哈密盆地地下水系统水化学特征及形成演化

哈密盆地地下水系统形成受构造运动与水文地质条件共同控制,通过划分哈密盆地地下水系统,分区阐述哈密盆地地下水水文地球化学特征与水化学成因及控制因素,从水文地球化学的角度阐明盆地系统的地下水水化学演化规律。结果表明,哈密盆地地下水水化学特征呈明显分带性,沿地下水流动方向,水化学类型逐渐由HCO₃型演化为SO₄型、最终演化为Cl型;水体TDS含量不断升高,地下水由淡水逐渐演化为微咸水、咸水。地下水离子来源主要为硅酸盐岩与蒸发岩盐溶解,水化学过程受蒸发浓缩作用控制,岩石风化作用与季节变化共同影响。沿地下水径流方向,地下水经盐分溶滤、盐分迁移并在排泄区附近形成盐分聚集带;盐分迁移沿程溶滤作用逐渐减弱,蒸发浓缩作用逐渐增强。哈密盆地地下水化学空间演化主要受自然因素影响驱动,时间演化驱动因素主要为气候变化和工矿活动农业灌溉等人类活动。     

新疆塔里木河下游柽柳、芦苇对生态输水的响应

通过对塔里木河下游生态输水过程中地下水埋深变化的动态监测和天然植物生理指标的测试分析, 探讨了塔里木河下游柽柳、芦苇对生态输水的响应. 研究表明, 塔里木河下游河道输水对抬升其附近的地下水位起到了明显效果, 地下水埋深呈逐级抬升过程. 输水河道附近的地下水埋深由输水前的5～8 m抬升到了2～4 m; 植物各项生理指标对地下水位变化反应敏感, 表现出明显的梯度变化. 不同植物生长由于对地下水位要求深度不一样, 随地下水位变化而表现出不同的响应, 芦苇的反应敏感区约在150～200 m之间, 而柽柳则多在200～250 m之间. 结合野外样地的实际调查分析推测, 芦苇和柽柳的胁迫地下水位分别为3.5 m和4.0 m.     

塔里木河下游生态输水后地下水变化规律研究

为准确反映塔里木河下游生态输水工程后地下水的动态变化,实现为本地区开展大规模的生态恢复和重建工作提供科学依据,在塔里木河下游沿321km河道上布设了9个监测断面和39口监测井,采用电导法定期监测地下水位近3年。结果显示:输水后地下水位在河道纵向、横向上有各自的变化规律,说明生态输水的效益是逐步显现的。因此,对本地区生态输水的综合评价应该放在几年以后再开展。同时,通过对生态输水后地下水位变化的分析,提出了调整输水规模和方式的建议。     

塔里木河下游生态输水及植被恢复遥感监测评价

在干旱区内陆河流域,由于水资源过度开发利用,生态环境退化已成为普遍现象.向断流的河道和生态退化区域实施生态输水,是河流生态系统恢复的基本行为和必然过程.基于向塔里木河下游7次生态输水过程中地表水、地下水、植被恢复等系统监测,并运用卫星遥感技术,对生态输水后植被恢复响应特征指标NDVI(植被指数),进行了系统研究分析,并提出植被相对恢复度的评价方法.     

塔里木河下游河道疏浚段水文地质和工程地质特征研究

塔里木河下游河道长期断流,生态环境恶化,必须实施河道疏浚工程,从根本上改善塔里木河下游的生态环境.掌握塔里木河下游河道的水文地质和工程地质特征是实施河道疏浚工程的关键,是沿线生态闸堰设置及两岸提防工程修建的基础.通过区域地质特性、水文地质条件、工程地质特征几个方面的研究,得出河道疏浚段的地层岩性、地下水类型、地下水化学类型等特征,为河道疏浚工程奠定了基础.     

黑河下游土壤和地下水盐分特征分析

根据405个土壤样品和101个水样,分析了黑河下游土壤盐分分布规律以及与地形地貌部位、地下水水化学的关系.结果表明:额济纳三角洲地区的土壤具有质地粗、含盐量高、盐分表聚性强的特征,该地区呈现盐碱化和沙漠化严重、可利用土地资源骤减、生态环境恶化的状况.在所有剖面上盐分的分布呈现漏斗型分布,土壤中盐分随地形变化较为复杂,但与地下水化学变化相一致.地下水矿化度普遍比较高,大多数地区的矿化度在800~3000 mg·L^-1之间变化;水化学类型主要有HCO₃·SO₄-Na、Cl·SO₄-Na(Ca)、HCO₃·Cl-Na(Ca)SO₄·Cl-Na和SO₄·Cl-Na(Ca-Mg).地下水矿化度的高低与补给源的距离远近密切相关,在河岸附近的矿化度变化幅度较小;在远离河道地区,随离岸距离的增减而升降,体现了矿化度的高低主要依赖于上游补给水量变化.     

保定平原区地下水化学特征及演化

为揭示保定平原地下水水化学特征及演化规律,本文以保定平原为研究对象,对216组地下水样水化学特征进行了分析。综合运用Piper三线图、Gibbs图、相关离子分析等方法,研究了保定平原区深浅层地下水化学组成及水化学类型空间分布特征,识别了水化学形成机制与控制作用,在此基础上分析了水化学演化的成因。结果表明：沿地下水径流方向,浅层地下水与深层地下水主要离子含量呈现明显的递变规律,TDS、Na+、Mg2+、Cl-、SO2-4、HCO-3含量逐渐升高,K+、Ca2+逐渐降低,地下水优势阳离子Ca2+主导地位逐渐被Na+代替,优势阴离子HCO-3主导地位逐渐向Cl-过渡。地下水化学特征主要受水岩作用、阳离子交替吸附作用以及人类活动共同影响,水岩作用以碳酸盐岩和铝硅酸盐岩共同溶滤作用为主;浅层地下水受人类活动影响较大,影响离子主要为NO-3,集中分布于补给区,除了与农业活动相关外,主要与山前平原岩性颗粒粗,具有较强的渗透性有关。     

保定平原区地下水化学特征及演化

为揭示保定平原地下水水化学特征及演化规律,本文以保定平原为研究对象,对216组地下水样水化学特征进行了分析。综合运用Piper三线图、Gibbs图、相关离子分析等方法,研究了保定平原区深浅层地下水化学组成及水化学类型空间分布特征,识别了水化学形成机制与控制作用,在此基础上分析了水化学演化的成因。结果表明：沿地下水径流方向,浅层地下水与深层地下水主要离子含量呈现明显的递变规律,TDS、Na+、Mg2+、Cl-、SO2-4、HCO-3含量逐渐升高,K+、Ca2+逐渐降低,地下水优势阳离子Ca2+主导地位逐渐被Na+代替,优势阴离子HCO-3主导地位逐渐向Cl-过渡。地下水化学特征主要受水岩作用、阳离子交替吸附作用以及人类活动共同影响,水岩作用以碳酸盐岩和铝硅酸盐岩共同溶滤作用为主;浅层地下水受人类活动影响较大,影响离子主要为NO-3,集中分布于补给区,除了与农业活动相关外,主要与山前平原岩性颗粒粗,具有较强的渗透性有关。     

德阳市城市规划区地下水化学特征分析

根据39个丰水期地下水的水化学分析结果,对德阳市城市规划区内地下水水化学特征及空间分布进行了研究。研究表明:(1)沿地下水渗流途径,TDS以及Mg2+、Na+、SO42-浓度呈上升趋势;而Ca2+浓度却呈下降趋势。(2)地下水化学类型具有较明显的分带性,在渗流途径的上游,水化学类型以HCO3-Ca型水和HCO3-Ca+Mg型水为主;在径流途径的下游或排泄区域,水化学类型以HCO3+SO4-Ca+Mg型水和HCO3+SO4-Na+Ca型水为主。(3)区内铁锰污染比较明显,部分地区总铁和锰的含量达到Ⅳ类地下水标准,铁锰超标主要是受原生地质环境的影响;总硬度超标明显,39件水样中12件达到Ⅳ类地下水标准。     

内蒙古程家营盆地地下水水文地球化学特征及其成因

通过水文地质调查、水样采集,结合地下水流动系统、吉布斯图、Piper三线图,对程家营盆地地下水水化学特征进行研究;结果表明,该区地下水呈弱碱性,水质较好,TDS、COD浓度较低,水化学类型为HCO_3-Ca;F~-、Mg~(2+)主要受物质来源和山泉水影响;受水-岩相互作用影响,地下水Na~+、Cl~-、HCO_3~-沿地下水径流方向逐渐升高;SO_4~(2-)、K~+表现出沿地下水径流方向逐渐降低趋势;河流沿岸阶地区域地下水径流速度慢、水位埋深浅,受蒸发浓缩作用影响较强形成高TDS地下水;Ca~(2+)离子随受水温和SO_4~(2-)离子浓度升高而降低。程家营盆地地下水水化学特征研究成果,对该区地下水资源的管理、保护以及可持续开发具有重要意义。     

Response of groundwater chemistry to water deliveries in the lower reaches of Tarim River,Northwest China

In this paper, we analysed the monitored data from nine groundwater-monitoring transects in the lower reaches of Tarim River during the five times of stream water deliveries to the river transect where the stream flow ceased. The results showed that the groundwater depth in the lower reaches of Tarim River rose from −9.30 m before the conveyances to −8.17 and −6.50 m after the first and second conveyances, −5.81 and −6.00 m after the third and fourth the conveyance, and −4.73 m after the fifth. The horizontal extent of groundwater recharge was gradually enlarged along both sides of the channel of conveyance, i.e., from 250 m in width after the first conveyance to 1,050 m away from the channel after the fourth delivery. With the rising groundwater level, the concentrations of major anions Cl⁻, SO₄²⁻ and cations Ca²⁺, Mg²⁺, Na⁺, as well as total dissolved solids (TDS) in groundwater underwent a significant change. The spatial variations in groundwater chemistry indicated that the groundwater chemistry at the transect near Daxihaizi Reservoir changed earlier than that farther from it. In the same transect, the chemical variations were earlier in the monitoring well close to watercourse than that farther away from the stream. In general, the concentration of the major ions and TDS at each monitoring well increased remarkably when the water delivery started, and decreased with the continued water delivery, and then increased once again at the end of the study period. Hence, the whole study period may be divided into three stages: the initial stage, the intermediate stage and the later stage. According to the three stages of groundwater chemistry reaction to water delivery and the relationships between groundwater chemical properties and groundwater depths, we educe that under the situation of water delivery, the optimum groundwater depth in the lower reaches of the Tarim River should be −5 m.     

Occurrence of soluble salts and moisture in the unsaturated zone and groundwater hydrochemistry along the middle and lower reaches of the Heihe River in northwest China

Deforestation, over-development of water resources and population growth have contributed to degeneration of vegetation in the Heihe River Basin in northwest China. Salts and water contents are the most important factors affecting the growth of vegetation in this arid area. This study was conducted to determine soluble salt levels of soils in the unsaturated zone and the hydrochemistry of groundwater at 14 sites in this region. Concentrations of soluble ions in the soils deceased with depth. Soil ion contents increased at depths below the root system of native plants. Sulfate was the dominant anion in both the unsaturated zone and the groundwater. Total dissolved solids (TDS) in groundwater ranged from less than 1 g/L in the middle reaches of the watershed to about 10 g/L in the arid lower reaches. In the middle and upper reaches of the watershed, salinity in soil and groundwater decreased. Groundwater was highly variable in hydrochemistry. The lower reaches was predominated by SO₄–Na•Mg and SO₄–Mg•Na type water, whereas in the middle reaches groundwater is characterized by lower TDS and HCO₃-dominated type water. Evapotranspiration is responsible for occurrence of the soluble salts in the soil profiles. Dissolution is the dominant chemical process in the middle reaches, whereas evapotranspiration prevails in the lower reaches of the Heihe River.     

The influence of 10 years of water conveyances on groundwater and juvenile Populus euphratica of the lower Tarim River

The changes in the depth of groundwater were studied from the period before water conveyance through 2010, and the TDS of groundwater was analyzed in the lower reaches of the Tarim River during the period 2001–2010. Besides, the numbers of juvenile P. euphratica were investigated in the lower reaches of the Tarim River during the period 2001–2010. The findings indicate that: (1) the hydrological environment of the lower reaches has slowly deteriorated again; and (2) few juvenile P. euphratica were observed along the channel. These results show that the positive influence of the ecological water conveyance project on the ecosystem of the lower Tarim River should be beneficial in the long term; however, the long-term stability of the ecosystem cannot be achieved by the current water diversion scheme.     

黄河水质地球化学

在对1958—2000年期间黄河水系100个站点水质监测资料进行统计分析的基础上,研究了黄河主要离子的地球化学。结果表明,黄河流域各区河水总溶解性固体(TDS)含量的差异达2~3个数量级,TDS的总平均值为452mg/L,是全球河流均值的4倍。Na+、K+、SO42-和Cl-的含量是世界河流均值的10~20倍。相比之下,河水TDS含量的季节差异却不大,远不及与此呈反比关系的流量的季节差异。黄河洪水期的水量通常是枯水期的4~5倍,但枯水期河水的TDS通常只是洪水期的2倍,完全不同于世界其他大河。黄河的离子化学主要受沉积岩(尤其是富含碳酸盐矿物的黄土)化学风化作用和在干旱气候影响下水中溶解盐的蒸发浓缩和结晶作用的控制。近半个世纪来黄河河道径流量有显著减少的趋势,这与新修建的众多水库的蓄水有关,与此相适应,近半个世纪来黄河水质表现出明显的盐渍化过程,这一过程主要由含盐量高的农田灌溉回水所引起。     

Factors controlling mechanisms of groundwater salinization and hydrogeochemical processes in the Quaternary aquifer of the Eastern Nile Delta, Egypt

In this study, combining interpretations of conservative dissolved ions and environmental isotopes in water were used to investigate the main factors and mechanisms controlling groundwater salinization and hydrogeochemical processes in the Eastern Nile Delta, Egypt. Hydrogeochemical and isotopic study has been carried out for 61 water samples from the study area. Total dissolved solid (TDS) contents of groundwater are highly variable rising along flowpath from the south (410 mg/L) to the north (14,784 mg/L), implying significant deterioration and salinization of groundwater. Based on TDS and ionic ratios, groundwater samples were classified into three groups. In low-saline groups, water chemistry is greatly influenced by cation exchange, mineral dissolution/precipitation, anthropogenic pollutants and mixing with surface water. Whilst, in high-saline groups, water chemistry is affected by salt-water intrusion, reverse cation exchange and evaporation. The chemical constituents originating from saline water sources, reverse ion exchange and mineral dissolution are successfully differentiated using ionic delta and saturation index approaches. The δ¹⁸O–δ²H relationship plots on a typical evaporation line, suggesting potential evaporation of the recharging water prior to infiltration. Isotope evidence concludes that the groundwater have been considerably formed by mixing between depleted meteoric water recharged under different climatic conditions and recently infiltrating enriched surface water and excess of irrigation water. The δ¹⁸O data in conjunction with chloride concentrations provide firm evidence for impact of dissolution of marine-origin evaporite deposits, during past geologic periods, on groundwater salinity in the northern region. Moreover, the relation between ¹⁴C activities and Cl^? concentration confirms this hypothesis.     

黄河三角洲浅层地下水盐分来源及咸化过程研究

黄河三角洲地下水咸化已成为区域最突出的生态环境问题之一。识别地下水补给及盐分来源是有效控制和改善地下水咸化问题的关键。本研究采集了研究区浅层地下水、地表水和海水等不同类型水样,利用离子比、Piper三线图、吉布斯图等方法对八大离子浓度、δD和δ¹⁸O 组成、Br和Sr 浓度等进行地下水补给研究与盐分来源辨析。结果表明:(1)黄河三角洲浅层地下水以总溶解性固体(TDS)为338 g/L的咸水为主,地下水水化学类型较为单一,主要为Cl-Na型。(2)三角洲区域地下水以大气降水补给为主,并且在补给过程中经历了不同程度的蒸发作用的影响,黄河现行流路区域地下水主要来源于河水侧渗补给,但浅层地下水含水层水平渗透性较差限制了黄河侧渗补给范围。(3)海洋是黄河三角洲浅层地下水盐分的主要来源,黄河现行流路区域及近岸地下水盐分来源于海水混合,三角洲北部刁口河等古河道区域地下水盐分主要来源于海相蒸发盐淋滤溶解。     

干旱区高盐度潜水蒸发规律初步分析

为分析干旱区高盐度潜水蒸发规律,于2012年4月1日~2014年3月31日在新疆昌吉地下水均衡试验站开展了不同总溶解固体 (0.8 g/L、30 g/L和100 g/L)、不同包气带岩性(细砂和粉质黏土)和不同潜水埋深(0 m、0.5 m、1.0 m、2.0 m和3.0 m)潜水蒸发量的监测工作。结果表明:当潜水埋深大于0.5 m时,包气带岩性对高总溶解固体(Total Dissolved Solids, TDS)潜水蒸发量的影响与淡水基本一致;潜水埋深0.5 m、TDS为30 g/L时,包气带岩性的差异对潜水蒸发量的影响远小于由于潜水的TDS和外界大气蒸发能力对潜水蒸发共同造成的影响;潜水位埋深为0 m、TDS为100 g/L、包气带为粉质黏土时,年内潜水蒸发趋势与大气蒸发能力E_Φ20的趋势相反;潜水埋深0.5~1.0 m时,在非冻结期随着TDS的升高,潜水蒸发量逐渐减小;当潜水埋深为3.0 m时,TDS的变化对潜水蒸发抑制作用存在滞后性。     

Impact of flash flood recharge on groundwater quality and its suitability in the Wadi Baysh Basin,Western Saudi Arabia: an integrated approach

An integrated approach was used to evaluate the impact of flash flood recharge on groundwater quality and its suitability for drinking, irrigation, livestock and poultry uses in the Wadi Baysh Basin, Western Saudi Arabia. Analyses of 182 groundwater samples, collected from the study area before and after a flash flood (FF) event, show that the average concentrations of TDS, Mg, Na, Cl, NO₃ and EC decreased significantly after the event. The major water types (mixed CaMgCl, NaCl and CaCl) indicate that the infiltration of surface water from FF recharge has a great influence on groundwater chemistry. Drinking water suitability maps, created using WHO standards, indicate that wells located in the upstream region are suitable for drinking despite their high TDS and total hardness (TH) values. Groundwater in the coastal region is unsuitable due to its high salinity, high TH and high concentrations of major ions. The suitability of groundwater for irrigational use was assessed using salinity, sodium adsorption ratio, bicarbonate hazard, residual sodium carbonate, Kelly’s ratio, magnesium hazard, sodium percentage and permeability index values, which indicated that groundwater in the study region is suitable for most soils and crops. After FF, groundwater quality is improved by dilution, especially in the downstream region. USSL classification shows that the majority of the water samples are in the C3S1, C4S2, and C3S2 classes and are therefore suitable for the irrigation of salt-tolerant crops. Irrigational suitability maps suggest that wells in the upstream region are suitable for irrigation, whereas wells located near to the coast are unfit for irrigation. This study implies that construction of check dams in the dry valleys (wadies) may improve the groundwater quality in the area.     

Impacts of environmental flow controls on the water table and groundwater chemistry in the Ejina Delta,northwestern China

The impacts of environmental flow controls on the water table and chemistry of groundwater in the Ejina Delta, an arid inland river basin in northwest China, were investigated with field observations in 2001 and 2009. The results indicate that the shallow groundwater level rose by 0–2 m in the upper reaches of the east tributary of the Heihe River and in the areas of Saihantaolai—Dalaikubu during the period of environmental flow controls. The chemical constituents of the groundwater show a distinct spatial heterogeneity with the total dissolved solids (TDS) in the groundwater increasing from the periphery towards the depocenter of the Ejina Basin. In addition, the rate of groundwater cycling in the south of the Ejina Delta increased, and the mineralization of groundwater declined, while the overall mineralization and salinity increased in the northern regions, especially in the depocenter of the Ejina Basin. Since shallow groundwater is important to the ecology of arid regions, and because understanding the changes in the shallow groundwater environment (groundwater level and hydrochemistry) in response to environmental flow controls is essential for the sustainable improvement of the ecological environment, the results of this paper can be used as a reference for watershed water resources planning and management to help maintain the health and proper function of rivers in arid regions.     

Desert riparian forest colonization in the lower reaches of Tarim River based on remote sensing analysis

The ecological water conveyance project that pipes water from Daxihaizi reservoir to lower reaches of Tarim River has been implemented ten times since 2000. After ecological water conveyance, restoration has taken place for vegetation along the dried-up lower reaches of the Tarim River. The changes of vegetation fluctuated yearly due to ecological water conveyance. In order to reveal the detailed process of vegetation changes, remote sensing images from 1999 to 2010 were all classified individually into vegetated and non-vegetated areas using the soil-adjusted vegetation index threshold method. Then inter-annual changes of vegetation over a period of 12 years were obtained using a post-classification change detection technique. Finally, spatial–temporal changes distribution of vegetation cover and its response to ecological water conveyance were analyzed. The results indicate: (1) vegetation area increased by 8.52 % overall after ecological water conveyance. Vegetation between 2003 and 2004 increased dramatically with 45.87 % while vegetation between 2002 and 2003 decreased dramatically with 17.83 %. (2) Vegetation area gain is greater than vegetation loss during 1999–2000, 2001–2002, 2003–2004 and 2009–2010 periods. Although vegetation restoration is obvious from 1999 to 2010, vegetation loss also existed except for the periods above. It indicates that vegetation restoration fluctuated due to ecological water conveyance. (3) Spatial distribution of vegetation restoration presented “strip” distribution along the river and group shaper in the lower terrain area, while spatial distribution of vegetation loss mainly located in the upper reaches of river and area far away from the river. (4) Vegetation restoration area had a positive relative with total ecological water conveyance volume. The scheme and season of ecological water conveyance had also influenced the vegetation restoration. The vegetation change process monitoring, based on continuous remote sensing data, can provide the spatial–temporal distribution of vegetation cover in a large-scale area and scientific evidences for implementing ecological water conveyance in the lower Tarim River.