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Progress on Three Gorges Reservoir research: From a bibliometrics perspective

  • LÜ Guanping, CHEN Lei, SHEN Zhenyao
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  • School of Environment, Beijing Normal University; State Key Laboratory of Water Environment Simulation, Beijing 100875, China

Received date: 2015-01-12

  Revised date: 2015-03-17

  Online published: 2015-05-15

Abstract

The temporal trend, regional distribution, subject type, author, organization and key works of researches are analyzed from the core database of Web of ScienceTM based on the bibliometrics method. The obtained results indicate that the study of the Three Gorges Reservoir has shown a sharp increasing tendency since the secondary period impoundment of the Three Gorges Reservoir in 2006. Most of research papers are from China and the major popular journals are Geomorphology and so on. Among the research institutions, Chinese Academy of Sciences, Beijing Normal University, East China Normal University have strong influences in this field. The major focusing issues include the effect of Three Gorges Reservoir on ecological environment, geological disaster, immigration in the middle and lower Yangtze River and reservoir region, among which ecological environment problem has attracted the most attention. Based on these analysis, development and application of models in this region, non-point source pollution, greenhouse gas emissions and their impact on climate change might become hot issues in the future.

Cite this article

LÜ Guanping, CHEN Lei, SHEN Zhenyao . Progress on Three Gorges Reservoir research: From a bibliometrics perspective[J]. Science & Technology Review, 2015 , 33(9) : 108 -119 . DOI: 10.3981/j.issn.1000-7857.2015.09.018

References

[1] 中华人民共和国水利部, 中华人民共和国国家统计局. 第一次全国水利普查公报[R]. 北京: 中国水利水电出版社, 2013. The Ministry of Water Resources of the People's Republic of China, The National Bureau of Statistics of the People's Republic of China. The first national water resources census bulletin [R]. Beijing: Chinese Waterconservancy and Hydropower Press, 2013.
[2] Xu X B, Tan Y, Yang G S. Environmental impact assessments of the Three Gorges Project in China: Issues and interventions [J]. Earth-Science Reviews, 2013, 12(4):115-125.
[3] 李晓, 陈春燕, 郑家奎,等. 基于文献计量学的超级稻研究动态[J]. 中国农业科学, 2009, 42(12): 4197-4208. Li X, Chen C Y, Deng J Ki, et al. Research dynamics on super rice based on bibliometric[J]. Scientia Agricultura Sinica, 2009, 42(12): 4197-4208.
[4] Sugawara M, Ozaki E. Runoff analysis of the Chang Jiang (the Yangtze-River) [J]. Journal Des Sciences Hydrologiques, 1991, 36(2): 135-152.
[5] Yang S L, Zhao Q Y, Belkin I M. Temporal variation in the sediment load of the Yangtze River and the influences of human activities[J]. Journal of Hydrology, 2002, 263(1-4): 56-71.
[6] Lu X X, Higgitt D L. Sediment delivery to the Three Gorges 2: Local response [J]. Geomorphology, 2001, 41(2-3): 157-169.
[7] Higgitt D L, Lu X X. Sediment delivery to the Three Gorges: 1. Catchment controls [J]. Geomorphology, 2001, 41(2-3): 143-156.
[8] Yang Z, Wang H, Saito Y, et al. Dam impacts on the Changjiang (Yangtze) River sediment discharge to the sea: The past 55 years and after the Three Gorges Dam [J]. Water Resources Research, 2006, 42 (4): W04407.
[9] Xu K H, Milliman J D. Seasonal variations of sediment discharge from the Yangtze River before and after impoundment of the Three Gorges Dam [J]. Geomorphology, 2009, 104(3-4): 276-283.
[10] Park Y S, Chang J B, Lek S, et al. Conservation strategies for endemic fish species threatened by the Three Gorges Dam[J]. Conservation Biology, 2003, 17(6): 1748-1758.
[11] Sekiguchi H, Watanabe M, Nakahara T, et al. Succession of bacterial community structure along the Changjiang River determined by denaturing gradient gel electrophoresis and clone library analysis[J]. Applied and Environmental Microbiology, 2002, 68(10): 5142-5150.
[12] Hirsch J E. An index to quantify an individual's scientific research output[J]. Proceedings of the National Academy of Sciences of the United States of America, 2005, 102(46): 69-72.
[13] 王丽平, 郑丙辉, 张佳磊, 等. 三峡水库蓄水后对支流大宁河富营养化特征及水动力的影响[J]. 湖泊科学, 2012, 24(2): 232-237. Wang L P, Zheng B H, Zhang J L, et al.Effects on euthrophication and hydrodynamics of Daning River after impoundment of Three Gorges Reservoir[J]. Journal of Lake Sciences, 2012, 24(2): 232-237.
[14] Xu Y Y, Zhang M, Wang L, et al. Changes in water types under the regulated mode of water level in Three Gorges Reservoir, China [J]. Quaternary International, 2011, 244(2): 272-279.
[15] Xu Y Y, Cai Q H, Ye L, et al. Asynchrony of spring phytoplankton response to temperature driver within a spatial heterogeneity bay of Three-Gorges Reservoir, China [J]. Limnologica, 2011, 41(3): 174-180.
[16] Xu Y Y, Cai Q H, Shao M L, et al. Patterns of asynchrony for phytoplankton fluctuations from reservoir mainstream to a tributary bay in a giant dendritic reservoir (Three Gorges Reservoir, China) [J]. Aquatic Sciences, 2012, 74(2): 287-300.
[17] Shen Z Y, Qiu J L, Hong Q, et al. Simulation of spatial and temporal distributions of non-point source pollution load in the Three Gorges Reservoir Region[J]. Science of the Total Environment, 2014, 49(3): 138-146.
[18] Shen Z Y, Huang Q, Liao Q, et al. Uncertainty in flow and water quality measurement data: A case study in the Daning River watershed in the Three Gorges Reservoir region, China [J]. Desalination and Water Treatment, 2013, 51(19-21): 3995-4001.
[19] Shen Z Y, Chen L, Hong Q, et al. Vertical variation of nonpoint source pollutants in the Three Gorges Reservoir region [J]. PLOS ONE, 2013, 8(8): e71194.
[20] 蔡庆华, 胡征宇. 三峡水库富营养化问题与对策研究[J]. 水生生物学报, 2006, 30(1): 7-11. Cai Q H, Hu Z Y.Studies on eutrophication problem and control strategy in the Three Gorges Reservoir[J]. Acta Hydrobiologica Sinica, 2006, 30(1): 7-11.
[21] Lopez-Pujol J, Ren M X. Biodiversity and the Three Gorges Reservoir: A troubled marriage [J]. Journal of Natural History, 2009, 43(43-44): 2765-2786.
[22] Chen Z H, Wang J F. Land use and land cover change detection using satellite remote sensing techniques in the mountainous Three Gorges Area, China[J]. International Journal of Remote Sensing, 2010, 31(6): 1519-1542.
[23] Seeber C, Hartmann H, Wei X, et al. Land use change and causes in the Xiangxi catchment, Three Gorges area derived from multispectral data [J]. Journal of Earth Science, 2010, 21(6): 846-855.
[24] Wang X , Niu R , Wang Y. Landslide mechanism analysis in the Three Gorges based on cloud model and formal concept analysis[J]. Quarterly Journal of Engineering Geology and Hydrogeology, 2011, 44 (2): 249-258.
[25] Liao M S, Tang J, Wang T, et al. Landslide monitoring with highresolution SAR data in the Three Gorges region [J]. Science China-Earth Sciences, 2012, 55(4): 590-601.
[26] Zhang J X, Liu Z J, Sun X X. Changing landscape in the Three Gorges Reservoir area of Yangtze River from 1977 to 2005: Land use/ land cover, vegetation cover changes estimated using multi-source satellite data [J]. International Journal of Applied Earth Observation and Geoinformation, 2009, 11(6): 403-412.
[27] McManus D P, Gray D J, Li Y S, et al. Schistosomiasis in the People's Republic of China: The Era of the Three Gorges Dam [J]. Clinical Microbiology Reviews, 2010, 23(2): 442-466.
[28] Fu Q, Gao J M, Chen L. Ecological environment problems of Chongqing and corresponding countermeasures [J]. Journal of Central South University of Technology, 2007, 14: 30-34.
[29] Wang C H, Xiao S B, Li Y C, et al. Methane formation and consumption processesin Xiangxi Bay of the Three Gorges Reservoir[J]. SciRep, 2014(4): 4449.
[30] Li Z, Zhang Z Y, Xiao Y, et al. Spatio-temporal variations of carbon dioxide and its gross emission regulated by artificial operation in a typical hydropower reservoir in China[J]. Environmental Monitoring and Assessment, 2014, 186(5): 3023-3039.
[31] 吕明权, 吴胜军, 陈春娣, 等. 基于文献计量视角的三峡消落带生态系统研究进展[J]. 生态学报, 2015, 35(11): 2-22. Lü M Q, Wu S J, Zhang C D, et al. A review of studies on water level fluctuating zone (WLFZ) of the Three GorgesReservoir (TGR) based on bibliometric perspective[J]. Acta Ecologica Sinica, 2015, 35(11): 2-22.
[32] 谭淑端, 王勇, 张全发. 三峡水库消落带生态环境问题及综合防治[J]. 长江流域资源与环境, 2008,17(增1): 101-105. Tan S D, Wang Y, Zhang Q F.Environmental challenges and countermeasures of the water-level-fluctution zone (WLFZ) of the Three Gorges Reservoir[J]. Resources and Environment in the Yangtze Basin, 2008, 17(Suppl 1): 101-105.
[33] Fourniadis I G, Liu J G. Landslides in the Wushan-Zigui region of the Three Gorges, China [J]. Quarterly Journal of Engineering Geology and Hydrogeology, 2007, 40(2): 115-122.
[34] Bi R N, Schleier M, Rohn J, et al. Landslide susceptibility analysis based on ArcGIS and Artificial Neural Network for a large catchment in Three Gorges region, China[J]. Environmental Earth Sciences, 2014, 72(6): 1925-1938.
[35] Wu X L, Ren F, Niu R Q. Landslide susceptibility assessment using object mapping units, decision tree, and support vector machine models in the Three Gorges of China[J]. Environmental Earth Sciences, 2014, 71(11): 4725-4738.
[36] Peng L, Niu R Q, Huang B, et al. Landslide susceptibility mapping based on rough set theory and support vector machines: A case of the Three Gorges area, China [J]. Geomorphology, 2014, 20(4): 287-301.
[37] 卢金友, 黄悦, 张杰. 三峡工程运用后长江中游河道河势变化趋势研究[C]//2007中国科协年会分论坛之十: "三峡工程建成后对长江中游的影响"专题论坛. 武汉, 2007: 29-35. Lu J Y, Huang Y, Zhang J. Research on the Yangtze river middle reaches channel change trend after the Three Gorges Project[C]/"/ The impact of completion the Three Gorges Project on the Yangtze river middle reaches"Seminar-The annual meeting of China Association for Science and Technology of the BBS ten in 2007. Wuhan, China. 2007: 29-35.
[38] 仲志余, 宁磊. 三峡工程建成后长江中下游防洪形势及对策[J]. 人民长江, 2006, 37(9): 8-9. Zhong Z Y, Ning L.Flood control situation in middle and lower area of theYangtze river after TGP completion and countermeasures[J]. Yangtze River, 2006, 37(9): 8-9.
[39] Gao J H, Jia J J, Kettner A J, et al. Changes in water and sediment exchange between the Changjiang River and Poyang Lake under natural and anthropogenic conditions, China [J]. Science of the Total Environment, 2014, 48(1): 542-553.
[40] Zhang Q, Ye X C, Werner A D, et al. An investigation of enhanced recessions in Poyang Lake: Comparison of Yangtze River and local catchment impacts [J]. Journal of Hydrology, 2014, 51(7): 425-434.
[41] Wang J, Sheng Y W, Gleason C J, et al. Downstream Yangtze River levels impacted by Three Gorges Dam [J]. Environmental Research Letters, 2013. 8(4): 044012
[42] Chang J A, Li J B, Lu D Q, et al. The hydrological effect between Jingjiang River and Dongting Lake during the initial period of Three Gorges Project operation [J]. Journal of Geographical Sciences, 2010, 20(5): 771-786.
[43] Yin H F, Liu G R, Pi J G, et al. On the river-lake relationship of the middle Yangtze reaches [J]. Geomorphology, 2007, 85(3-4): 197-207.
[44] Nakayama T, Shankman D. Impact of the Three-Gorges Dam and water transfer project on Changjiang floods [J]. Global and Planetary Change, 2013, 100: 38-50.
[45] An Q, Wu Y Q, Taylor S, et al. Influence of the Three Gorges Project on saltwater intrusion in the Yangtze River Estuary [J]. Environmental Geology, 2009, 56(8): 1679-1686.
[46] Dai Z J, Chu A, Stive M, et al. Unusual salinity conditions in the Yangtze Estuary in 2006: Impacts of an extreme drought or of the Three Gorges Dam [J]. Ambio, 2011, 40(5): 496-505.
[47] 曹勇, 陈吉余, 张二凤, 等. 三峡水库初期蓄水对长江口淡水资源的影响[J]. 水科学进展, 2006,17(4): 554-558. Cao Y, Chen J Y, Zhang E F, et al. Influence of Three Gorge reservoir filled with water onfreshwater resource in the Yangtze River estuary[J]. Advances in Water Science, 2006, 17(4): 554-558.
[48] Wang Q, Wu B, Zhou Y, et al. Investigation and analysis of family life status of Three Gorges rural resettlement [J]. Resources and Environment in the Yangtze Basin, 2011, 20(3): 365-370.
[49] Xu X B, Tan Y, Yang G S, et al. Soil erosion in the Three Gorges Reservoir area [J]. Soil Research, 2011, 49(3): 212-222.
[50] Xu X B, Tan Y, Yang G S, et al. Three Gorges Project: Effects of resettlement on nutrient balance of the agroecosystems in the reservoir area[J]. Journal of Environmental Planning and Management, 2011, 54 (4): 517-537.
[51] Tan Y, Yao F J. Three Gorges project: Effects of resettlement on the environment in the reservoir area and countermeasures [J]. Population and Environment, 2006, 27(4): 351-371.
[52] Shen Z Y, Gong Y W, Li Y H, et al. Analysis and modeling of soil conservation measures in the Three Gorges Reservoir Area in China[J]. Catena, 2010, 81(2): 104-112.
[53] Li J, Jin Z W, Yang W J. Numerical modeling of the Xiangxi River algal bloom and sediment-related process in China[J]. Ecological Informatics, 2014, 22: 23-35.
[54] Cojean R , Cai Y J. Analysis and modeling of slope stability in the Three-Gorges Dam reservoir (China): The case of Huangtupo landslide [J]. Journal of Mountain Science, 2011, 8(2): 166-175.
[55] Liu B, Yin K L. GIS-based landslide susceptibility mapping using infinite slope model for the new site of Badong County, China [J]. Disaster Advances, 2012, 5(4): 1552-1557.
[56] Lai X J, Jiang J H , Huang Q. Effects of the normal operation of the Three Gorges Reservoir on wetland inundation in Dongting Lake, China: A modeling study [J]. Journal Des Sciences Hydrologiques, 2013, 58(7): 1467-1477.
[57] Wu L, Long T Y, Li C M. The simulation research of dissolved nitrogen and phosphorus non-point source pollution in Xiao-Jiang watershed of Three Gorges Reservoir area [J]. Water Science and Technology, 2010, 61(6): 1601-1616.
[58] Ma X, Li Y, Zhang M, et al. Assessment and analysis of non-point source nitrogen and phosphorus loads in the Three Gorges Reservoir Area of Hubei Province, China [J]. Science of the Total Environment, 2011, 412-413: 154-161.
[59] Liu R M, Zhang P P, Wang X J, et al. Assessment of effects of best management practices on agricultural non-point source pollution in Xiangxi River watershed[J]. Agricultural Water Management, 2013, 117: 9-18.
[60] Shen Z Y , Chen L , Chen T. Analysis of parameter uncertainty in hydrological and sediment modeling using GLUE method: A case study of SWAT model applied to Three Gorges Reservoir Region, China[J]. Hydrology and Earth System Sciences, 2012, 16(1): 121-132.
[61] Zhang P P , Liu R M , Bao Y M , et al. Uncertainty of SWAT model at different DEM resolutions in a large mountainous watershed[J]. Water Research, 2014, 53: 132-144.
[62] Dai H C, Mao J Q, Zheng T G. Assessment of greenhouse gas emission from large subtropical reservoir in China [J]. Journal of Environmental Protection and Ecology, 2013, 14(2): 430-437.
[63] Yang L, Lu F, Wang X K, et al. Spatial and seasonal variability of CO2 flux at the air-water interface of the Three Gorges Reservoir[J]. Journal of Environmental Sciences-China, 2013, 25(11): 2229-2238.
[64] 王从锋, 肖尚斌, 陈小燕. 三峡水库减排温室气体效应的初步分析, 人民长江, 2011, 42(01): 18-21. Wang C F, Xiao S B, Chen X Y. Preliminary analysis on reduction effect of greenhouse gas emission by TGP reservoir[J]. Yangtze River, 2011, 42(1): 18-21.
[65] Wu J, Gao X J, Giorgi F, et al. Climate effects of the Three Gorges Reservoir as simulated by a high resolution double nested regional climate model [J]. Quaternary International, 2012, 282: 27-36.
[66] Deng H, Zhao F, Zhao X Y. Changes of extreme temperature events in Three Gorges area, China[J]. Environmental Earth Sciences, 2012, 66 (7): 1783-1790.
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