腰坝绿洲地下水位动态特征及对植被变化影响

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。     

诱发滑坡的地下水流系统响应历史与趋势——以甘肃黑方台灌区为例

灌溉的地下水系统响应是黑方台地区灌溉诱发地质灾害研究的基础.黑方台台塬自上而下由黄土、砂砾石和基岩3个含水岩组构成.以对斜坡稳定性影响最大的黄土含水系统为研究对象,分析了灌溉前后水均衡变化,采用数值模拟的方法恢复了引水灌溉引起的地下水流系统演化过程,对不同灌溉量下地下水流系统发展趋势进行了预测.结果表明,黑方台地区长期大量引水灌溉打破了地下水均衡,改变了地下水系统的天然状态,使地下水的分布及其水流系统发生了很大变化,中心部位地下水位44年间上升了至少20m,减少灌溉量至350× 104m3/a地下水位将呈下降趋势.研究成果可为黑方台滑坡地质灾害综合治理提供科学依据.     

1985-2013年黑河中游流域地下水位动态变化特征

在气候变化和人类活动的影响下, 黑河流域地表水和地下水的时空分布特征发生了很大变化. 研究水系统演化及其驱动机制对流域水资源可持续管理非常关键. 基于甘肃河西黑河中游流域地下水位动态、水文气象、土地利用和灌溉统计数据, 研究了1985-2013年黑河中游流域地下水位时空变化. 结果表明: 地表水的不合理分配和耕地的扩展导致了地下水的过量开采和地下水位的剧烈变化. 1985-2004年区域地下水位以下降为主; 2005-2013年呈现下降和回升两极发展趋势, 冲洪积扇群带地下水最大下降达17.41 m, 而黑河干流沿岸地下水位最大回升了3.3 m, 地下水埋深普遍增加了1.0~3.0 m. 尽管地下水位在2005-2013年表现出回升趋势, 但干流中游盆地地下水系统处于严重负均衡状态, 制定合理的“生态分水”方案和水资源综合管理规划非常紧迫.     

新疆阿克苏地区地下水监测工作现状及水位动态特征分析

阿克苏地区位于新疆西部,天山南麓,塔里木盆地北缘,地下水动态监测系统不够完善,通过实施地下水监测站网建设项目,地下水监测站网布设日趋合理。监测站在阿克苏河、台兰河、渭干河、库车河等冲洪积平原区、乌什县河谷、拜成盆地、柯坪盆地和阿恰平原这几块地质单元上都有分布,可比较全面的反映阿克苏地区境内主要地下水开发利用区的埋深、水位变化特征。通过对阿克苏地区地下水监测工作进行探讨,重点对地下水监测站网建设和日常监测工作开展情况进行了分析。结合近几年该地区地下水位年度监测成果,对区域地下水位状况和年内地下水动态变化特征分析,大致可以看出区域内地下水总体呈下降趋势,冬季灌溉期结束后地下水潜水水位最高,3-4月份春灌开始后,地下水位总体下降,6、7月份受地表来水、灌溉等补给的影响,地下水又有一次集中上升的现象。研究结果为该区域地下水中长期开发利用与管理保护工作提供了理论依据。     

玛纳斯河流域莫索湾灌区地下水资源特征分析

玛纳斯河流域莫索湾灌区地处我国西北干旱地区。根据新疆玛纳斯河流域中下游莫索湾灌区1998~2007年共10年的地下水观测资料,分析地下水年内、年际变化情况,采用主成分分析、水量均衡法对灌区地下水动态变化规律及影响因素进行分析。结果表明:灌区地下水年际变化总体呈持续下降趋势,在人类活动与自然条件的共同作用下年内变化特征明显,地下水资源处于负均衡状态;分析主要影响因素与地下水埋深关系,得出莫索湾灌区地下水主要影响因素为灌溉用水量和蒸发量,各团场的地下水位变化驱动力不尽相同;研究莫索湾灌区地下水变化特征对区域水资源合理开发与保护具有重要指导意义。     

黑河干流拟建水利工程对下游生态环境的影响分析

依据典型年份实际调查资料和以往研究成果, 采用地下水均衡方法, 定量对比分析了黑河拟建水利工程对下游地区地下水资源变化趋势, 并利用Visual Modflow三维地下水非稳定流软件系统模型对下游盆地未来20 a(2008—2028年)地下水位及其生态环境变化趋势进行了预测.结果表明: 在拟建工程实施20 a后黑河下游地下水位总体上处于下降趋势, 但下降幅度呈逐年减少状态直至趋于新的动态平衡.金塔-鼎新盆地地下水位下降幅度最大的地段是黑河沿岸为0.51~0.87 m, 但由于人工农业绿洲补充, 故生态环境不会有大的改变.额济纳盆地地下水位下降幅度最大的地段是古日乃及外围, 分别为1.0 m以上和0.5~1.0 m, 将引起植被的衰亡和种群的更替变化; 大部分地段地下水位下降幅度介于0.0~0.50 m之间, 对现有的生态与环境影响不显著; 桃来三达-额济纳旗以北地下水位呈现上升趋势, 上升幅度为0.10~0.87 m, 东居延海一带上升幅度大于0.87 m, 这一地区植被长势趋于良好, 植被覆盖率会有所增加, 将形成围绕海子的天然绿洲.     

关中城市群开采地下水有关环境地质问题 及其防治对策建议

关中城市群地下水自集中开采以来区域地下水位呈整体下降趋势,主要城市集中供水水源地水位降幅30~50 m,最大超过120 m。长期过量开采地下水引起了地下水位持续下降、地面沉降、地裂缝以及水质污染等环境地质问题。近年随着城市群限制开采量,地下水水位下降及其相关环境地质问题在局部地段有所缓和。本文以50年地下水动态监测数据为基础,针对关中城市群地下水动态特征及相关的环境地质问题进行研究分析,并对预防和缓解环境地质问题、合理开发地下水资源提出建议。     

关中城市群开采地下水有关环境地质问题及其防治对策建议

关中城市群地下水自集中开采以来区域地下水位呈整体下降趋势,主要城市集中供水水源地水位降幅30~50 m,最大超过120 m。长期过量开采地下水引起了地下水位持续下降、地面沉降、地裂缝以及水质污染等环境地质问题。近年随着城市群限制开采量,地下水水位下降及其相关环境地质问题在局部地段有所缓和。本文以50年地下水动态监测数据为基础,针对关中城市群地下水动态特征及相关的环境地质问题进行研究分析,并对预防和缓解环境地质问题、合理开发地下水资源提出建议。     

张掖盆地地下水位上升成因探析

张掖盆地80年代中期以来,地下水位处于区域性持续下降过程。2001年9月以来,盆地中北部地下水位停止下降开始出现上升趋势,特别是2005年9月以来,张掖盆地地下水位突然大面积上升。分析认为,地下水位上升主要是补给量的增加所致,主要增加途径有两个：一是本世纪以来,受全球气候转暖的影响,祁连山中西部的冰川融水和降水量明显增加,使祁连山区各河流出山径流量亦相应的增加,而出山河流作为盆地内地下水的主要补给来源,它的增加则意味着盆地地下水补给量的增大;二是黑河河床过水时间增加,在流经盆地第四系粗颗粒相强导水的洪积扇地带,大量“线状”入渗,使地下水补给量增大,引发沿河地下水位上升,导致向黑河排泄的黑河以东地下水径流受阻。     

地下水应急开采对郑州市傍河水源地的影响

傍河水源地是郑州市重要的地下水供水水源.在出现极端干旱或极端事故(如水质污染)的条件下,傍河水源地将启动应急开采满足城市供水的需要.通过建立郑州市350m深度内松散岩类孔隙水地下水数值模拟模型,对黄河水位下降情况下的地下水应急开采方案进行了预测,分析了应急开采对黄河侧向补给的影响及傍河水源地地下水位的演变趋势.结果表明,应急开采方案下激发了黄河的侧向补给,一年的预测期末傍河水源地没有出现地下水位持续下降、降落漏斗进一步扩大的问题.     

Groundwater mining of bedrock aquifers in the Denver Basin – past,present, and future

The Denver Basin bedrock aquifer system is an important source of water for municipal and agricultural uses in the Denver and Colorado Springs metropolitan areas. The Denver area is one of the fastest growing areas in the United States with a population of 1.2 million in 1960 that has increased to over 2.4 million by 2000. This rapid population growth has produced a corresponding increase in demand for potable water. Historically, the Denver area has relied on surface water, however, in the past 10 years new housing and recreation developments have begun to rely on groundwater from the bedrock aquifers as the surface water is fully appropriated and in short supply.The Denver Basin bedrock aquifer system consists of Tertiary and Cretaceous age sedimentary rocks known as the Dawson, Denver, Arapahoe and Laramie-Fox Hills Aquifers. The number of bedrock wells has increased from 12,000 in 1985 to 33,700 in 2001 and the withdrawal of groundwater has caused water level declines of 76 m. Water level declines for the past 10 years have ranged from 3 to 12 m per year. The groundwater supplies were once thought to last 100 years but there is concern that the groundwater supplies may be essentially depleted in 10 to 15 years in areas on the west side of the basin.Extensive development of the aquifer system has occurred in the last 25 years especially near the center of the basin in Douglas and El Paso Counties where rapid urban growth continues and surface water is lacking. Groundwater is being mined from the aquifer system because the discharge by wells exceeds the rate of recharge. Concern is mounting that increased groundwater withdrawal will cause water level declines, increased costs to withdraw groundwater, reduced well yield, and reduced groundwater storage. As the long-term sustainability of the groundwater resource is in doubt, water managers believe that the life of the Denver Basin aquifers can be extended with artificial recharge, water reuse, restrictions on lawn watering, well permit restrictions and conservation measures.     

The research of groundwater flow model in Ejina Basin,Northwestern China

Water resources is a primary controlling factor for economical development and ecological environmental protection in the inland river basins of arid western China. Groundwater, as the important component of total water resources, plays a dominant role in the development of western China. In recent years, with the utilization ratio of surface water raised, the groundwater recharge rate has been reduced by surface water, and groundwater was exploited on a large-scale. This has led to the decline of groundwater levels and the degradation of eco-environments in the lower reaches of Heihe watershed, especially. Therefore, the study on the groundwater-level change in recent years, as well as simulating and predicting groundwater levels changes in the future is very significant to improve the ecological environment of the Heihe River Basin, coordinate the water contradiction, and allocate the water resources. The purpose of this study is to analyze the groundwater-level variations of the Ejina region basin on a large-scale, to develop and evaluate a conceptual groundwater model in Ejina Basin; according to the experimental observation data, to establish the groundwater flow model combining MODFLOW and GIS Software; simulated the regional hydrologic regime in recent 10 years and compared with various delivery scenarios from midstream; determined which one would be the best plan for maintaining and recovering the groundwater levels and increasing the area of Ejina Oasis. Finally, this paper discusses the possible vegetation changes of Ejina Basin in the future.     

黑河流域中游盆地地表水与地下水转化机制研究

地表水与地下水相互转化是中国西北干旱内流盆地水循环的显著特征,转化机制研究是盆地水循环规律认知和水资源可持续管理的重要基础。以我国西北干旱内流河黑河流域中游的张掖盆地和盐池盆地为研究区,建立了黑河主干河道时变水平衡模型和地表水地下水耦合数值模型,研究了长周期水文变化和人类活动双重影响下地表水与地下水转化机制,得到如下认识:（1）补给条件由以天然条件下河流渗漏为主的线状补给演变为以河流与引水渠道渗漏的线状补给和灌区田间入渗面状补给,排泄条件由以泉水溢出和天然湿地排泄演变为以泉水溢出与地下水开采为主的排泄。（2）张掖盆地黑河干流河道入渗段和溢出段大致以G312 大桥为界,亦称为地表水与地下水转化的转折点。莺落峡—G312 大桥段为悬河渗漏段,河道入渗补给主要受控于进入河道的实际过水量。其中,莺落峡—草滩庄段河道入渗补给率为28.20 %;草滩庄—G312 大桥段河道入渗补给量与河道过水量的关系可用分段函数表达,河道过水量大于或等于0.37×108 m3/mon时呈幂函数关系,小于则呈线性函数关系。G312 大桥—正义峡段为地下水溢出段,其中G312大桥—平川大桥段地下水溢出量约占全部溢出量的70%,溢出峰值出现在高崖水文站下游约6 km处,其单长溢出量可达0.46 m3/(s·km)。（3）研究区是一个相对完整的河流—含水层系统,近31年来经历了连枯和连丰的水文变化,地下水补给排泄条件及与地表水转化机制均发生了相应的变化。地表水与地下水转化最强烈的地区为张掖盆地中部的黑河—梨园河倾斜平原。1990—2001 年连枯期,灌区引水量总体逐年减少,以河道入渗和渠系渗漏为主的补给量平均以0.06×108 m3/a速率减少,农田灌溉面积增加导致灌溉用水增加,地下水开采量显著增加,地下水水位逐年下降,储存量累计减少5.77×108 m3,地下水溢出量平均减少0.16×108 m3/a;而2002—2020 年连丰期,灌区引水量总体逐年减少,河道入渗量呈增加趋势,地下水总补给量平均增加0.15×108 m3/a,灌溉面积继续扩大,农灌开采量随之增加,以河道入渗量增加为主导,地下水水位持续上升,储存量累计增加5.45×108 m3,地下水溢出量平均增加0.08×108 m3/a。总之,补给和排泄条件变化较大,地下水储存量先减后增,地下水溢出总量变化较为平缓,反映了该区巨厚含水层系统的巨大调蓄功能。（4）位于张掖盆地东部的诸河倾斜平原地下水水位长期处于持续下降状态,这是由于地表水开发过度,补给量锐减。黑河侵蚀堆积平原地下水水位基本稳定。30 多年来盐池盆地倾斜平原地下水水位长期处于持续下降状态,这是由于移民开垦导致地下水过量开采。（5）内流盆地天然悬河入渗段是珍贵的地下水补给通道,无论连枯期还是连丰期,河道实际过水量是河道渗漏补给量的关键,保护上游天然河道和一定的河道实际过水量是内流盆地水资源可持续管理的关键。     

Spatial and temporal constraints on regional-scale groundwater flow in the Pampa del Tamarugal Basin,Atacama Desert,Chile

Aquifers within the Pampa del Tamarugal Basin (Atacama Desert, northern Chile) are the sole source of water for the coastal city of Iquique and the economically important mining industry. Despite this, the regional groundwater system remains poorly understood. Although it is widely accepted that aquifer recharge originates as precipitation in the Altiplano and Andean Cordillera to the east, there remains debate on whether recharge is driven primarily by near-surface groundwater flow in response to periodic flood events or by basal groundwater flux through deep-seated basin fractures. In addressing this debate, the present study quantifies spatial and temporal variability in regional-scale groundwater flow paths at 20.5°S latitude by combining a two-dimensional model of groundwater and heat flow with field observations and δ¹⁸O isotope values in surface water and groundwater. Results suggest that both previously proposed aquifer recharge mechanisms are likely influencing aquifers within the Pampa del Tamarugal Basin; however, each mechanism is operating on different spatial and temporal scales. Storm-driven flood events in the Altiplano readily transmit groundwater to the eastern Pampa del Tamarugal Basin through near-surface groundwater flow on short time scales, e.g., 10⁰–10¹ years, but these effects are likely isolated to aquifers in the eastern third of the basin. In addition, this study illustrates a physical mechanism for groundwater originating in the eastern highlands to recharge aquifers and salars in the western Pampa del Tamarugal Basin over timescales of 10⁴–10⁵ years.     

黑河流域中游盆地水文地球化学演化规律研究

黑河是我国第二大内流河,研究其水化学演化规律,对于区域水资源科学利用与管理、保障饮水安全和下游生态安全都具有重要作用。本文利用2014—2018年在黑河流域开展1∶50 000水文地质调查所获取的资料,研究了黑河干流和丰乐河两个典型剖面的水化学和同位素变化规律。结果表明,黑河中游盆地地下水主要来源于祁连山区大气降水补给,黑河干流区地下水氘氧同位素比丰乐河流域更为富集,反映了氘氧同位素的高程效应。在丰乐河流域排泄区发现了非现代气候条件下形成的古水,说明现在的盐湖盆地早期就是地下水滞留区。山前戈壁带含水层经长期淋滤作用,地下水溶解性总固体(total dissolved solids,TDS)较低,水化学类型以重碳酸型为主。溢出带以北下游地区TDS逐步增高,地下水类型以硫酸型、硫酸-氯型为主,具有两种地下水化学背景和演化模式:一种是石膏溶解-碳酸盐沉淀析出-氯化物溶解-缓慢的硅酸盐非完全溶解和阳离子交换反应模式;另一种在此基础上增加硫酸钠溶解演化模式。流域补给区和径流区地下水TDS升高的主要原因是溶滤作用。丰乐河排泄区地下水TDS升高的主要原因仍是溶滤作用,溶滤盐分的来源是表层的盐分,以石盐为主。黑河干流排泄区由于含水层较薄,水位埋深较浅,蒸发对地下水咸化的影响更大。     

Hydrogeology of the Kabul Basin (Afghanistan), part II: groundwater geochemistry

Shallow groundwater is the main source for drinking water in Kabul, Afghanistan. It comes from a multitude of shallow hand-pumped wells spread over the whole city area. The groundwater is characterised by slightly oxic redox conditions. Interactions with aquifer carbonates lead to near-neutral pH and high degrees of hardness. The mostly negative water budget of the Kabul Basin is the result of strong evaporation which leads to an increase in salt and also of some undesirable constituents, e.g. borate. Several years of drought have aggravated this problem. The shallow groundwater in the city has received tremendous amounts of pollution due to a lack of proper waste disposal and sewage treatment. Common indicators are elevated concentrations of nutrients such as nitrate and faecal bacteria. The high infant mortality can at least partially be attributed to the insufficient water hygiene. Acid generated during the mineralisation of the wastewater is hidden due to the strong pH buffering capacity of the groundwater system. Redox and pH conditions preclude significant mobilisation of trace metals and metalloids.     

海原盆地地下水咸化特征和控制因素

地下水是海原盆地唯一的供水水源,近年来部分地区地下水溶解性总固体(TDS)增高,引起了有关部门和水文地质工作者的高度关注。通过分析69组地下水样品的水化学和氢氧稳定同位素数据,对地下水补给来源和咸化的水文地球化学过程进行了研究。结果表明:地下水TDS值198.2~6 436.4 mg/L,沿着地下水流向,咸化程度增加,水化学类型从基岩区的HCO3—Ca·Mg型演化至滞留—排泄区的SO4·Cl—Na·Mg型。地下水补给来源主要为大气降雨和基岩裂隙水侧向径流,补给源—对地下水咸化贡献较小。溶滤作用具空间差异,基岩区和补给区以碳酸盐、硅酸盐风化为主,径流区和滞留—排泄区则为蒸发岩风化,硫酸盐是地下水中阳离子的主要来源。补给水、溶滤和蒸发对第四系地下水TDS的贡献比率分别为4.8%~81.2%、11.9% ~85.9%、1.7%~29.5%,溶滤作用是控制海原盆地地下水咸化的首要因素。当地有关部门应加大对基岩泉水的综合利用,同时注意控制海原县和西安镇等地区地下水开采量,防止地下水进一步咸化。另外,在微咸水分布区可引进地下水去除硫酸盐技术,提高微咸水利用程度。     

Land-use change and its environmental impact in the Heihe River Basin, arid northwestern China

Rapid land-use change has taken place in many arid and semi-arid regions of China over the last decade as the result of demand for food for its growing population. The Heihe River Basin, a typical inland river basin of temperate arid zone in northwestern China, was investigated to assess land-use change dynamics by the combined use of satellite remote sensing and geographical information systems (GIS), and to explore the interaction between these changes and the environment. Images were classified into six land-use types: cropland, forestland, grassland, water, urban or built-up land, and barren land. The objectives were to assess and analyze landscape change of land use/cover in Heihe River Basin over 15 years from 1987 to 2002. The results show that (1) grassland and barren land increase greatly by 22.3, and 268.2 km², respectively, but water area decreased rapidly by 247.2 km² in the upper reaches of Heihe River Basin; (2) cropland and urban or built-up land increased greatly by 174.9, and 64.6 km², respectively, but grassland decreased rapidly by 210.3 km² in the middle reaches of Heihe River Basin; and (3) barren land increased largely by 397.4 km², but grassland degraded seriously and water area decreased obviously by 313.3, and 21.7 km², respectively in the lower reaches of Heihe River Basin. These results show that significant changes in land-use occur within the whole basin over the study period and cause severe environmental degradation, such as water environmental changes (including surface water runoff change, decline of groundwater table and degeneration of surface water and groundwater quality), land desertification and salinization, and vegetation degeneracy.     

Hydrochemical characteristics and salinity of groundwater in the Ejina Basin, Northwestern China

A hydrochemical investigation was conducted in the Ejina Basin to identify the hydrochemical characteristics and the salinity of groundwater. The results indicate that groundwater in the area is brackish and are significantly zonation in salinity and water types from the recharge area to the discharge area. The ionic ration plot and saturation index (SI) calculation suggest that the silicate rock weathering and evaporation deposition are the dominant processes that determine the major ionic composition in the study area. Most of the stable isotope δ¹⁸O and δD compositions in the groundwater is a meteoric water feature, indicating that the groundwater mainly sources from meteoric water and most groundwater undergoes a long history of evaporation. Based on radioactive isotope tritium (³H) analysis, the groundwater ages were approximately estimated in different aquifers. The groundwater age ranges from less than 5 years, between 5 years and 50 years, and more than 50 years. Within 1 km of the river water influence zone, the groundwater recharges from recent Heihe river water and the groundwater age is about less than 5 years in shallow aquifer. From 1 km to 10 km of the river water influence zone, the groundwater sources from the mixture waters and the groundwater age is between 5 years and 50 years in shallow aquifer. The groundwater age is more than 50 years in deep confined aquifer.     

昆明盆地浅层孔隙水水位动态变化特征及其影响因素

根据盆地内地下水水位动态曲线特征及其影响条件,将孔隙水年内变化动态划分为灌溉型、开采型和降雨型等三种类型。在时程演变上,近20年来,除少数开采井点水位下降外,区内大多数富水块段地下水位一般变化不大或略有回升。盆地西部、北部地下水水位表现出一种缓慢抬升的过程。而盆地东部边缘和南部呈贡附近地下水受开采影响,水位呈下降趋势。受城市化发展的影响,昆明盆地地下水普遍遭受污染,浅层地下水开采强度在降低,同时,农业用水量也在减少,在一定程度上对区内孔隙水水位抬升有很大影响。然而90年代以来,昆明地区进入一个相对丰水期,降雨量的增加是盆地内孔隙水水位整体抬升的根本原因。