水利水运工程学报
水利水運工程學報
수이수운공정학보
HYDRO-SCIENCE AND ENGINEERING
2009年
4期
67-73
,共7页
城市化%水文效应%长江三角洲地区
城市化%水文效應%長江三角洲地區
성시화%수문효응%장강삼각주지구
urbanization%hydrological response%Yangtze River delta
长江三角洲地区是我国经济最为发达、城市化程度最高的地区之一.城市化的快速发展,有力促进了该地区经济发展.但近年来随着城市化的快速推进,流域不透水面积迅速增加、众多湖泊河网衰退消亡,由此引发的河流水质恶化、洪涝干旱灾害加剧等一系列水文、水资源与水环境问题,已严重威胁到人类的生存环境,并影响经济的可持续发展.为此本文选择该地区内一些典型区域,基于长系列降雨径流资料,以遥感和GIS作支持,通过模拟计算与综合分析,围绕城市化对城市降雨与径流的长期影响、对城市暴雨洪水的影响,以及对河网水系与水环境的影响等方面,重点探讨城市化发展为特征的流域下垫面变化对流域水循环以及水文过程的影响,寻求城市化发展条件下的水文变化规律,以便对该地区城市化水文效应作一个较全面的分析,并为当地的防洪减灾、水环境保护以及水资源持续利用提供技术支持.
長江三角洲地區是我國經濟最為髮達、城市化程度最高的地區之一.城市化的快速髮展,有力促進瞭該地區經濟髮展.但近年來隨著城市化的快速推進,流域不透水麵積迅速增加、衆多湖泊河網衰退消亡,由此引髮的河流水質噁化、洪澇榦旱災害加劇等一繫列水文、水資源與水環境問題,已嚴重威脅到人類的生存環境,併影響經濟的可持續髮展.為此本文選擇該地區內一些典型區域,基于長繫列降雨徑流資料,以遙感和GIS作支持,通過模擬計算與綜閤分析,圍繞城市化對城市降雨與徑流的長期影響、對城市暴雨洪水的影響,以及對河網水繫與水環境的影響等方麵,重點探討城市化髮展為特徵的流域下墊麵變化對流域水循環以及水文過程的影響,尋求城市化髮展條件下的水文變化規律,以便對該地區城市化水文效應作一箇較全麵的分析,併為噹地的防洪減災、水環境保護以及水資源持續利用提供技術支持.
장강삼각주지구시아국경제최위발체、성시화정도최고적지구지일.성시화적쾌속발전,유력촉진료해지구경제발전.단근년래수착성시화적쾌속추진,류역불투수면적신속증가、음다호박하망쇠퇴소망,유차인발적하류수질악화、홍로간한재해가극등일계렬수문、수자원여수배경문제,이엄중위협도인류적생존배경,병영향경제적가지속발전.위차본문선택해지구내일사전형구역,기우장계렬강우경류자료,이요감화GIS작지지,통과모의계산여종합분석,위요성시화대성시강우여경류적장기영향、대성시폭우홍수적영향,이급대하망수계여수배경적영향등방면,중점탐토성시화발전위특정적류역하점면변화대류역수순배이급수문과정적영향,심구성시화발전조건하적수문변화규률,이편대해지구성시화수문효응작일개교전면적분석,병위당지적방홍감재、수배경보호이급수자원지속이용제공기술지지.
The Yangtze River delta is one of the most developed regions in China. With the rapid development of urbanization, impervious areas spread quickly, and drainage networks decline gradually, which have greatly Influenced regional hydrology and water resources. The water quality is getting worse and worse. The flood and drought disasters have aggravated. Human living environment has changed and consequently sustainable development of economy is restricted. Taking several typical urbanizing areas in the Yangtze River delta as an example, this paper probes into the hydrological response of urbanization to hydrologic cycle and hydrological processes with the support of RS and GIS. The research centers on the impacts of urbanization on precipitation, hydrological process, river network, water environment and experimental observation of storm-runoff in the cities. Based on the above analysis, the characteristics of hydrological process under changing environment is modeled and predicted, and the utilization and protection of water resources is also addressed. The results of this study can provide useful support for regional economic development, flood prevention and water security.