地质科技情报
地質科技情報
지질과기정보
GEOLOGICAL SCIENCE AND TECHNOLOGY INFORMATION
2009年
4期
112-116
,共5页
地下水%脆弱性%GOD模型%汉江河谷平原
地下水%脆弱性%GOD模型%漢江河穀平原
지하수%취약성%GOD모형%한강하곡평원
groundwater%vulnerability%GOD model%Hanjiang River Valley Plain
以MAPGIS为工作平台,以地下水类型、盖层岩性、地下水埋深为评价指标,利用国际上广泛应用的GOD模型开展了湖北省钟祥市第四系浅层孔隙水的脆弱性评价.研究结果表明:区内浅层孔隙水的脆弱性评分值在0~0.7间,其中极低脆弱性区(评分值=0~0.1)、低脆弱性区(评分值= 0.1~0.3)、中等脆弱性区(评分值=0.3~0.5)、高脆弱性区(评分值=0.5~0.7)和极高脆弱性区(评分值=0.7~10.0)的面积分别占评价区总面积的0.3 %,0.0 %,64.1 %,35.6 %,0. 0 %.换言之,钟祥市汉江河谷平原区浅层孔隙水总体上具有中等脆弱性和高脆弱性,且脆弱性最高的地段几乎全部分布在汉江沿岸.为解决钟祥市工农业发展带来的高污染风险性与地下水具有较高脆弱性这一对明显的矛盾,应加强汉江河谷平原区的地下水资源的管理工作.
以MAPGIS為工作平檯,以地下水類型、蓋層巖性、地下水埋深為評價指標,利用國際上廣汎應用的GOD模型開展瞭湖北省鐘祥市第四繫淺層孔隙水的脆弱性評價.研究結果錶明:區內淺層孔隙水的脆弱性評分值在0~0.7間,其中極低脆弱性區(評分值=0~0.1)、低脆弱性區(評分值= 0.1~0.3)、中等脆弱性區(評分值=0.3~0.5)、高脆弱性區(評分值=0.5~0.7)和極高脆弱性區(評分值=0.7~10.0)的麵積分彆佔評價區總麵積的0.3 %,0.0 %,64.1 %,35.6 %,0. 0 %.換言之,鐘祥市漢江河穀平原區淺層孔隙水總體上具有中等脆弱性和高脆弱性,且脆弱性最高的地段幾乎全部分佈在漢江沿岸.為解決鐘祥市工農業髮展帶來的高汙染風險性與地下水具有較高脆弱性這一對明顯的矛盾,應加彊漢江河穀平原區的地下水資源的管理工作.
이MAPGIS위공작평태,이지하수류형、개층암성、지하수매심위평개지표,이용국제상엄범응용적GOD모형개전료호북성종상시제사계천층공극수적취약성평개.연구결과표명:구내천층공극수적취약성평분치재0~0.7간,기중겁저취약성구(평분치=0~0.1)、저취약성구(평분치= 0.1~0.3)、중등취약성구(평분치=0.3~0.5)、고취약성구(평분치=0.5~0.7)화겁고취약성구(평분치=0.7~10.0)적면적분별점평개구총면적적0.3 %,0.0 %,64.1 %,35.6 %,0. 0 %.환언지,종상시한강하곡평원구천층공극수총체상구유중등취약성화고취약성,차취약성최고적지단궤호전부분포재한강연안.위해결종상시공농업발전대래적고오염풍험성여지하수구유교고취약성저일대명현적모순,응가강한강하곡평원구적지하수자원적관리공작.
Based on the GIS platform, the vulnerability of shallow Quaternary groundwater from the Hanjiang River valley plain in Zhongxiang City, Central Hubei Province, was evaluated by GOD model with three assessment indices: groundwater type, lithology of cap rocks, and groundwater depth. The results indicate that the vulnerability scores of shallow Quaternary groundwater are between 0 and 0.7. Based on the results, the evaluated area is divided into three different sub-areas: very low vulnerability area (score: 0-0.1), low vnlnerability area(score:0.1-0.3), middle vulnerability area (score: 0.3-0.5), high vulnerability area (score: 0.5-0.7) and very high vulnerability area (score:0.7~1.0), with a proportion of 0.3 %, 0.0%, 64.1 %, 35.6 % and 0.0% respectively. It is found that the shallow Quaternary groundwater in most evaluated area has middle or high vulnerability and the areas with the high groundwater vulnerability are almost all distributed along the Hanjiang River. Thus, it is necessary to strengthen the prevention and remediation of groundwater pollution to solve the contradiction between strong pollution potential and highly vulnerable groundwater environment in Zhongxiang City.