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›› 2014, Vol. 26 ›› Issue (6): 55-61.doi: 10.13998/j.cnki.issn1002-1248.2014.6.014

• Literature study • Previous Articles     Next Articles

Bibliometric analysis on literatures of Non-Point Source Pollution at A Watershed Scale

MA Xin1,YAN Tie-zhu2,CAO Hong-tao3,CHEN Shao-bo4   

  1. 1.Agricultural Information Institute of Chinese Academy of Agricultural Sciences,Beijing 100081,China;
    2.School of Environment, Beijing Normal University, Beijing,100875,China;
    3. Tianjin Rural Work Committee,Tianjin,300061,China; 4. Meteorological Bureau of Chicheng County, Chicheng 075500, China
  • Received:2014-04-29 Online:2014-06-05 Published:2014-06-03

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Abstract: Non-point pollution has been a key impact of sustainable development of social economy and environment. To better understand the global trend in non-point source pollution at a watershed scale and to reflect major nations’ scientific advances and influences on the world’s scientific community in the field,a bibliometric study on non-point source literature indexed by the Web of Science based on Web of Knowledge during 1990~2012 was carried out using regular search methods. Results indicated that among all nations, American had been ahead of other countries considering the number of publications, institutions, researchers and highly cited literature. In terms of typical mechanism model, publications relating to SWAT model had accounted for the largest proportion.The average impact factor of the top 10 journals publishing related articles was 2.608. Three journals including Environmental Pollution, Science of the Total Environmental and Water Air and Soil Pollution were the most important and popular ones in this field. The Chinese Academy of Sciences, Beijing Normal University and Zhejiang University were the top 3 institutions that had the highest numbers of publications with the highest quality in China.

Key words: Watershed

CLC Number: 

  • G250
【1】夏军.水问题的复杂性与不确定性研究与进展.中国水利水电出版社,2004.
【2】Panda RK,Behera S.Non-point source pollution of water resources:Problems and perspectives.Journal of Food Agriculture & Environment.2003,(1):308-311.
【3】杨淑静,张爱平,杨世绮,杨正礼.农业非点源污染现状分析及国内外研究进展.中国农业气象,2009,(S1):82-85.
【4】谭宗颖,黄群,阳宁晖,等.马普学会的学科布局与学科优势分析.科学观察,2007,2(4):11-231.
【5】谭宗颖,龚旭.十二国科学产出影响及学科优势的国际比较——基于引文计量的分析.中国基础科学,2006,(2):32-36.
【6】邱均平,段宇锋,陈敬全,等.我国文献计量学发展的回顾与展望.科学学研究,2003,21(2):143-148.
【7】王伟,吴信岚.基于Web of Science的我国生物技术文献的计量研究.现代情报,2011,31(11):109-115.
【8】张丽月.基于Web of Science的人乳头状瘤病毒研究现状.预防医学情报杂志,2013,29(7):601-605.
【9】程爽.基于Web of Science的低碳经济/低碳技术文献研究.内蒙古科技与经济,2010,216(14).
【10】赵庆铃,路文如.土壤重金属污染研究回顾与展望——基于web of science数据库的文献计量分析.环境科学与技术,2010,33(6):105-111.
【11】贺萍,路文如,骆有庆.生物入侵文献计量分析.北京林业大学学报,2009,31(2).77-83.
【12】ISI Web of Knowledge.Web of Science.http://apps.webofknowledge.com/UA_GeneralSearch_input.do?product=UA&search_mode=GeneralSearch&SID=2FamegCXtoWmpIRMzS1&preferencesSaved.
【13】ISI Web of Knowledge.Journal Citation Reports.http://admin-apps.webofknowledge.com/JCR/JCR?PointOfEntry=Home&SID=1C2l4x4RcSmuDJsBofn.
【14】Singh J.,Knapp H.V.,Arnold J.G.,et al.Hydrological modeling of the Iroquois River watershed using HSPF and SWAT .Journal of The American Water Resources Association.2005,41(2): 343-360.
【15】Im S.,Brannan K.,Mostaghimi S.,et al.A comparison of SWAT and HSPF models for simulating hydrologic and water quality responses from an urbanizing watershed.2003 .
【16】 Saleh A.,Du B.Evaluation of SWAT and HSPF within BASINS program for the upper North Bosque River watershed in central Texas .Transactions of the ASAE,2004,47(4):1039-1049.
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