为了解中国水生态环境治理研究趋势,以2004—2022年的Web of Science数据库中有关水生态环境治理的科学论文为研究对象,利用文献计量学工具Citespace对当前水生态环境治理研究文献进行可视化分析和论述。重点分析了中国该领域的核心研究力量、研究热点与研究趋势。结果表明未来在流域水生态环境演变、水工程生态环境影响、流域水污染防治、水环境模拟、水生态保护与修复、绿色可持续科技和生物多样性保护等方面的研究还会继续深入。高校和科研院所是水生态环境治理研究的核心力量,相互之间的合作有利于水资源、水生态、水环境等要素的协同治理。研究的核心是如何应对“污染”、“气候变化”和“植被动态”对水域的影响。高原、干旱地区水域的水污染治理评价体系构建、气候变化对水生态环境治理造成的困境,以及管理、政策上的创新与不足是该领域的研究前沿。利用Logistic回归分析、分类树等计算模型和实证方法进行水生态环境治理研究是当前的趋势。研究成果可为该领域的相关学者提供一定的参考和借鉴。
Abstract
To understand the research trend of China’s water eco-environmental governance, the relavant research papers indexed by the Web of Science database from 2004 to 2022 are examined via visualization approach using bibliometric tool Citespace. The core researchers, research hotspots and research trends in China are analyzed in emphasis. Results reveal that researches on the following aspects will be deepened: the evolution of water ecological environment, the eco-environmental impact of water projects, the water pollution control in river basins, the simulation of water environment,the protection and restoration of water ecology, the green sustainable science and technology and the biodiversity protection. Core researchers mainly come from universities and research institutes whose cooperation is conducive to the coordinated governance among water resources, water ecology, and water environment. Core topics of the researches lie in how to deal with the impacts of pollution, climate change and vegetation dynamics on waters. The construction of water pollution control evaluation system in plateau and arid areas, the predicaments of water eco-environmental governance posed by climate change, and the innovations and deficiencies of management and policy are the research fronts. In addition, logistic regression analysis, classification tree and other calculation models and empirical methods are current trends.
关键词
水生态环境治理 /
文献计量 /
Citespace /
可视化 /
研究前沿
Key words
water eco-environmental governance /
bibliometrics /
Citespace /
visualization /
research front
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参考文献
[1] WANG K L, LI Y, WU L, et al. Research on the Ecological Operation of a Reservoir Based on the Protection of Benthic Diatoms in a Natural Stream[J]. Fresenius Environmental Bulletin, 2020, 28(8): 5900-5910.
[2] 国务院印发《水污染防治行动计划》[EB/OL].[2022-02-25].http://www.gov.cn/xinwen/2015-04/16/content_2847709.htm.
[3] ZHANG H, XUE L, WEI G, et al.Assessing Vegetation Dynamics and Landscape Ecological Risk on the Mainstream of Tarim River, China[J]. Water, 2020, 12(8): 2156, Doi: 10.3390/w12082156.
[4] 曾维和, 陈 曦, 咸鸣霞. “水生态文明建设”能促进水生态环境持续改善吗?:基于江苏省13市双重差分模型的实证分析[J]. 中国软科学, 2021(5): 90-98.
[5] 皮家骏,欧阳澍,张带琴,等.基于PSR-物元模型的水生态文明评价研究:以南昌市为例[J].水资源与水工程学报,2018,29(1):55-61.
[6] YU Z, LIU S, WANG J, et al. Natural Forests Exhibit Higher Carbon Sequestration and Lower Water Consumption than Planted Forests in China[J]. Global Change Biology, 2019, 25(1): 68-77.
[7] YANG T,LI X, XU Y,et al. Potential Ecological Risk and Contamination of Heavy Metals in Feng River, China[J]. Fresenius Environmental Bulletin,2017,26(6):4039-4046.
[8] SHI J C, HUANG T L, WEN G, et al. The Variation Characteristic of Sulfides and VOSc in a Source Water Reservoir and Its Control Using a Water-lifting Aerator[J]. International Journal of Environmental Research and Public Health, 2016, 13(4): 427, Doi: 10.3390/ijerph13040427.
[9] COSTANZA R, PEREZ-MAQUEO O, LUISA MARTINEZ M, et al. The Value of Coastal Wetlands for Hurricane Protection[J]. Ambio, 2008, 37(4): 241-248.
[10] YE X, ZHANG Q, LIU J, et al. Distinguishing the Relative Impacts of Climate Change and Human Activities on Variation of Streamflow in the Poyang Lake Catchment, China[J]. Journal of Hydrology, 2013, 494: 83-95.
[11] GAO X, SHEN J, HE W, et al. Multilevel Governments’ Decision-making Process and Its Influencing Factors in Watershed Ecological Compensation[J]. Sustainability, 2019, 11(7): 1990, Doi: 10.3390/su11071990.
[12] LIU J, CHEN Z, KANUNGO D P, et al. Topsoil Reinforcement of Sandy Slope for Preventing Erosion Using Water-based Polyurethane Soil Stabilizer[J]. Engineering Geology, 2019, 252: 125-135.
[13] GAO X, ZHANG S, SUN B, et al. Assessing the Effects of Restoration Measures on Water Quality in a Large Shallow Reservoir[J]. Sustainability, 2019, 11(19): 5347, Doi: 10.3390/su11195347.
[14] 马方凯, 陈英健, 姜尚文. 长江三角洲区域水生态环境治理思考[J]. 人民长江, 2022, 53(2): 48-53.
[15] 徐梦佳, 刘 冬, 鞠昌华, 等. “五水统筹”治理提升长江经济带生态环境质量的对策建议[J]. 环境保护, 2021, 49(23): 61-64.
[16] WANG J, HE G, FANG H, et al. Climate Change Impacts on the Topography and Ecological Environment of the Wetlands in the Middle Reaches of the Yarlung Zangbo-Brahmaputra River[J]. Journal of Hydrology, 2020, 590: 125419.
[17] WANG K, LI Y, WU L, et al. Research on the Ecological Operation of a Reservoir Based on the Protection of Benthic Diatoms in a Natural Stream[J]. Fresenius Environmental Bulletin, 2019, 28(8): 5900-5910.
[18] SANTOS R M B, SANCHES FERNANDES L F, PEREIRA M G, et al. A Framework Model for Investigating the Export of Phosphorus to Surface Waters in Forested Watersheds: Implications to Management[J]. Science of the Total Environment, 2015, 536: 295-305.
[19] ZHAO A, ZHANG A, LIU J, et al. Assessing the Effects of Drought and “Grain for Green” Program on Vegetation Dynamics in China’s Loess Plateau from 2000 to 2014[J]. Catena, 2019, 175: 446-455.
[20] JIANG C, ZHANG L. Ecosystem Change Assessment in the Three-river Headwater Region, China: Patterns, Causes, and Implications[J]. Ecological Engineering, 2016, 93: 24-36.
[21] 李云生, 王 浩, 王昕竑, 等. 长江流域生态环境治理的瓶颈及对策分析[J]. 环境科学研究, 2020, 33(5): 1262-1267.
基金
国家重点研发计划课题(2019YFC0408805);中南财经政法大学学科建设统筹项目(XKHJ202118)
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