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1.
This paper presents a method combining single-indicator comprehensive evaluation and influence factor identification to measure groundwater quality. This method not only reflects groundwater quality classification with clear physical significance, but also divides the possibilities of man-made pollution in regional groundwater. The paper selects 6 063 representative groundwater wells in the North China Plain to evaluate 49 groundwater inorganic and organic index and comes to a conclusion: Controlled by geological environment and hydrogeological conditions, the groundwater quality in the North China Plain deteriorates from the bottom of maintain to coastal area, with Class I to III groundwater decreasing from 49% to 3.9% while Class V groundwater increasing from 21% to 86.9%; the quality of deep groundwater is better than that of shallow groundwater; the contribution rate of manganese, total hardness, total dissolved solids and iodide in shallow groundwater to over-III type water exceeds 50%; the contribution rate of nitrite in pollution index reaches 20%; while heavy metal and organic indexes have limited impact on regional groundwater quality. The North China Plain is an important economic area in China. Over decades, it has witnessed intense human activities, and water resource quantity demanded has been far greater than quantity supplied. Due to scarce surface water resource, groundwater becomes the pillar supporting regional economic development. This has led to increasing groundwater exploitation and development. According to statistics, the exploitation degree of shallow groundwater reaches 105% in the North China Plain and 118% in the Hebei Plain; the exploitation degree of deep groundwater reaches 143% in the North China Plain and 163% in the Hebei Plain. The serious over-exploitation of groundwater brings various geological environmental problems, with the worsening of groundwater quality being a typical one. Besides impact brought by human activities, the poor quality of natural water in the North China Plain is also an important factor. Therefore, to understand the current regional groundwater quality situation and to master influence factors and influence degree can provide reliable scientific protection for regional economic development. 相似文献
2.
Daqing Oilfield is located in the northeast of Songnen Plain in Daqing City, Heilongjiang Province, which is a petrochemical industry gathering place based on petroleum refining, chemical industry, chemical fiber and fertilizer. In recent years, the quantity demand of petroleum and petrochemical production for groundwater in Daqing Oilfield is growing, and it’s of great significance to analyze and study the quality and pollution degree of groundwater for groundwater exploitation, utilization and protection. In this paper, groundwater quality of Daqing Oilfield evaluated by Nemerow Index is poor, and most points are Class IV groundwater; When evaluating groundwater pollution by hierarchical ladder method, the results show that the severe and extremely severe pollution points account for 34.48% in shallow phreatic water and 20% in deep confined water, showing that shallow groundwater is more seriously polluted than the deep. The main components influencing the quality of groundwater in the study area are total hardness, total dissolved solids, Cl-, SO42- and so on, which are affected by both the native environment and human activities; The main pollution components in groundwater are nitrite and nitrate nitrogen which are affected by human activities. Daqing Oilfield groundwater pollution is characterized by inorganic pollution, while organic components related to human activities contribute less to the groundwater pollution currently. 相似文献
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Drought is the uppermost natural disaster in the Hebei Plain, which during the past 20 years showed a trend of frequency increasing, range extension, longer duration and severer damage. In the Hebei Plain, as a major grain producing area, the agricultural drought emergency relief can only rely on groundwater exploitation. Thus the work to conduct evaluation of groundwater supply capacity for agricultural drought emergency relief of Hebei Plain is of great significance for disaster prevention and relief. In this paper, with the method of analytic hierarchy process, the evaluation index system with reference to 3 aspects and 7 indexes (the former including groundwater resources, groundwater exploitation technical conditions and water supply facilities) and the ArcGIS Desktop ArcMAP software, the work to assess the shallow groundwater supply capacity for agricultural drought emergency relief in the Hebei Plain was carried out. 相似文献
5.
The increased demands on water resources in northern China have had a significant impact on groundwater systems in the last three to four decades, including reductions in groundwater recharge capacity and overall water quality. These changes limit the potential for groundwater uses in this area. This paper discusses the issues surrounding groundwater system use in the eight basins of northern China as water resources have been developed. The results demonstrate that the recharge zone has shifted from the piedmont to the agricultural area, and that the total recharge rate in the basins tended to decrease. This decrease in arid inland basins was mainly caused by both the excessive use of water in the watershed area and irrigated channel anti-seepage. In semi-arid basins, the decrease observed in the groundwater recharge rate is related to an overall reduction in precipitation and increasing river impoundment. In addition, intensive exploitation of groundwater resources has resulted in disturbances to the groundwater flow regime in arid and semi-arid inland basins. Arid inland basins demonstrated fast falling groundwater levels in the piedmont plains resulting in declines of spring flow rates and movement of spring sites to lower locations. In the semi-arid basins, i.e. the North China Plain and the Song-nen Plain, groundwater depression cones developed and intersected regional groundwater flow. The semi-arid basins of the North China Plain and the Song-nen Plain have experienced significant hydrochemical evolution of groundwater characterized by changing water type including increase of TDS and pollutants. 相似文献
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Underground water is the important water resources for the North China Plain, but due to long-time exhaustive exploitation, a series of problems about environmental geology including salt water migration appears. The salt groundwater that distributed widely moved downward vertically, triggering a strong impact on the water supply safety in this area; simultaneously, its large storage capacity brought great resources potential. Thus it had practical guiding significance to develop research on migration of salt-fresh water interface in the North China Plain and discuss the space distribution and migration features for improvement of groundwater environment and mitigation of water resource shortage status. This paper described migration features of salt-fresh water interface through changes in boundary line of salt water and fresh water and vertical interface of salt water and found out major causes for migration of salt-fresh water interface in the area were water level difference between salt water and fresh water area, saline concentration difference in salt water and fresh water, stratigraphic structure and artificial skylight based on analysis on the influence factors 相似文献
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豫北平原浅层地下水资源可持续开发利用 总被引:1,自引:0,他引:1
豫北平原隶属黄河、海河两大流域,在平原区松散岩类中蕴藏着较丰富的地下水.随着工农业和城市化的发展,地下水资源的开发利用程度在逐步升高,合理地开发利用地下水资源的重要性日趋显著.主要论述了浅层含水岩组的特征、水动力条件、开发利用现状及与地下水开采相关的环境地质问题.分析了天然资源量的组成,说明了可采资源量的计算方法,指出有开采潜力区和超采区的分布.针对所存在的问题,提出了浅层地下水资源可持续开发利用的措施. 相似文献
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基于水资源可持续利用理念,从水资源承载能力演化周期性、经济社会需用水规模难变性和未来水资源供需关系入手,介绍近60年以来华北平原水资源情势,特别是该平原水资源量、实际用水量和地下水开采量变化特征,并结合未来10到30年区域经济社会发展需用水量趋势,识别和诊断华北平原水资源紧缺因源。结果表明:由于降水量减少导致华北平原缺水(自然资源性缺水)占该平原总缺水量的15.1%~16.4%;因管理缺陷导致水资源浪费的缺水(管理性缺水)占22.1%~24.2%;人口数量和经济社会发展规模过大导致用水量超过区域水资源承载力的缺水(政策性缺水)占59.3%~62.5%。自然资源性、管理性以及政策性缺水的解决对策不同:自然资源性缺水是不依人的意志为转移的,惟有从外域适量调水才能解决;管理性缺水可通过社会文明进步和科技进步不断修正;政策性缺水宜因势利导进行经济社会布局和产业结构调整,特别是限制高耗低效用水产业。即使南水北调工程70.3×108m3/a水进入华北平原,该平原地下水超采情势也难以得到根本性扭转。有新增水源调入或华北平原严控生活和工业用水量,同时大幅压减农业用水量,因势利导优化和逐步调整经济社会布局和产业结构,特别是灌溉农业进行规模化减蒸、降耗、节水的改造,将是缓解华北平原地下水超采和水资源紧缺的根本所在。 相似文献
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地下水资源可持续利用的制度架构——以华北平原为例 总被引:1,自引:0,他引:1
在水资源日益成为制约我国经济社会发展的今天,地下水资源由于其分布广泛、水质纯净、开采方便等特点被过度开采,华北平原是我国地下水开采最严重的地区。针对华北平原地下水资源利用现状与存在问题,从而看到加强地下水资源保护的紧迫性,要建立健全地下水资源管理的制度法规。把行政法中的许可证制度、经济刺激制度,环境法中的环境影响评价制度、信息公开制度引入到地下水的管理与保护之中,为实现地下水资源的可持续利用提供更全面的制度架构。 相似文献
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Jiansheng Shi Zhao Wang Zhaoji Zhang Yuhong Fei Yasong Li Feng’e Zhang Jingsheng Chen Yong Qian 《地学前缘(英文版)》2011,2(4):593-598
A series of environmentalegeological problems have been caused by over-exploitation of deep
groundwater (i.e., confined aquifer water) in the North China Plain. In order to better understand the status
of deep groundwater over-exploitation and the resultant environmentalegeological problems on a regional
scale, the over-exploitation of groundwater has been assessed by way of the groundwater exploitation
potential coefficient (i.e., the ratio of exploitable amount of deep groundwater to current exploitation),
cumulative land subsidence, and long-term average lowering rate of the groundwater table. There is a good
correlation among the results calculated by the different methods. On a regional scale, deep groundwater
has been over-exploited and there is no further exploitation potential under the current conditions. The
groundwater exploitation degree index takes the exploitation in 2003 as the reference for the calculations,
so the results mainly reflect the degree of current groundwater exploitation. The results of over-exploitation
of deep groundwater obtained by land subsidence data and long-term average rate of depression of the water
table mainly reflect environmentalegeological problems caused by exploitation of deep groundwater. 相似文献
11.
华北平原深层地下水的超采已引起了一系列的环境地质问题。为了从区域上认识深层地下水的超采情况以及由此引发的环境地质问题,分别以地下水开采潜力系数(深层地下水可利用量/现状开采量)、地面沉降量、多年平均水位下降速率为指标对地下水超采情况进行了计算和分析。结果表明,不同方法的计算结果具有一定的一致性。从区域上来看,深层地下水总体上处于超采状态,已无开采潜力。地下水开采程度指标采用以2003年为现状年的开采量,因此更多反映的是开采程度现状。利用地面沉降和多年平均水位下降速率计算的超采结果更多地反映了深层地下水开采历史所产生的环境地质问题。 相似文献
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黄河下游冲积平原区地下水的开发利用,以开采浅层地下水为主,其质量问题日益成为人们关心的焦点。本文在对大量水样资料分析的基础上,从污染评价、饮用水评价、农业灌溉用水评价、工业锅炉用水评价及综合评价等五个方面对黄河下游(河南段)地下水质量进行了评价。 相似文献
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TAO Hong ZHENG Miao-miao FAN Li-min LI Wen-li DING Jia LI Hui HE Xu-bo TAO Fu-ping 《地下水科学与工程》2017,5(3):296-302
This paper studies the distribution features, the chemical elements beyond standards and the influencing factors of shallow groundwater quality in the Guanzhong Basin through the data monitored in the last twenty years. The final purpose is to comprehensively evaluate the divisions of groundwater quality in the Guanzhong Basin. Results show that , the groundwater quality is in good shape, and suitable for drinking. Drinking accounts for 16.02% of the total, most of which are distributed in the lubotan of Weibei. Some come from loess plateau of Qian-Liquan County and some are generated by the industrial pollution of Xingping City. Materials exceeding standards include chloride, sulfate, three nitrogen, fluoride, manganese, iron, hexavalent chromium and so on. The main factors influencing the quality of shallow groundwater include groundwater exploitation, natural background value of special components and precipitation, among which the groundwater exploitation poses the greatest impact. The depth of water is positively correlated with the concentration of sulfate, nitrate and total hardness. 相似文献
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Based on the observation of a complete hydrological year from June 2014 to May 2015, the temporal and spatial variations of the main inorganic nitrogen(MIN, referring to NO_3~--N, NO_2~--N, NH_4~+-N) in surface water and groundwater of the Li River and the Yuan River wetland succession zones are analyzed. The Li River and the Yuan River are located in agricultural and non-agricultural areas, and this study focus on the influence of surface water level and groundwater depth and precipitation on nitrogen pollution. The results show that NO_3~-N in surface water accounts for 70%-90% of MIN, but it does not exceed the limit of national drinking water surface water standard. Groundwater is seriously polluted by H_4~+-N. Based on the groundwater quality standard of H_4~+-N, the groundwater quality in the Li River exceeds Class III water standard throughout the year, and the exceeding months' proportion of Yuan River reaches 58.3%. Compared with the Yuan River, MIN in groundwater of the Li River shows significant temporal and spatial variations owing to the influence of agricultural fertilization. The correlation between the concentrations of MIN and surface water level is poor, while the fitting effect of quadratic correlation between H_4~+-N concentration and groundwater depth is the best(R~2=0.9384), NO_3~-N is the next(R~2=0.5128), NO_2~--N is the worst(R~2=0.2798). The equation of meteoric water line is δD =7.83δ~(18) O+12.21, indicating that both surface water and groundwater come from atmospheric precipitation. Surface infiltration is the main cause of groundwater H_4~+-N pollution. Rainfall infiltration in non-fertilization seasons reduces groundwater nitrogen pollution, while rainfall leaching farming and fertilization aggravate groundwater nitrogen pollution. 相似文献
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Based on the observation of a complete hydrological year from June 2014 to May 2015, the temporal and spatial variations of the main inorganic nitrogen (MIN, referring to NO3--N, NO2--N, NH4+-N) in surface water and groundwater of the Li River and the Yuan River wetland succession zones are analyzed. The Li River and the Yuan River are located in agricultural and non-agricultural areas, and this study focus on the influence of surface water level and groundwater depth and precipitation on nitrogen pollution. The results show that NO3--N in surface water accounts for 70%-90% of MIN, but it does not exceed the limit of national drinking water surface water standard. Groundwater is seriously polluted by NH4+-N. Based on the groundwater quality standard of NH4+-N, the groundwater quality in the Li River exceeds Class III water standard throughout the year, and the exceeding months’ proportion of Yuan River reaches 58.3%. Compared with the Yuan River, MIN in groundwater of the Li River shows significant temporal and spatial variations owing to the influence of agricultural fertilization. The correlation between the concentrations of MIN and surface water level is poor, while the fitting effect of quadratic correlation between NH4+-N concentration and groundwater depth is the best (R2=0.9384), NO3--N is the next (R2=0.5128), NO2--N is the worst (R2=0.2798). The equation of meteoric water line is δD =7.83δ18O+12.21, indicating that both surface water and groundwater come from atmospheric precipitation. Surface infiltration is the main cause of groundwater NH4+-N pollution. Rainfall infiltration in non-fertilization seasons reduces groundwater nitrogen pollution, while rainfall leaching farming and fertilization aggravate groundwater nitrogen pollution. 相似文献
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高氟地下水的水文地球化学环境及氟的赋存形式与地氟病患病率的关系──以华北平原为例 总被引:12,自引:1,他引:12
在华北平原,地方性氟中毒疾病(简称地氟病)主要由于饮水中含氟量高(超过1.0mg/L)而引起,属饮水型病区。本文分析了地氟病致病的主要环境因素,讨论了形成高氟地下水的水文地球化学环境,并以河北邢台地区山前平原浅层地下水系统为例,应用地下水地球化学模拟的理论和方法,对研究区浅层地下水系统氟的水文地球化学进行定量研究,从统计学的角度研究了浅层高氟地下水中氟的组分存在形式与地氟病患病率的相关关系。 相似文献
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Precipitation and groundwater are essential to water circulation and they mutually influence. Groundwater is the main water supply source in Hebei Plain. On the other hand, atmospheric precipitation infiltration recharge is the main supply source of the groundwater in this area. Therefore, the studies on Hebei Plain climatic change features are of great significance to further analyze the influences of climatic changes on groundwater resources. This paper selected 10 ground climatological stations in Hebei Plain in terms of daily precipitation and temperature data from 1961 to 2010 and analyzed the spatial-temporal evolution features of temperature and precipitation. The results showed that the minimum temperature of Hebei Plain in recent 50 years increased significantly; the maximum temperature basically is stable; and the mean temperature presents an obviously increasing trend. In the spatial distribution, it gradually decreases from southwest to northeast on the whole and gradually tends to increase from the coastal to inland. The precipitation in recent 50 years owns obvious interannual change features and spatial distribution features, with a trend of overall periodic decrease and significant decrease of extreme precipitation. The annual mean precipitation intensity and annual mean extreme precipitation intensity gradually increased from piedmont plain to coastal plain. Hebei Plain has a warming and drying development trend on the whole. In space, piedmont plain belongs to the high-temperature and few-water area; coastal plain lies in low-temperature and much-water area; and central plain is in transitional zone. The climatic change and human activities are two influential factors of groundwater resources. Further revealing of the climatic change features of different geomorphic types and measuring and distinguishing of the influences of climatic change and human activities on groundwater remain to be further explored. 相似文献
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过量开采地下水诱发的地裂缝("采水型"地裂缝)灾害对社会造成严重损失,受到人们普遍关注。近几十年来,国内外学者对其成因机制进行了大量研究,取得了丰硕成果。本文系统分析了前人的研究成果,归纳出"采水型"地裂缝的差异沉降成因、拉张性水平应变成因和四种成因模式;然后针对中国三个典型的"采水型"地裂缝发育区,即汾渭盆地、华北平原、苏锡常地区,阐述了各地地裂缝分布、发育特征和成因机理,并选择典型地段地裂缝进行成因分析,认为汾渭盆地和华北平原地区部分地裂缝属于"先期断层模式",而苏锡常地区地裂缝总体属于"基岩起伏模式",并阐述了该模式下导致地裂缝发育的差异性变形、水平应变作用机理。 相似文献
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我国深层地下水超采最严重的区域当属华北平原的河北省黑龙港地区,该区域的深层承压含水层面临枯竭的安全风险。然而,黑龙港地区作为我国优质冬小麦的重要产区和河北省冬小麦的主产区,肩负着河北省确保冬小麦这一重要口粮稳产的责任。因此,冬小麦生育期的灌溉策略必须在区域尺度上兼顾深层地下水的禁采和冬小麦产量的稳定,这也是当前黑龙港地... 相似文献