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地球科学进展  2016, Vol. 31 Issue (6): 650-662    DOI: 10.11867/j.issn.1001-8166.2016.06.0650.
研究简报     
基于文献计量的青藏高原国际合作研究态势分析
王婷
中国科学院青藏高原研究所科技信息中心,北京 100101
A Bibliometrical Analysis of International Cooperation Research in the Field of Tibetan Plateau
Wang Ting
Science and Information Center of Institute of Tibetan Plateau Research, Chinese Academy of Sciences,Beijing 100101,China
 全文: PDF(12532 KB)   RICH HTML
摘要: 青藏高原以其独特性及其对全球环境、生态、气候的重要影响,成为国际科学重点关注的地区和研究对象。回顾青藏高原领域国际合作的发展历程,以1980—2014年35年来青藏高原国际合作的SCI论文为分析对象进行定量统计和数据挖掘。总结青藏高原国际合作研究从萌芽到快速发展到趋于成熟的发展阶段、国际合作已经成为青藏高原领域研究的主要组织模式;分析青藏高原国际合作学科领域从单一化到多学科交叉融合的变化;比较主要国家青藏高原领域国际合作研究和自主研究的变化;并提出中国在今后继续加强青藏高原国际合作研究的建议。
关键词: 青藏高原SCI论文文献计量国际合作研究    
Abstract: Tibetan Plateau, with its unique characteristics and its impact on the global environment, ecology and climate, is an important research region of the international scientific community. The development of international cooperation in the field of Tibetan Plateau was reviewed and the quantitative statistics and data in accordance with the SCI papers of international cooperation in the field of Tibetan Plateau were analyzed during the 35 years of 1980-2014. The experience of international cooperative research in the field of Tibetan Plateau from starting stage to rapid development to tend to mature stage of development was summarized. International cooperative research has become the main organization of research in the field of Tibetan Plateau. Tibet Plateau international collaboration changing from single academic discipline to multi academic disciplines was analized. Changes in major countries of international cooperation research and independent research in the field of Tibetan Plateau were compared and suggestions for strengthening international cooperative research in the field of Tibetan Plateau for China in the future were put forward.
Key words: International cooperation research    Bibliometrical.    Tibetan Plateau    SCI papers
收稿日期: 2016-05-13 出版日期: 2016-06-10
ZTFLH:  P91  
基金资助: 中国科学院科研一线知识服务能力建设子项目“青藏高原研究所情报分析可持续服务能力建设”(编号:院1445)资助
作者简介: 王婷(1985-),女,四川巴中人,工程师,主要从事情报分析和图书馆学研究.E-mail:wangting@itpcas.ac.cn
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引用本文:

王婷. 基于文献计量的青藏高原国际合作研究态势分析[J]. 地球科学进展, 2016, 31(6): 650-662.

Wang Ting. A Bibliometrical Analysis of International Cooperation Research in the Field of Tibetan Plateau. Advances in Earth Science, 2016, 31(6): 650-662.

链接本文:

http://www.adearth.ac.cn/CN/10.11867/j.issn.1001-8166.2016.06.0650.        http://www.adearth.ac.cn/CN/Y2016/V31/I6/650

[1] Zhang Yili,Li Bingyuan,Zheng Du.A discussion on the boundary and area of the Tibetan Plateau in China[J]. Geographical Research ,2002,21(1): 1-8.
. 地理研究, 2002,21(1): 1-8.]
[2] Ma Yaoming,Hu Zeyong,Tian Lide, et al . Study progresses of the Tibet Plateau climate system change and mechanism of its impact on East Asia[J]. Advances in Earth Science ,2014,29(2): 207-215.
.地球科学进展,2014,29(2): 207-215.]
[3] National Science Library, Chinese Academy of Sciences. “2015 Frontiers of Research” Report Official Release[EB/OL].(2015-11-03)[2016-04-03].http:∥www.cas.cn/sygz/201511/t20151103_4453411.shtml. [中国科学院文献情报中心. 《2015研究前沿》报告正式发布[EB/OL].(2015-11-03)[2016-04-03].http:∥www.cas.cn/sygz/201511/t20151103_4453411.shtml,2015-11-03.]
[4] Yao T, Thompson L, Yang W, et al. Different glacier status with atmospheric circulations in Tibetan Plateau and surroundings[J]. Nature Climate Change , 2012, 2(9):663-667.
[5] Zheng Du. Actively promote international cooperation of Tibet Plateau[J]. Bulletin of the Chinese Academy of Sciences ,1995, (2): 181-183.
. 中国科学院院刊, 1995, (2): 181-183.]
[6] Zhao Wenjin,Nelson K D,Brown L D, et al . International interdisciplinary deep profile of Tibet and the himalaya(INDEPTH)[J]. Acta Geophysica Sinica ,1993,36(1): 124.
. 地球物理学报, 1993,36(1): 124.]
[7] Ma Yaoming,Yao Tandong, Hu Zeyong, et al .The cooperative study on energy and water cycle over the Tibetan Plateau[J]. Advances in Earth Science ,2009,24(11): 1 280-1 284.
. 地球科学进展, 2009,24(11): 1 280-1 284.]
[8] Zhao Wenjin, Wu Zhenhan, Shi Danian, et al . Comprehensive deep profiling of Tibetan Plateau in the INDEPTH project[J]. Acta Geoscientica Sinica ,2008,29(3): 328-342.
. 地球学报, 2008,29(3): 328-342.]
[9] Yao Tandong. TPE international program:A program for coping with major future environmental challenges of the Third Pole region[J]. Progress in Geography ,2014,33(7): 884-892.
. 地理科学进展, 2014,33(7): 884-892.]
[10] Meng Wei,Pang Jing’an. The application of Pajek in the study of network visualization of information science cooperation[J]. Information Studies : Theory & Application ,2008, (4): 573-575.
. 情报理论与实践, 2008, (4): 573-575.]
[11] Wang Xiquan,Zhao Ning,Gao Shan.Knowledge sharing study of the university research team coauthor network based on Pajek:A case study of the economics and management school of a university[J]. Value Engineering ,2012, (15): 221-222.
. 价值工程, 2012, (15): 221-222.]
[12] Yang Liying, Yue Ting, Ding Jielan. Medical sciences during 2002-2011: China in the world—Based on bibliometrics[J]. Science Focus ,2015, (2): 1-16.
. 科学观察, 2015, (2): 1-16.]
[13] Jin Bihui, Yang Liying,Lü Qunyan, et al .Situation analysis of immunology during 2000-2009—Based on bibliometrical and data[J]. Science & Technology Review ,2012, (13): 15-20.
. 科技导报, 2012, (13): 15-20.]
[14] Xue Lei. Problems of the first author of an academic paper and the ways to deal with them[J]. Acta Editologica , 2012, (15): 33-34.
. 编辑学报, 2012, (15): 33-34.]
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