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961.
Chemical data are used to clarify the hydrogeological regime in the Merdja area in Tébessa, as well as to determine the status
of water quality in this area. Groundwater from the aquifer in the Merdja area can be divided into two major groups according
to geographical locations and chemical compositions. Water in the center part of the area of study is characterized by the
dominance of chloride, sulfate, sodium, and potassium; whereas waters in the limestone aquifers in the west are dominated
by the same cations but have higher concentrations of bicarbonate. Stable isotopes show that the Tébessa aquifers contain
a single water type, which originated in a distinct climatic regime. This water type deviates from the Global Meteoric Water
Line (MWL), as well as from the Mediterranean meteoric water line. The water is poor in tritium, and thus can be considered
generally older than 50 years. Piezometric map suggests that water is moving from the west towards the center of the studied
area, and from east towards center. Degradation of water quality can be attributed to agricultural fertilizers in most cases,
although the wadi El Kebir River is a contributor to pollution in the middle part of the studied area. 相似文献
962.
A detailed hydrogeological and hydrochemical study was carried out in Yamuna-Krishni sub-basin which is a part of the vast
central Ganga plain. Groundwater is the major source of water supply for agricultural, domestic and industrial uses. The excess
use of groundwater has resulted in depletion of water levels. The groundwater quality, too, has deteriorated in areas dominated
by industrial activity. This has led to the preparation of a groundwater vulnerability map in relation to contamination. Groundwater
vulnerability maps are valuable derivative maps that show, quantitatively or qualitatively, certain characteristics of the
sub-surface environment that determine vulnerability of groundwater to contamination. The modified DRASTIC method was used
to prepare vulnerability map. The parameters like depth to water, net recharge, aquifer media, soil media, impact of vadose
zone, hydraulic conductivity and land use pattern, owing to its bearing on groundwater regime, were considered to prepare
vulnerability map. The vulnerability index is computed as the sum of the products of weight and rating assigned to each of
the input considered as above. The vulnerability index ranges from 140 to 180, and is classified into four classes i.e. 140–150,
150–160, 160–170 and 170–180 corresponding to low, medium, high and very high vulnerability zones respectively. Using this
index, a groundwater vulnerability potential map was generated which shows that 7%, 40% and 53% of the study area falls in
low, medium and high to very high vulnerability zones respectively. The map, thus generated, can be used as a tool for protection
and management of aquifers from contamination. 相似文献
963.
High fluoride in groundwater has been reported from many parts of India. However, a systematic study is required to understand
the behaviour of fluoride in natural water in terms of local hydrogeological setting, climatic conditions and agricultural
practices. Present study is an attempt to assess hydrogeochemistry of groundwater in Ajmer district in Rajasthan to understand
the fluoride abundance in groundwater and to deduce the chemical parameters responsible for the dissolution activity of fluoride.
Ajmer district falls in the semi-arid tract of central Rajasthan and is geologically occupied by Precambrian rocks (granites,
pegmatites, gneisses, schists etc) where groundwater occurs under unconfined condition. A total of 153 well-water samples,
representing an area of 8481 km2 (further subdivided into eight blocks), were collected and chemically analyzed. The results of chemical analyses (pre-monsoon
2004) show fluoride abundance in the range of 0.12 to 16.9 mg/l with 66% of the samples in excess of permissible limit of
1.5 mg/l.
Presence of fluoride bearing minerals in the host rock, the chemical properties like decomposition, dissociation and dissolution
and their interaction with water is considered to be the main cause for fluoride in groundwater. Chemical weathering under
arid to semi-arid conditions with relatively high alkalinity favours high concentration of fluoride in groundwater. Dental
and skeletal fluorosis are prevalent in the study area which can be related to the usage of high fluoride groundwater for
drinking. The suggested remedial measures to reduce fluoride pollution in groundwater include dilution by blending, artificial
recharge, efficient irrigation practices and well construction. 相似文献
964.
Gold paleoplacers become progressively more affected by diagenetic processes with age and burial. Mesozoic paleoplacer deposits in southern New Zealand display intermediate stages of diagenetic transformation compared to little-affected Late Cenozoic paleoplacers and strongly-affected Paleozoic and Precambrian paleoplacers. The Mesozoic (Cretaceous) diagenesis resulted in near-pervasive alteration, cementation and lithification of the paleoplacer. Lithic clasts and matrix have been extensively altered to illite, ferrous iron-bearing smectite-vermiculite, and kaolinite, and the cement consists mainly of clays and calcite. Diagenetic pyrite, marcasite, vivianite, and Mn oxide also contributed to cementation. Alteration occurred under near-surface (<500 m depth) conditions with groundwater that had circumneutral pH, high alkalinity, and elevated dissolved K, Mg and Ca. Detrital albite remained unaffected by alteration. Detrital gold has been variably dissolved and redeposited, with widespread formation of gold overgrowths on the 1–10 μm scales, with 1–3 wt% Ag. Gold mobility was driven by reduced sulphur complexes in the low redox, high pH diagenetic environment. The overgrowth gold locally contributed to cementation of fine clastic grains, and has intergrown with diagenetic clays and Mn oxide. Post-diagenetic oxidation of the paleoplacer deposit has transformed much of the pyrite to ferric oxyhydroxide and deposited some ferric oxyhydroxide coatings on gold. These oxidation processes have had only minor effects on gold mobility and textures. Hence, the low redox conditions of diagenetic gold mobility were distinctly different from those typically associated with oxidation-related supergene gold mobility. Diagenesis can affect economics of paleoplacer mining by hindering rock disaggregation during processing, coating gold particles with secondary minerals, and increasing the clay content of the deposit, all of which can lower the efficiency of gold recovery. 相似文献
965.
为了研究陕西省泾惠渠灌区地下水污染特征及人体健康风险状况,采集地下水样品进行分析测定,首先运用单因子指数法进行污染评价,再利用GIS获取主要污染物As、Cr (Ⅵ)和NO3--N的空间分布特征,最后借鉴美国环境保护署的人体健康风险评价模型对灌区地下水污染物的人体健康风险做出评价。结果表明:研究区地下水中As、Cr (Ⅵ)、NO3--N的质量浓度均超标,As对成人的致癌风险最高达3.50×10-4,明显超出限值1.00×10-4,长期暴露对当地居民带来罹患癌症的健康风险较高;As、Cr (Ⅵ)、NO3--N的非致癌风险从大到小排序为Cr (Ⅵ)、NO3--N、As,其中Cr (Ⅵ)对儿童的非致癌风险最高,达8.693 7,远超限值1.000 0,危害性最大。空间分布特征方面,As的致癌风险区域面积比例最高,为42.82%,As、Cr (Ⅵ)、NO3--N的非致癌风险区域面积比例分别高达69.19%、69.06%和66.55%,水安全问题突出。 相似文献
966.
The average temperature of Thailand is projected to increase by 2-3 °C, and the annual rainfall is projected to increase by 25% and up to 50% in certain areas. The climate change in future is expected to provide changes in hydrological cycle and therefore impacts the groundwater resources too. In this study, we analyzed the general climate change trends and reviewed the groundwater conditions of Thailand. The climate changes, hydrologic variability and the impact of climate change on groundwater sustainability are also discussed based on a national groundwater monitoring program. Currently, there are 864 groundwater monitoring stations and 1 524 monitoring wells installed in Thailand. Moreover, the impact of climate change on groundwater-dependent systems and sectors is also discussed according to certain case studies, such as saline water intrusion in coastal and inland areas. Managing aquifer recharge and other projects are examples of groundwater adaptation project for the future. 相似文献
967.
Myanmar is located in Southeast Asia within the Mekong River Basin. The estimated annual surface and groundwater potentials are 1 081 km3 and 494 km3, respectively. Based on geological conditions, 11 different types of aquifers have been classified in Myanmar. The recent alluvial formation, Irrawaddy formation, Upper Pegu Group and Plateau limestone formation are the major water-bearing geologic formations of the country. In Myanmar, 89% of the groundwater is used for agriculture, approximately 8% is used for domestic consumption, and 3% is used for industrial purposes. Climate change projections for Myanmar from 2001 to 2100 predict general increases in temperature, clear-sky days, rainfall variability and flooding risks and a greater occurrence and intensity of extreme weather events across the country. Additional technology and investments are required to achieve groundwater resource security in response to climate changes. In addition, methods of ensuring the sustainability of groundwater resources must be implemented via collaborations with other countries and international sources. 相似文献
968.
The national economy of Lao PDR is highly dependent on water resources. Consequently, the sustainable management of groundwater and successful adaptations to future climate change are major concerns. Climate projections for Lao PDR predict increased rainfall and hot weather, with more intense rainfall events and more frequent and severe droughts and floods. Under climate change, reductions in the amount and quality of groundwater are two critical problems. Reductions of the groundwater level will restrict the access of local people to groundwater resources, thereby posing a threat to food security and livelihoods. Lao PDR suffers from a limited number of human resources with the requisite skills to perform groundwater investigations and provide sustainable management. For the successful implementation of groundwater management plans, limitations associated with funding and technology should be resolved via support from the government and international cooperation. Advanced action plans for capacity building and training courses should be established to strengthen administrative and individual capacities. Technical measures, such as groundwater monitoring, aquifer characterizations, and water treatment systems, should be implemented to manage future climate change and water resource security. 相似文献
969.
Changes in the climatic system introduce uncertainties in the supply and management of water resources. The Intergovernmental Panel on Climate Change(IPCC) predicts an increase of 2 to 4 °C over the next 100 years. Temperature increases will impact the hydrologic cycle by directly increasing the evaporation of surface water sources. Consequently, changes in precipitation will indirectly impact the flux and storage of water in surface and subsurface reservoirs(i.e., lakes, soil moisture, groundwater, etc.). In addition, increases in temperature contribute to increases in the sea level, which may lead to sea water intrusions, water quality deterioration, potable water shortages, etc. Climate change has direct impacts on the surface water and the control of storage in rivers, lakes and reservoirs, which indirectly controls the groundwater recharge process. The main and direct impact of climate change on groundwater is changes in the volume and distribution of groundwater recharge. The impact of climate change on groundwater resources requires reliable forecasting of changes in the major climatic variables and accurate estimations of groundwater recharge. A number of Global Climate Models(GCMs) are available for understanding climate and projecting climate change.These GCMs can be downscaled to a basin scale, and when they are coupled with relevant hydrological models, the output of these coupled models can be used to quantify the groundwater recharge, which will facilitate the adoption of appropriate adaptation strategies under the impact of climate change. 相似文献
970.
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