,TOMER M D,et al.Effect of Variable Annual Precipitation and Nutrient Input on Nitrogen and Phosphorus Transport from Two Midwestern Agricultural Watersheds[J].Science of the Total Environment,2016,559:53-62. [19] LIANG L Q,LI L J,LIU Q.Precipitation Variability in Northeast China from 1961 to 2008[J].Journal of Hydrology,2011,404(1/2):67-76. [20] 祝惠,阎百兴.三江平原水田氮的侧渗输出研究[J].环境科学,2011,32(1):108-112.[ZHU Hui,YAN Bai-xing.Export of Nitrogen by Lateral Seepage from Paddy Field in Sanjiang Plain[J].Environmental Science,2011,32(1):108-112.] [21] 阎百兴,欧洋,祝惠.东北黑土区农业面源污染特征及防治对策[J].环境与可持续发展,2019,44(2):31-34.[YAN Bai-xing,OU Yang,ZHU Hui.Characteristics and Prevention Countermeasure of Agricultural NPS in Black Soil Region of Northeast China[J].Environment and Sustainable Development,2019,44(2):31-34.] [22] 黑龙江省统计局,国家统计局黑龙江调查总队.黑龙江统计年鉴(2015-2018)[M].北京:中国统计出版社,2015-2018. [23] 辽宁省统计局,国家统计局辽宁调查总队.辽宁统计年鉴(2015-2018)[M].北京:中国统计出版社,2015-2018. [24] 吉林省统计局,国家统计局吉林调查总队.吉林统计年鉴(2015-2018)[M].北京:中国统计出版社,2015-2018. [25] CECCHI G,MUNAFÒ M,BAIOCCO F,et al.Estimating River Pollution from Diffuse Sources in the Viterbo Province Using the Potential Non-point Pollution Index[J].Annali Dell'Istituto Superiore Di Sanita,2007,43(3):295-301. [26] 张汪寿,耿润哲,王晓燕,等.基于多准则分析的非点源污染评价和分区:以北京怀柔区北宅小流域为例[J].环境科学学报,2013,33(1):258-266.[ZHANG Wang-shou,GENG Run-zhe,WANG Xiao-yan,et al.Assessment and Zoning of Non-point Source Pollution by Multi-criteria Analysis:A Case Study in the Watershed of Beizhai[J].Acta Scientiae Circumstantiae,2013,33(1):258-266.] [27] CHEN J,YANG S T,LI H W,et al.Research on Geographical Environment Unit Division Based on the Method of Natural Breaks (Jenks)[J].The International Archives of the Photogrammetry,Remote Sensing and Spatial Information Sciences,2013,XL-4/W3:47-50. [28] 王森,朱昌雄,耿兵.土壤氮磷流失途径的研究进展[J].中国农学通报,2013,29(33):22-25.[WANG Sen,ZHU Chang-xiong,GENG Bing.Research Advancement in Loss Pathways of Nitrogen and Phosphorus in Soils[J].Chinese Agricultural Science Bulletin,2013,29(33):22-25.] [29] 康日峰,任意,吴会军,等.26年来东北黑土区土壤养分演变特征[J].中国农业科学,2016,49(11):2113-2125.[KANG Ri-feng,REN Yi,WU Hui-jun,et al.Changes in the Nutrients and Fertility of Black Soil over 26 Years in Northeast China[J].Scientia Agricultura Sinica,2016,49(11):2113-2125.] [30] 王新忠,王熙,汪春,等.黑龙江垦区大豆变量施肥播种应用试验[J].农业工程学报,2008,24(5):143-146,315.[WANG Xin-zhong,WANG Xi,WANG Chun,et al.Application Test of Soybean Sowing by Variable Fertilization Seeder in Heilongjiang Reclamation Areas[J].Transactions of the Chinese Society of Agricultural Engineering,2008,24(5):143-146,315.] [31] 姬景红,李玉影,刘双全,等.黑龙江省春玉米的优化施肥研究[J].中国土壤与肥料,2014(5):53-58.[JI Jing-hong,LI Yu-ying,LIU Shuang-quan,et al.Optimized Fertilization of Spring Maize in Heilongjiang Province[J].Soil and Fertilizer Sciences in China,2014(5):53-58.] [32] 黄绍文,唐继伟,李春花,等.我国蔬菜化肥减施潜力与科学施用对策[J].植物营养与肥料学报,2017,23(6):1480-1493.[HUANG Shao-wen,TANG Ji-wei,LI Chun-hua,et al.Reducing Potential of Chemical Fertilizers and Scientific Fertilization Countermeasure in Vegetable Production in China[J].Journal of Plant Nutrition and Fertilizer,2017,23(6):1480-1493.] [33] WISCHMEIER W,SMITH D.Predicting Rainfall Erosion Losses:A Guide To Conservation Planning[J].Agriculture Handbooks (USA),1978,537:62. [34] GUO S L,ZHU H H,DANG T H,et al.Winter Wheat Grain Yield Associated with Precipitation Distribution under Long-term Nitrogen Fertilization in the Semiarid Loess Plateau in China[J].Geoderma,2012,189/190:442-450. [35] 成杰民,宋涛,李彦.基于GIS的南四湖沿岸农业面源氮磷负荷估算研究[J].水土保持研究,2012,19(3):284-288.[CHENG Jie-min,SONG Tao,LI Yan.Estimation of Nitrogen and Phosphorus Loading of Agricultural Non-point Sources along Nansi Lake Based on GIS[J].Research of Soil and Water Conservation,2012,19(3):284-288.] [36] 任天志,刘宏斌,范先鹏,等.全国农田面源污染排放系数手册[M].北京:中国农业出版社,2015:23-83. [37] ZHANG Y J,YU Q.Identification of Current Research Intensity and Influence Factors of Agricultural Nitrogen Loss from Cropping Systems[J].Journal of Cleaner Production,2020,276:123308. [38] 李红莉,张卫峰,张福锁,等.中国主要粮食作物化肥施用量与效率变化分析[J].植物营养与肥料学报,2010,16(5):1136-1143.[LI Hong-li,ZHANG Wei-feng,ZHANG Fu-suo,et al.Chemical Fertilizer Use and Efficiency Change of Main Grain Crops in China[J].Plant Nutrition and Fertilizer Science,2010,16(5):1136-1143.] [39] WANG R,MIN J,KRONZUCKER H J,et al.N and P Runoff Losses in China's Vegetable Production Systems:Loss Characteristics,Impact,and Management Practices[J].Science of the Total Environment,2019,663:971-979. [40] WOLF K A,GUPTA S C,ROSEN C J.Precipitation Drives Nitrogen Load Variability in Three Iowa Rivers[J].Journal of Hydrology:Regional Studies,2020,30:100705. [41] WANG W Y,YUAN J C,GAO S M,et al.Conservation Tillage Enhances Crop Productivity and Decreases Soil Nitrogen Losses in a Rainfed Agroecosystem of the Loess Plateau,China[J].Journal of Cleaner Production,2020,274:122854. [42] NAN Z,WANG X Y,DU Y,et al.Critical Period and Pathways of Water Borne Nitrogen Loss from a Rice Paddy in Northeast China[J].Science of the Total Environment,2021,753:142116. [43] WANYAMA J,HERREMANS K,MAETENS W,et al.Effectiveness of Tropical Grass Species as Sediment Filters in the Riparian Zone of Lake Victoria[J].Soil Use and Management,2012,28(3):409-418. |