The Mechanism of Groundwater Salinization and Its Control in the Yaoba Oasis, Inner Mongolia     

地质学报 《《地质学报》英文版》2000,74(2):18-369

The arid area is one of the most concerned areas among the water resources researchers and economists. Northwest China will be an important developing region of China in the 21st century. Yaoba is a well-irrigation oasis within this arid area, which is located in the Alxa area west of the Helan Mountains and next to the Tengger desert in the east. It has contributed greatly to the local stock raising and agriculture since its development in 1970. However, the groundwater which the oasis depends on to survive has been getting salinized gradually and more serious in recent years.A comprehensive study was carried out using the methods of groundwater environment isotope analysis, lithofaci-es and palaeogeography, calculations of water-rock interaction and the existing form of chemical components in groundwater etc. It has been found that the salinization of groundwater is mainly caused by reinfiltration water solving the salt in soil which is deposited simultaneously with the sediments and accumulated in th  相似文献   

Influence of artificial channels on the source and extent of saline water intrusion in the wind tide dominated wetlands of the southern Albemarle estuarine system (USA)   总被引：1，自引：1，他引：0  

Alex K. Manda  Angela S. Giuliano  Thomas R. Allen 《Environmental Earth Sciences》2014,71(10):4409-4419

Saline water intrusion is degrading water quality in the channelized coastal wetlands of the southern Albemarle estuarine system (AES). The source, transport and fate of the saline water in the southern AES was determined by monitoring specific conductivity and water levels in small artificial channels, the Alligator River, the Alligator–Pungo Canal and the groundwater system for ~12 months. Results indicate that water levels are affected by wind tides which trigger the movement of saline water into the interior of the wetlands via the small canals. The wind tides are mostly driven by episodic southerly winds pushing saline water into the canal network and the groundwater regime proximal to the Alligator River. The saline waters persist in the canals as long as the wind tide events last. Specific conductivities from canals and groundwater are shown to be unexpectedly higher closer to the source of the Alligator River than toward the Albemarle Sound, suggesting that the large Alligator–Pungo Canal facilitates the northward migration of saline water from the Pamlico Sound to the Alligator River. Overwash and reversals in the flow directions between groundwater and surface water bodies suggest that saline water that is present during wind tide events may migrate into the groundwater system from surface water bodies. The results of this study reveal that whereas the large Alligator–Pungo Canal channels saline water to the AES, small artificial channels may also play significant roles in degrading water quality in the interior of channelized coastal wetlands.  相似文献   

Potential pollution of groundwater in the valley of the Seybouse River,north-eastern Algeria     

L.?DjabriEmail author  A.?Hani  R.?Laouar  J.?Mania  J.?Mudry  A.?Louhi 《Environmental Geology》2003,44(6):738-744

In north-eastern Algeria, the Seybouse River is an important source of water used mainly for irrigation of large agricultural areas extending from the Guelma region to Annaba city. Industrial activities in this region contribute substantial water pollution to the river and the groundwater. Based on the different sources of pollution, mapping of areas vulnerable to groundwater pollution has been accomplished by combining land use and data on groundwater levels. The resulting maps show that the most vulnerable areas are those with large industrial activities—in Meboudja, Bouchegouf and Guelma. Infiltration and runoff contribute to pollution, and the highest infiltration rate is generally observed in areas of agricultural and industrial activities. Pollution of the aquifers in this area is of concern. Mountains, such as the Edough and Gelaat Bou Sbaa, contribute high runoff that carries pollutants towards the groundwater.  相似文献   

黑河下游额济纳绿洲退化规律及其控制因素   总被引：4，自引：1，他引：4  

龚斌  万力  胡伏生  金晓媚  梁四海 《水文地质工程地质》2006,33(1):58-61

本文针对黑河下游的额济纳绿洲，借助遥感方法利用气象卫星数据定量确定了绿洲的多年动态变化规律，通过地下水数值模拟得到地下水水位埋深分布，提出植被覆盖率的概念较好地描述了植被生长状况与地下水位埋深的定量关系，最终给出了能从宏观上研究干旱区绿洲和水资源定量关系的实用方法。  相似文献   

腰坝绿洲地下水位动态特征及对植被变化影响     

李燕  卢玉东  李鸿娟  王纪科  姜凌 《地下水》2012,(4):74-76

地下水资源是干旱半干旱地区绿洲主要的供水水源,随着绿洲发展规模的不断扩大,为了满足日益增长的供水需求,加大了对地下水资源的开采导致了地质环境生态问题。本文结合实地调查、访问与统测方法,收集相关资料,测定地下水位,分析地下水位动态年内与年际变化特征,认为腰坝绿洲地下水位动态变化主要受人工开采影响,总体趋势表现为持续下降,并在开采期局部地区形成地下水位降落漏斗,受地下水位动态变化影响,绿洲防护林及周边荒漠植被处于衰退阶段,出现退化或大面积死亡现象。  相似文献   

腾格里沙漠地区水化学特征   总被引：8，自引：2，他引：6  

刘振敏 《化工矿产地质》1998,20(1):41-48

水资源极为匮乏的腾格里沙漠区内所赋存的水主要有两种类型。一种是沙下潜水 ,主要是周边山区由高向低缓慢地向沙漠区运移所致 ,分布较为普遍 ;另一种是沙漠湖水 ,它是在沙漠区内之低洼地段 ,由于沙下潜水的长期溢出汇集于大小不等的长条状湖泊之中 ,以湖表水 (咸水和卤水 )的形式存在。沙下潜水矿化度在 0 .5～ 1 g/L之间 ,为本区的饮用水。湖表水咸苦 ,矿化度较高 ,就同一湖区而言 ,也有咸水和卤水之分 ,咸水矿化度为每升数十克 ,卤水则在 1 0 0～ 440 g/L之间 ,已达到了盐湖类沉积阶段  相似文献   

Comprehensive evaluation on the ecological function of groundwater in the Shiyang River watershed          下载免费PDF全文

Liu Min  Nie Zhen-long  Cao Le  Wang Li-fang  Lu Hui-xiong  Wang Zhe  Zhu Pu-cheng 《地下水科学与工程》2021,9(4):326-340

With an arid climate and shortage of water resources, the groundwater dependent ecosystems in the oasis–desert ecotone of the Shiyang River Watershed has been extremely damaged, and the water crisis in the oasis has become a major concern in the social and the scientific community. In this study, the degeneration characteristics of the groundwater ecological function was identified and comprehensive evaluated, based on groundwater depth data, vegetation quadrat and normalized difference vegetation index (NDVI) from Landsat program. The results showed that (1) the suitable groundwater depth for sustainable ecology in the Shiyang River Watershed is about 2-4 m; (2) the terms of degenerative, qualitative and disastrous stages of the groundwater ecological function are defined with the groundwater depths of about 5 m, 7 m and 10 m; (3) generally, the groundwater ecological function in the oasis-desert ecotone of the lower reaches of Shiyang River Watershed is weak with an area of 1 397.9 km² identified as the severe deterioration region, which accounted 74.7% of the total area. In the meantime, the percentages of the good, mild and moderate deterioration areas of groundwater ecological function are 3.5%, 5.5% and 16.3%, respectively, which were mainly distributed in the Qingtu lake area and the southeastern area of the Shoucheng town; (4) the degradation and shrinkage of natural oasis could be attributed to the dramatic groundwater decline, which is generally caused by irrational use of water and soil resources. This study could provide theoretical basis and scientific support for the decision-making in environmental management and ecological restoration of the Shiyang River Watershed.  相似文献   

Groundwater mixing and mineralization processes in a mountain–oasis–desert basin,northwest China: hydrogeochemistry and environmental tracer indicators     

Bin?Ma  Menggui?JinEmail author  Xing?Liang  Jing?Li 《Hydrogeology Journal》2018,26(1):233-250

Hydrogeochemistry and environmental tracers (²H, ¹⁸O, ⁸⁷Sr/⁸⁶Sr) in precipitation, river and reservoir water, and groundwater have been used to determine groundwater recharge sources, and to identify mixing characteristics and mineralization processes in the Manas River Basin (MRB), which is a typical mountain–oasis–desert ecosystem in arid northwest China. The oasis component is artificial (irrigation). Groundwater with enriched stable isotope content originates from local precipitation and surface-water leakage in the piedmont alluvial–oasis plain. Groundwater with more depleted isotopes in the north oasis plain and desert is recharged by lateral flow from the adjacent mountains, for which recharge is associated with high altitude and/or paleo-water infiltrating during a period of much colder climate. Little evaporation and isotope exchange between groundwater and rock and soil minerals occurred in the mountain, piedmont and oasis plain. Groundwater δ²H and δ¹⁸O values show more homogeneous values along the groundwater flow direction and with well depths, indicating inter-aquifer mixing processes. A regional contrast of groundwater allows the ⁸⁷Sr/⁸⁶Sr ratios and δ¹⁸O values to be useful in a combination with Cl, Na, Mg, Ca and Sr concentrations to distinguish the groundwater mixing characteristics. Two main processes are identified: groundwater lateral-flow mixing and river leakage in the piedmont alluvial–oasis plain, and vertical mixing in the north oasis plain and the desert. The ⁸⁷Sr/⁸⁶Sr ratios and selected ion ratios reveal that carbonate dissolution and mixing with silicate from the southern mountain area are primarily controlling the strontium isotope hydrogeochemistry.  相似文献   

河西走廊黑河鼎新至哨马营段河水与地下水转化途径分析   总被引：25，自引：6，他引：19  

仵彦卿  慕富强  贺益贤  蓝永超 《冰川冻土》2000,22(1):73-77

运用美国ＧＥＯＭＥＴＲＩＣＳ公司制造的ＳｔｒａｔａｇｅｃｍＥＨ４电导率成像系统。对黑河鼎新至哨马营河谷地带进行实地调查发现,此段存在一地堑式断层,为东西走向,古道沿此断层形成。河流在此段大部分沿古河道为地下水,自西向东流去,在东部板滩井一带（盐碱沼泽地）以垂向蒸发方式通过地表及植被排泄。古尔乃绿洲的形成与黑河河水通过断层转化成地下水有关。  相似文献   

陕北地区河川基流的时空演变规律     

Gu Lei  Zhang Hongbo  Chen Keyu  Yu Qijun 《地球科学进展》2015,30(7):802-811

The interaction between groundwater and surface water in northern Shaanxi is quite complicated and frequent under the influence of regional hydrogeological condition and human intervention. These performances bring serious challenges to regional water resources assessment and utilization. The river baseflow process at Gaojiabu Station in windy desert region, Gaoshiya and Caoping Station in loess region were taken as research objects, and their variation trends and change points in the river baseflow series were analyzed in this paper. In addition, to explore the cause of the baseflow change, this research compared their correlations with precipitations in the same area respectively from two aspects of flow variation and multi timescale characteristics. The results show that: ①groundwater recharges for river flow in windy desert region significantly exceed those in loess region; ②baseflows of all the rivers in the study area reducing significantly are mainly determined by human intervention such as the extensive pumping of groundwater; ③periodic changes of baseflow in each station response closely to precipitation change on meso-scale and small-scales; ④precipitation-runoff relationships in windy desert regions are much more complicated and unstable than loess region, which is mainly because of its more significant impact from groundwater storage and the lateral recharge change. Under the changing environment, the water cycle in windy desert regions would be in complexity and variability. Therefore, it is recommended that, groundwater changes need to be considered in regional water resources assessment.  相似文献   

黑河实验(HEIFE)能量平衡和水汽输送研究进展   总被引：7，自引：1，他引：7  

胡隐樵 《地球科学进展》1994,9(4):30-34

It is a review about advance of research on energy budget and transportation of water vapour in the HEIFE area. A basic model, the cold island in oasis and the inverse humidity phenomenon in desert, about interaction of oasis with desert environment is established. The major disturbance of the oasis to observation in the desert is the latent heat flux that is an ignored value in the energy budget on ground surface in the desert. Consequently, it is representative of the arid region to have measured energy budget at the gobi station and desert station in the HEIFE area.  相似文献   

Isotopic behavior and self-organizing maps for identifying groundwater salinization processes in Jerba Island,Tunisia     

Souid  F.  Telahigue  F.  Agoubi  B.  Kharroubi  A. 《Environmental Earth Sciences》2020,79(8):1-22

Environmental Earth Sciences - Chott Ain Beida is an inland sabkha located in southern Algeria. Close to Ouargla city, it is surrounded by an exploited palm groove. In this study, modern climate of...  相似文献   

Contribution of multivariate statistical techniques in the hydrochemical evaluation of groundwater from the Ouargla phreatic aquifer in Algeria     

Ahcène Semar  Hakim Saibi  Abderrahmane Medjerab 《Arabian Journal of Geosciences》2013,6(9):3427-3436

A hydrochemical evaluation of the hydrogeological surface aquifer of Ouargla was conducted using 17 samples of water. The analysis of the samples focused on the determination of calcium, magnesium, sodium, potassium, chloride, sulfate, bicarbonate, and nitrate, while electrical conductivity, temperature, and pH were measured on the ground. The obtained data are processed by multivariate techniques with a varimax rotation approach after standardization. The chemical data follow four factorial axes that provide a cumulative total variance explained by 67 %. Considering the EC as an additional variable, the matrix components after varimax rotation have identified a first axis related to NaCl, a second axis associated with CaSO₄, a third axis of HCO₃ and a fourth axis of NO₃. These variables control a significant part of the chemistry of the groundwater in the region of Ouargla.  相似文献   

Groundwater–wetlands interaction in coastal lagoon of Almería (SE Spain)     

Francisco Sánchez-Martos  Luis Molina-Sánchez  Juan Gisbert-Gallego 《Environmental Earth Sciences》2014,71(1):67-76

Water resources management in coastal wetlands requires the degree of interdependence between groundwater and terrestrial ecosystems to be known. This is especially so in semiarid areas where surface inflows are restricted, marine influence is marked and the evaporation rate is high. Thus, chemistry of surface waters is very variable in the Cerrillos-Punta Entinas wetlands system. Using classical hydrogeochemical tools, the main processes that favor a diversity of water types were described, related to: presence of salt deposits on the lagoon beds, marine origin of the water, and local influence of groundwater. All these factors make it difficult to establish what reference conditions should be used to define “good” water quality of the surface waters—as required by the Water framework directive—and to understand the influence of groundwater on these coastal wetlands. Knowledge about the influence of the different interaction of these factors on the hydrogeochemical dynamics is required for the sustainable management of this protected natural site.  相似文献   

黑河分水计划对临泽绿洲种植业结构调整及生态稳定发展的影响——以黑河中游的临泽县平川灌区为例   总被引：8，自引：2，他引：6  

李启森  赵文智 《冰川冻土》2004,26(3):333-343

黑河分水计划及用水商品化的实施,对绿洲种植业结构调整、节水降耗和退耕,有着较大的积极作用.但也相应出现了一些不可忽视的问题,如在调水方式及适宜时段的合理选择、供需水之间矛盾的有效处置以及流域水资源合理高效利用模式的建立等方面还有待进一步研究.特别是在水资源短缺和市场经济的双重作用下,过度开采地下水以及追逐短期利益行为有所加重,进而导致地下水位波动性变化幅度加大和低效的公益性生态建设与发展受到较大的制约,尤其是荒漠绿洲交错地带的生态环境及生产条件在分水后显现诸多不适宜或退化迹象,并有恶化发展的趋势.  相似文献   

Multivariate statistical analysis of the groundwater flow in shallow aquifers: a case of the basins of northern Algeria     

Noureddıne Guezgouz  Djamel Boutoutaou  Houarı Zeggane  Azzedıne Chefrour 《Arabian Journal of Geosciences》2017,10(15):336

Water resources in Algeria are mainly controlled by climate change which creates enormous problems in its planning, management and distribution. While the surface water resources are perfectly managed and operated by means of dams and small dams built for several years, the groundwater resources remain long unknown and unusable because of the lack of relevant working tools (e.g., methods, formulas, maps, etc.) for planners and engineers working in the field of water resources exploration. To highlight the hydrodynamic processes of groundwater in shallow aquifers of the basins of northern Algeria, we conducted a study using 81 subwatersheds collected from different locations at the basins; taking into account the climatic and geomorphological factors, to understand water usage trends, analyse patterns, tap good shallow aquifers and ensure long lasting supplies of water through arid periods, mapping and modelling of groundwater are fundamental to problem resolution. Multivariate statistical techniques as well as cluster and principal component analysis were applied to the data on groundwater flow, with the objective of defining the main controls on the groundwater flows at the basins. These statistical techniques showed the presence of three groundwater flow groups with increasing importance according to precipitation. The first group was mainly influenced by climatic factors, the second was more controlled by the communication between the surface and underground flows and the third group revealed the influence of geomorphological factors on groundwater flows.  相似文献   

Groundwater-wetland ecosystem interaction in the semiarid glaciated plains of North America   总被引：2，自引：2，他引：0  

Garth van der Kamp  Masaki Hayashi 《Hydrogeology Journal》2009,17(1):203-214

The prairie wetlands of northern USA and Canada exist in numerous topographical depressions within the glaciated landscape. The wetlands are disconnected from each other most of the time with respect to surface-water drainage. The wetland water balance is controlled by snowmelt runoff and snowdrift from the surrounding uplands, precipitation, evapotranspiration, groundwater exchange, and occasional “fill-spill” connections to other wetlands. Salinity of water and the seasonal variability of water level in these wetlands have a strong influence on the ecosystem. Clay-rich glacial tills, covering much of the region, have very low (0.001–0.01 m/yr) hydraulic conductivity, except for the top several meters where the factures and macropores increase conductivity up to 1,000 m/yr. Transpiration in the wetland margin induces infiltration and lateral flow of shallow groundwater from wetland ponds through the high-conductivity zone, which strongly affects the water balance of wetlands. In contrast, groundwater flow in the deeper low-conductivity till has minor effects on water balance, but has a strong influence on salinity because the flow direction determines if the salts accumulate in wetlands (upward flow) or are leached out (downward flow) under wetlands. Understanding of the roles of shallow and deep groundwater systems will improve the hydrological conceptual framework for the management of wetland ecosystems.  相似文献   

Deuterium composition and flow path analysis as additional calibration targets to calibrate groundwater flow simulation in a coastal wetlands system   总被引：1，自引：0，他引：1  

D. A. Reynolds  S. Marimuthu 《Hydrogeology Journal》2007,15(3):515-535

A conceptual model of the Lake Warden coastal wetlands system, Western Australia, was developed using hydraulic, chemical and stable isotopic data, and formed the basis for a groundwater flow model using the finite element numerical code (FEFLOW). The system to be modeled is complex. The surface water and groundwater within the wetlands system show varying salinity and isotopic composition over short distances and time frames. As a first step, the flow model was calibrated to observed groundwater levels measured since 2001 for both steady state and transient stresses. Particle tracking analysis was conducted to test the source areas of water discharging to the lakes within the wetlands system. The analysis was able to delineate the connectivity between the lakes in the wetland and the flow path. Enrichment of isotopic concentration is evident along a NE–SW transect and the data set provides a means for calibrating a detailed transport model. The study incorporates the varying deuterium composition of the water bodies directly into a transport model and a good match between observed and simulated temporal variations along the transect indicates that the model closely simulated the dynamics of water exchange between the lakes and groundwater within the system.  相似文献   

Soil salinization and critical shallow groundwater depth under saline irrigation condition in a Saharan irrigated land     

Zied Haj-Amor  Hossein Hashemi  Salem Bouri 《Arabian Journal of Geosciences》2017,10(14):301

In the arid irrigated lands, understanding the impact of shallow groundwater fluctuation on soil salinization has become crucial. Thus, investigation of the possible options for maintaining the groundwater depth for improving land productivity is of great importance. In this study, under saline irrigation condition, the effects of shallow groundwater depth on water and salt dynamics in the root-zone of date palms were analyzed through a particular field and modeling (SWAP) investigation in a Tunisian Saharan oasis (Dergine Oasis). The model was calibrated and validated against the measured soil water content through the date palm root-zone. The good agreement between measured and estimated soil water content demonstrated that the SWAP model is an effective tool to accurately simulate the water and salt dynamics in the root-zone of date palm. Multiple groundwater depth scenarios were performed, using the calibrated SWAP model, to achieve the optimal groundwater depth. The simulation results revealed that the shallow groundwater with a depth of ~80 cm coupled with frequent irrigation (20 days interval) during the summer season is the best practice to maintain the adequate soil water content (>0.035 (cm³ cm^?3) and safe salinity level (<4 dS m^?1) in the root-zone layer. The results of field investigation and numerical simulation in the present study can lead to a better management of lands with shallow water table in the Saharan irrigated areas.  相似文献   

Delimiting a saline water zone in Quaternary fluvial–alluvial deposits using transient electromagnetic: a case study in Punata,Bolivia     

Andres Gonzales Amaya  Joakim Mårdh  Torleif Dahlin 《Environmental Earth Sciences》2018,77(2):46

The semiarid Punata alluvial fan is located in the central part of Bolivia. The main activity of this region is the extensive agriculture, and groundwater is the main water supply. Local villagers who use groundwater reported that in some places groundwater has a salty taste. In order to investigate the origin of this problem, several TEM soundings were performed in the study area, and they were complemented with ERT surveys. The results show top layers with resistivity values ranging from 30 to 200 Ωm and a bottom layer with resistivity values ranging from 1 to 20 Ωm, which might be interpreted as the main aquifer and a layer with high clay content, respectively. Between the top and bottom layer, a transition zone with saline water has been identified, with resistivity values ranging from 0.1 to 1 Ωm. The origin of this closed-basin brine might be a product of the evaporation of paleolakes during the lower Pliocene, where saline clays were deposited. This study demonstrated the effectiveness of TEM sounding for mapping very low resistivity zones such as saline water.  相似文献