| Citation: |
WANG Yao, YANG Jianfeng, ZHANG Cuiguang. Research status, strategy and implications of the EURO area's environmental geological science[J]. Geological Bulletin of China, 2016, 35(11): 1918-1925.
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Research status, strategy and implications of the EURO area's environmental geological science
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Abstract
EU (European Union) is the leading advocator and propeller for world environmental protection and sustainable development, and it has accumulated a series of advanced principles, experience and practices in environmental geological science. In this paper, the authors analyzed current status of EU's environmental geological survey and scientific research through mapping, monitoring and mechanism studying based on discussing of EU's basic environmental management principles. The authors also summarized EU's strategic focus on scientific development in the area of environmental geology, and teased out a developing route of the agency of geological survey in EU's member states which is a transition from traditional geological survey to modern geological survey based on providing service for ecological management. According to this discussion, the authors proposed several implications for environmental geological survey and research development in China, i.e., enhancing ecosystem service evaluation of geological environment based on setting up the concept of natural capital, building a unified monitoring system of environmental geology through propelling the integration of the specialized monitoring station network, carrying out 3D geological survey and monitoring of earth's critical zone, and strengthening the basic research on the quick response of geological environmental events. -
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References
[1] 董联党, 顾颖, 王晓璐.欧盟环境政策体系与其实施机制对中国的借鉴[J]. 生态经济, 2008,(1):37-40. [2] European Commission. Europe 2020:A strategy for smart, sustainable and inclusive growth[M]. Brussels:The European Union,2010:1-34. [3] European Commission. Horizon 2020-the framework programme for research and innovation[M]. Brussels:The European Union, 2011:1-14. [4] The European Parliament and the Council of the European Union. Decision No 1386/2013/EU of the European Parliament and of the Council of 20 November 2013 on a General Union Environment Action Programme to 2020 ‘Living well, within the limits of our planet’[J]. Official Journal of the European Union,2013:171-200. [5] Margottini C, Canuti P, Sassa K. Landslide science and practice[M]. Springer,2013:331-333. [6] 刘凤山, 胡道功.欧美国家地质填图的理念、管理与战略[J]. 地质通报,2009,28(10):1405-1410. [7] Thomsen R, Søndergaard V H, Sørensen K I. Hydrogeological mapping as a basis for establishing site-specific groundwater protection zones in Denmark[J]. Hydrogeology Journal,2004,12:550-562. [8] Commission of the European Communities. Groundwater resources of the European Community:synthetical report[M]. Th. Schäfer GmbH,Hannover,1982:1-75. [9] Cornu J, Eme D, Malard F. The distribution of groundwater habitats in Europe[J]. Hydrogeology Journal,2013, 21:949-960. [10] Schulte-Braucks R. Observing the land beyond[J]. International Innovation, 2013:44-47. [11] Quevauviller Ph.Groundwater monitoring in the context of EU legislation:reality and integration needs[J]. Journal of Environmental Monitoring, 2005,7:89-102. [12] TuinstraJ, van Wensem J. Ecosystem services in sustainable groundwater management[J]. Science of the Total Environment, 2014, 485/486:798-803. [13] Wendland F, Blum A, Coetsiers M, et al. uropean aquifer typology:a practical framework for an overview of major groundwater composition at European scale[J]. Environmental Geology, 2008,55:77-85. [14] Hahn H J, Fuchs A. Distribution patterns of groundwater communities across aquifer types in south-western Germany[J]. Freshwater Biology,2009,54:848-860. [15] Griebler C, Stein H, Kellermann C, et al. Ecological assessment of groundwater ecosystems:vision or illusion[J]. Ecological Engineering, 2010,36:1174-1190. [16] Folkard G K. The Significance, Occurrence and Removal of Volatile Chlorinated Hydrocarbon Solvents in Groundwaters[J]. Water Pollut. Contr., 1986,85:63-70. [17] Cavallero A, Corradi C, De Felice, et al. Underground water Pollution in Milan by Industrial Chlorinated Organic Compounds[M]. Chichester:Ellis Harwood, 1985:65-84. [18] Keuskamp J A, van Drecht G, Bouwman A F. European-scale modeling of groundwater denitrification and associated N2O production[J]. Environmental Pollution,2012,165:67-76. [19] Commission of the European Communities. Thematic Strategy for Soil Protection[M]. Brussels:The European Union, 2006:1-12. [20] Van Den Eeckhaut M, Hervás J. State of the art of national landslide databases in Europe and their potential for assessing landslide susceptibility, hazard and risk[J]. Geomorphology, 2012, 139/140:545-558. [21] 张志勤. 欧盟碳捕获及储存技术研发现状与发展趋势[J]. 全球科技经济嘹望,2012,27(10):5-11. [22] British Geological Survey. Gateway to the earth:science for the next decade[M]. Swindon:Polaris House, 2014:1-18. [23] Thorleifson L H, Berg R C, Russell H A J. Geological mapping goes 3-D in response to societal needs[J]. GSA Today, 2010,20(8):27-29. -
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WANG Yao, YANG Jianfeng, ZHANG Cuiguang. Research status, strategy and implications of the EURO area's environmental geological science[J]. Geological Bulletin of China, 2016, 35(11): 1918-1925.
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