东莞交椅湾滨海地区地下水潮汐效应分析

分析地下水潮汐效应对了解滨海地区水文地质特征具有重要意义.以东莞交椅湾地区为例,基于地下水自动化监测数据与潮汐数据,对该地区地下水动态特征及潮汐变化相关关系进行研究,结果表明:不正规半日混合潮型影响下的滨海地区承压地下水呈现与其匹配的短周期变化,具有良好相关性,受降雨及人类工程活动等影响,地下水长周期变化趋势不明显,地...     

黄河三角洲滨海湿地健康条件评价

以黄河三角洲滨海湿地系统为研究对象,基于描述滨海湿地健康条件的4项功能,充分考虑滨海湿地生态地质环境系统的特征及其健康响应因素,建立了黄河三角洲滨海湿地健康条件评价的概念模型和指标体系。以统计监测和遥感数据为基础,采用RS和GIS技术,通过栅格化实现分区评价及其结果的优化整合,探讨了黄河三角洲滨海湿地健康的时空分布规律。结果显示：黄河三角洲滨海湿地现状健康条件处于健康的占14.2%,亚健康的占61.9%,一般病态的占23.9%;近期（2010－2015年）,河口三角洲湿地生境质量会逐步改善,向健康方向发展,而北部和南部部分滩涂区及神仙沟流路等局部地区在自然和人为因素的共同作用下,环境质量会有一定的降低;影响黄河三角洲滨海湿地健康条件的主要因素是全球气候变化背景下的区域水循环关键过程及其时空变化、湿地开发等人类负面干扰和黄河下游生态调度。应继续加大黄河下游生态调度的力度、积极实施生态修复工程,以促进黄河三角洲滨海湿地持续健康发展。     

滨海地区浅层地下水质量现状评价

滨海地区经济发达,人口众多,人类活动对地下水影响显著。地下水不仅是部分农村的生活饮用水,还是维护环境的重要生态因子。本文以厦门市同安区为例,在分析本区水文地质条件的基础上,选取分布于不同含水层的108组水样,利用地下水质量标准推荐的综合评价法进行评价。结果表明,全区浅层地下水以良好和较差为主,局部污染严重,地下水主要受原生地质环境的Mn、Fe以及人为引起的＂三氮＂污染。     

黄河三角洲滨海湿地健康条件评价概念模型

滨海湿地健康与生物学特征主要取决于区域上的水文与盐度体制以及景观尺度上的土地利用现状。然而,由于滨海湿地条件评价的指标和标准并不十分清楚,因此,对滨海湿地系统条件进行评价,目前仍是环境科学的难点。中国地质调查局（CGS）青岛海洋地质研究所与美国地质调查局湿地研究中心合作先后为美国密西西比河下游生态环境及中国黄河三角洲（YRD）滨海湿地评价建立了概念模型。本文将陈述YRD湿地评价的概念模型。此模型的建立在于确定滨海湿地当前的条件和随时间改善或退化的过程,以及确定优先管理的区域。CGS项目之所以选取YRD作为滨海湿地的研究对象主要是因为它具有重要的生态意义。由于上游来水减少或黄河断流,该区湿地生境十分脆弱。本文提出此概念模型可为今后湿地条件评价指标确定、调查研究活动和数据采集提供指导。通过该模型的构建,使环境变化可用具体指标来度量,从而服务于滨海湿地生态系统的保护与管理活动。     

现代黄河三角洲滨海湿地生态水文环境脆弱性

受大气降水、黄河水位断流、风暴潮和人类工程活动等因素影响,现代黄河三角洲滨海湿地生态水文环境极其脆弱和敏感。本文运用地下水数值模拟方法,通过构建滨海湿地水文模型,以氯离子作为模拟因子,预测滨海湿地地下水趋势性变化。计算结果显示,湿地水位和盐度对湿地生长和发育起控制作用;黄河持续断流和强烈风暴潮对湿地水质影响明显;当风暴潮引起增水幅度超过正常潮高的2.4m,会造成沿海低地特别是北部未受防潮大坝保护的滨海湿地淹没。     

黄河三角洲进积与滨海湿地地质环境演替模式

本文通过对黄河三角洲5个钻孔岩芯的沉积学观测、微古分析、14C测年,同时结合历史记录及遥感资料,分析了本区末次冰后期以来的沉积序列,重建了近10ka以来古环境演变过程,分析了古环境演化对滨海湿地演替的控制作用。本文着重讨论了黄河三角洲进积与湿地形成演替规律,总结了从水生系统、浅海湿地系统、潮滩湿地直至上三角洲平原湿地向陆地生态系统的演替模式。同时通过对现代黄河三角洲与老黄河三角洲演化模式进行对比,提出气候变化、人类活动会加速和改变湿地地质环境演替进程和方向的一般规律。笔者等还进一步提出,由于人类活动的影响,1855年之后湿地演替速率明显加快,约达8~33倍。古环境的重建与滨海湿地响应机制研究可更清楚地理解湿地如何对未来环境变化进行响应,包括海平面上升,从而为滨海湿地保护与管理实践活动提供科学导向。     

黄河三角洲滨海湿地演化过程中的碳埋藏效率及其控制因素

2007年在黄河三角洲布设了一口浅钻ZK4,孔深28.3 m,对获取的岩心样品进行了详细的沉积学观测及含水量、有机碳、总碳和营养成分的实验室分析测试。通过ZK4孔的地层分析,将其划分为7种沉积环境,揭示了滨海湿地地质演化过程。并利用AMS14C测年方法,结合黄河改道的历史记录,运用历史地理学和沉积地质学综合分析的方法对黄河三角洲沉积环境进行了年代划分,并计算了黄河三角洲不同沉积环境沉积物的沉积速率和碳的加积速率。结果表明:总碳和有机碳与除硫和磷元素以外的各营养成分都呈良好的线性相关;碳、氮、磷的加积速率与沉积物的沉积速率呈极显著正相关关系(R0.89,p0.01),沉积物的沉积速率是碳、氮、磷的加积速率的主控因素;虽然现代黄河三角洲沉积物有机碳浓度较低(1%),但由于沉积物的高沉积速率,现代黄河三角洲沉积物有机碳的平均加积速率达到2878.23 g/(m2·a),远高于世界其他高有机碳浓度的湿地,因此是很好的碳汇地质体。     

华南西部火山岛地区滨海浅层地下水的水质现状研究

雷州半岛与海南岛一峡相隔,气候和地质环境相似。近年来,随着经济社会的快速发展,沿海地下水抽用频繁,发展和环境的矛盾日益突出。为了解滨海地区地下水的分布、变化及其与环境的关系,在雷州半岛和海南岛滨海地区进行了浅层地下水井钻凿和地下水潮周期化学连续取样及实验测试。对数据的分析与评价结果表明: 全部监测井为Na-Cl型,除个别监测井外,大多数监测井浅层地下水的溶解性固体总量(total amount of dissolved solids,TDS)和氯离子、硫酸盐、钠离子等含量较高,其中TDS和氯离子含量最高,分别接近39.00 g/L和20.00 g/L,取样时段内波动较大,类型以偏酸性重碳酸盐为主转为以偏碱性钠离子和氯化物为主; 受制于地质环境条件,地下水自我调节能力以“一般”和“弱”居多,水质为IV—V级,且不随测次而变化,表明至少在短期内不会改变。滨海地区浅层地下水水质既与地质环境条件关系密切,也与人类活动有关,还可能受到深层承压古海水释放的影响。影响地下水水质的因素较为复杂,需要进一步加强综合研究和监测。     

利用滨海地下水系统对双频潮汐的响应识别含水层压力传导系数

含水层的压力传导系数是地下水溶质运移及扩散的重要参数,通常压力传导系数由抽水试验确定,即通过抽水给地下水系统一个扰动,然后监测地下水水位的响应,进而计算压力传导系数.对滨海地区含水层来说,潮汐波动就是天然的抽(注)水试验.潮汐由不同频率的分潮构成,前两项主频潮汐基本可代表潮汐主要特征.利用地下水水位对潮汐的响应,识别含...     

滨海矿山的地下水防治浅析

本文以三山岛金矿为例，探讨滨海矿山的地下水防治工作，认为其重点是查清矿床的水文地质条件，特别是矿山地下水与海水之间的联系，然后决定最经济、最合理的防治水方案．     

利用观测孔中地下水位潮汐效应计算天津滨海新区含水层参数

在沿海地区,尤其是围海造陆工程形成的陆域地区地下水水位受潮汐影响较大,使传统水文地质试验求取含水层参数存在较大误差。因此通过合理概化地下水在潮汐作用下运动规律,建立数学模型,推导解析公式求取沿海含水层参数具有重要意义。分析天津滨海新区两处观测孔地下水位及潮汐波动特征,在滞后时间不明显的情况下,利用观测孔水位变幅数据计算了含水层水头扩散系数,并根据承压含水层储水系数经验值进一步获得含水层渗透系数。通过两个观测孔分别计算,对比计算结果互相验证发现,该方法取得了令人满意的结果。利用地下水潮汐效应计算含水层参数可以广泛应用于沿海地区水文地质工作中。     

曹妃甸滨海区浅层地下水腐蚀性评价

浅层地下水对地下建筑具有一定的腐蚀性,影响建筑物安全,沿海地区尤为严重.随着曹妃甸新区城市建设的加快,浅层地下水和土对工程的腐蚀性及对工程结构设计的影响也越来越受到关注.本文对曹妃甸滨海区的地下水腐蚀性数据进行了统计分析,并对地下水的侵蚀性进行了评价,得出曹妃甸滨海区域地下水腐蚀性的规律.浅层地下水对混凝土结构具有弱-强的腐蚀性,自北向南逐渐加重;对混凝土结构中的钢筋普遍具有腐蚀性,对钢结构具有弱-中等腐蚀性,总体向南加重.此研究可以为区内的城市规划和工程建设提供借鉴.     

深圳沿海带浅层地下水的稳定同位素与地球化学

在深圳沿海带取64件浅层地下水样品,作常规离子水化学和氢氧稳定同位素测试,来识别深圳沿海带海水入侵程度。采用主要离子比值-Cl、Br/Cl比值和piper三线图等水文地球化学方法以及氢氧稳定同位素δD-δ18O、δ18O-Cl结合分析水样数据。分析发现Cl-<300mg/L的样品均来源于降水入渗补给,没有海水混入;300mg/L<885mg />885mg/L的12件样品均有海水混合,系降水(淡水)和海水的混合水。     

Salinization properties of a shallow groundwater in a coastal reclaimed area,Yeonggwang, Korea

The need for more agricultural or residential land has encouraged reclamation at the coastal areas of Korea since 1200 ad (approximately). The groundwaters of these reclaimed areas could be expected to reveal hydrogeochemical properties different from those of areas directly affected by seawater intrusion. The purpose of this study, therefore, was to examine the salinization of shallow groundwater in a coastal reclaimed area and to identify the effect of land reclamation on groundwater quality. Major cations and anions, iodide, total organic carbon, δD, δ ¹⁸O and δ ¹³C were measured to assist the hydrogeochemical analysis. Chloride, δD and δ ¹⁸O data clearly show that the Na–Cl type water results from mixing of groundwater with seawater. In particular, the δD and δ ¹⁸O of Ca+Mg–Cl+NO₃ type groundwaters are close to the meteoric water line, but Na–Cl type waters enriched in chloride are ¹⁸O-enriched with respect to the meteoric water line. Meanwhile, carbon isotopic data and I/Cl ratios strongly suggest that there are various sources of salinity. The δ ¹³C values of Na–Cl type groundwaters are generally similar to those of Ca+Mg–Cl+NO₃ type waters, which are depleted in ¹³C with respect to seawater. I/Cl ratios of Na–Cl type groundwater are 10–100 times higher than that of seawater. Because the reclamation has incorporated a large amount of organic matter, it provides optimum conditions for the occurrence of redox processes in the groundwater system. Therefore, the salinization of groundwater in the study area seems to be controlled not only by saltwater intrusion but also by other effects, such as those caused by residual salts and organic matter in the reclaimed sediments.     

Investigation of the climate-driven periodicity of shallow groundwater level fluctuations in a Central-Eastern European agricultural region

The distribution and amount of groundwater, a crucial source of Earth’s drinking and irrigation water, is changing due to climate-change effects. Therefore, it is important to understand groundwater behavior in extreme scenarios, e.g. drought. Shallow groundwater (SGW) level fluctuation under natural conditions displays periodic behavior, i.e. seasonal variation. Thus, the study aims to investigate (1) the periodic behavior of the SGW level time series of an agriculturally important and drought-sensitive region in Central-Eastern Europe – the Carpathian Basin, in the north-eastern part of the Great Hungarian Plain, and (2) its relationship to the European atmospheric pressure action centers. Data from 216 SGW wells were studied using wavelet spectrum analysis and wavelet coherence analyses for 1961–2010. Locally, a clear relationship exists between the absence of annual periodic behavior in the SGW level and the periodicity of droughts, as indicated by the self-calibrating Palmer Drought Severity Index and the Aridity Index. During the non-periodic intervals, significant drops in groundwater levels (average 0.5 m) were recorded in 89% of the wells. This result links the meteorological variables to the periodic behavior of SGW, and consequently, drought. On a regional scale, Mediterranean cyclones from the Gulf of Genoa (northwest Italy) were found to be a driving factor in the 8-yr periodic behavior of the SGW wells. The research documents an important link between SGW levels and local/regional climate variables or indices, thereby facilitating the necessary adaptation strategies on national and/or regional scales, as these must take into account the predictions of drought-related climatic conditions.     

Hydrochemical characteristics and quality assessment of shallow groundwater in a coastal area of Southwest Bangladesh

In this study, the hydrochemical characteristics of shallow groundwater in a coastal region (Khulna) of southwest Bangladesh have been evaluated based on different indices for drinking and irrigation uses. Water samples were collected from 26 boreholes and analyzed for major cations and anions. Other physico-chemical parameters like pH, electrical conductivity (EC), and total dissolved solids were also measured. Most groundwater is slightly alkaline and largely varies in chemical composition, e.g. EC ranges from 962 to 9,370 μs/cm. The abundance of the major ions is as follows: Na⁺ > Ca²⁺ > Mg²⁺ > K⁺ = Cl⁻ > HCO₃ ⁻ > SO₄ ²⁻ > NO₃ ⁻. Interpretation of analytical data shows two major hydrochemical facies (Na⁺–K⁺–Cl⁻–SO₄ ²⁻ and Na⁺–K⁺–HCO₃ ⁻) in the study area. Salinity, total hardness, and sodium percentage (Na%) indicate that most of the groundwater samples are not suitable for irrigation as well as for domestic purposes and far from drinking water standard. Results suggest that the brackish nature in most of the groundwaters is due to the seawater influence and hydrogeochemical processes.     

Spatial relationship of groundwater arsenic distribution with regional topography and water-table fluctuations in the shallow aquifers in Bangladesh

The present study has examined the relationship of groundwater arsenic (As) levels in alluvial aquifers with topographic elevation, slope, and groundwater level on a large basinal-scale using high-resolution (90 m × 90 m) Shuttle Radar Topography Mission (SRTM) digital elevation model and water-table data in Bangladesh. Results show that high As (>50 μg/l) tubewells are located in low-lying areas, where mean surface elevation is approximately 10 m. Similarly, high As concentrations are found within extremely low slopes (<0.7°) in the country. Groundwater elevation (weekly measured by Bangladesh Water Development Board) was mapped using water-table data from 950 shallow (depth <100 m) piezometers distributed over the entire country. The minimum, maximum and mean groundwater elevation maps for 2003 were generated using Universal Kriging interpolation method. High As tubewells are located mainly in the Ganges–Brahmaputra–Meghna delta, Sylhet Trough, and recent floodplains, where groundwater elevation in shallow aquifers is low with a mean value of 4.5 m above the Public Works Datum (PWD) level. Extremely low groundwater gradients (0.01–0.001 m/km) within the GBM delta complex hinder groundwater flow and cause slow flushing of aquifers. Low elevation and gentle slope favor accumulation of finer sediments, As-carrying iron-oxyhydroxide minerals, and abundant organic matter within floodplains and alluvial deposits. At low horizontal hydraulic gradients and under reducing conditions, As is released in groundwater by microbial activity, causing widespread contamination in the low-lying deltaic and floodplain areas, where As is being recycled with time due to complex biogeochemical processes.     

浅层地下水卤代烃污染初步研究

笔者通过对某地区浅层地下水中卤代烃（三氯甲烷、四氯化碳、三氯乙烯、四氯乙烯和三溴甲烷）的测试、研究和分析，阐明了该地区浅层地下水中卤代烃污染物主要是三氯甲烷、三氯乙烯和四氯乙烯，主要污染来源是露天堆放的垃圾场、排污河渠和特殊工业企业；确定了污染源分布和包气带岩性是决定该地区卤代烃污染的两个主要因素，冲洪积扇顶部和潜水－承压水过渡带是卤代烃污染的高浓度区；最后对该地区卤代烃污染物的形成和迁移转化机理进行了初步探讨。