现生和化石蛇蛉科的支序分类（昆虫纲：蛇蛉目）

本文在对中生代和现代共7个蛇蛉科进行特征分析的基础上，以W.Hennig的分支系统学理论为依据，利用Hennig、Farris-Wagner简化Nelson-Platnick和Kluge-Farris等4种支序分析法，分别探讨7个科大亲缘关系，4种方法所得结果一致。Baissopteridate是较原始的类群，并与其余6个科形成一个单系类群；Raphidiidae和Huacelliidae关系最为密切，组成一对姐妹群：I=（A+B）；其与Jilinoraphidiidae构成另一对姐妹群：II=（I+C）；II与Alloraphidiidae也形成一对姐妹群：III=（II+D）； Mesoraphidiidae和Huaxiaraphidiidae是另一对关系密切的姐妹群：IV=（F+E）；并与III构成一对姐妹群：V=（III+IV）。这一分析结果为进一步研究蛇蛉目的演化关系提供了可靠的数值依据。     

鲁北平原地下咸水浅层地热能开发利用条件研究

为了解决鲁北平原区农村冬季清洁供暖问题,扩大地下水地源热泵系统的应用规模,以区内广泛发育的咸水体为研究目标,在简述第四纪地层特征的基础上,阐明了第四纪含水砂层与咸水体的分布特征,总结了区内以往开展的4个浅层地热能勘查项目所施工的水文地质勘探孔抽水试验与回灌试验成果。结果表明: 研究区咸水含水层单井涌水量320~475 m³/d,单位涌水量12.76~28.3 m³/(d·m),自然回灌条件下单井回灌量30~56 m³/d,单位回灌量5.85~17.5 m³/(d·m); 单眼开采井可供暖面积为3 481.02 m²,可满足约35户农村住宅的冬季供暖需求; 研究区在进行浅层地热能开发时建议优先选择地下水地源热泵系统,对于供暖/制冷能耗需求较小的农村单户建筑,可选择地埋管地源热泵系统进行分散式供暖/制冷。     

泰安城区孔隙水水化学特征及水质评价

为分析泰安市城区孔隙水水化学特征及水质现状,选取2021年采集的31件水样,运用数理统计、Piper三线图、Gibbs图、离子比值等方法分析孔隙水主要离子特征及控制因素,运用改进的内梅罗综合指数评价法对孔隙水水质进行评价。结果表明：泰安城区孔隙水阳离子以Ca²⁺、Na⁺为主,阴离子以HCO₃^-、SO₄^2-为主;p H值6.75～8.10,整体呈弱碱性;TH含量211～1 226 mg·L^-1,平均603 mg·L^-1,属于硬水—极硬水;TDS含量368～2 002 mg·L^-1,平均917 mg·L^-1,属于淡水—微咸水;NO₃^-含量3.08～111.07 mg·L^-1,平均31.85 mg·L^-1;K⁺、NO₃^-、C...     

全新世安固里淖易溶盐沉积及其环境意义

内陆湖泊沉积物的易溶盐含量与湖水化学组成密切相关，因此通过测试沉积物钻心的易溶盐含量可以重建古湖水化学演化过程。在安固里淖湖心区钻取沉积剖面，以1cm为间隔分样，测试剖面八大离子的含量（即K+、Na+、Ca₂+、Mg2+、CO₃₂-、HCO₃-、Cl-和SO₄₂-）和其他有关的地球化学特征，并且对各项离子含量进行相关分析，得到剖面易溶盐组成变化曲线和和易溶盐指标变化曲线。根据易溶盐曲线变化情况，结合钻心纹层纪年得到的的纹层年代，将安固里淖8507aB.P.以来的湖水化学演化过程分为以下几个阶段：8507~7600aB.P.，湖水化学类型为Na+-Cl- 型，盐度较高；7600~4724aB.P.，湖水化学类型为Na+-Cl--SO₄₂- 型，盐度最高；4724~3057aB.P., 湖水化学类型为Na+-Cl- 型，3057~574a B.P湖水化学类型为Na+-CO₃₂--HCO₃-，盐度较低；574aB.P.以来湖水化学类型为Na+-Cl- 型，盐度较低但是呈现快速增加趋势。同钻心的粒度分析结果相比较，易溶盐变化曲线的转折早于粒度变化曲线，反映易溶盐沉积对气候变化的反应比粒度特征更敏感，是一个较好的反映气候变化的替代性指标，有待于推广应用。     

天津市宁河北奥陶系灰岩水源地的水文地球化学模拟

天津市宁河北水源地属埋藏型地下水源地,其开采层奥陶系灰岩含水层呈北东向的向斜展布,隐伏于石炭系-二叠系砂页岩之下,并被新近系覆盖,仅在东北部与第四系含水层有水力联系,地下水的补给主要来自浅层第四系含水层的越流补给。应用水文地球化学模拟方法,研究从第四系含水层到奥陶系含水层地下水经历的水-岩作用,包括方解石、白云石、萤石和硬石膏的溶解或沉淀、二氧化碳气体的溶解或逸出等,地下水硬度、矿化度总体上有下降趋势,这是由于含Ca²⁺、Mg²⁺和HCO^-₃的矿物相发生溶解,迁入溶液的比率要小于发生沉淀迁出溶液的比率,具体表现在从第四系含水层到奥陶系含水层Ca²⁺、和HCO^-₃浓度的降低幅度较大。通过模拟计算,可以定量确定从补给区到研究区沿水流路径上的水-岩相互作用及质量交换,有助于揭示该区地下水化学环境的演化机制。     

鄂尔多斯盆地延长组长7段沉积岩元素地球化学特征及沉积环境分析

沉积岩的地球化学特征可以反映盆地沉积环境。为了探讨鄂尔多斯盆地延长组沉积时期古气候、氧化还原条件、古盐度等特征,对鄂尔多斯盆地东南部铜川延长组长7段的5个砂岩、8个页岩样品进行主量、微量以及稀土元素地球化学分析。结果显示,长7段细粒沉积物Al₂O₃/SiO₂值与K₂O/Na₂O值指示样品成分成熟度差别不大,黏土矿物含量较高。∑REE平均值为132.65×10^-6,明显低于北美页岩平均稀土元素含量,也低于全球平均大陆上地壳值;LREE分异程度较高,呈微弱的Eu正异常,无Ce异常。“C值”、Sr/Cu、Rb/Sr、Mg/Ca等指标显示延长组沉积期整体处于温暖潮湿的气候区。研究区样品富集微量元素U、Sc、Cs(平均20.11×10^-6、9.66×10^-6、6.08×10^-6),结合V、δU、Th/U、V/Cr、V/Sc、V/(V+Ni)等指标分析,结果指示延长组沉积期以底层水体呈强分层的还原环境为主。Li、Sr、Ni、Sr/Ba、(MgO/Al₂O₃)×100等值显示沉积期水体总体为淡水-微咸水。     

海岸带城市地下水分布特征

我国城市海岸带地下水类型和分布主要受控于陆地地质作用,尤以大地构造作用和河流地质作用为主导。松散沉积物类海岸带地下水为孔隙水,含水介质单一,空间变化大,地下水的赋存和分布规律亦相应复杂。以距今78万年晚更新世为界线,可将第四纪松散沉积物含水层组划分为上（浅）下（深）两层（部）。下部的全新统（Q4）和上更新统（Q3）含水岩组以微咸水、咸水多见;上部的中更新统（Q2）和下更新统（Q1）分布有淡水,部分地下淡水资源有一定的供水意义。基岩类海岸带地下水主要为裂隙水和岩溶水,多为淡水,其水资源量与当地的降水量和基岩入渗系数的大小有直接关系。除砂砾石台地的基岩类海岸带、少数溺谷型泥质海岸带的河谷内和碳酸盐岩分布区外,一般无集中供水意义。     

上海地区第四纪承压水水化学类型的成因

上海地区位于长江三角洲的前缘,第四纪以来堆积了三百多米厚的松散物质,包括潜水含水层和五个不同埋深的承压含水层。本文就目前开采利用较集中的二、三、四、五层承压水的水化学类型成因作一初步探讨。限于水平,文中不当之处希望指正。本区承压水水化学成分受沉积环境及水循环条件的制约,既有陆源淡水和海源咸水的性质,又有海陆因素共同作用的过渡类型。各层水中优势离子平均含量及其与矿化度的关系见表1。由表可见,其关系十分密切,并分别反映出不同的水化学成因。     

辽河三角洲地下潜水现状及变化规律研究

在辽河三角洲地区,布设10个地下水监测点,通过3年的动态监测,得到第四系孔隙潜水水质动态变化规律.辽河三角洲地区地下水矿化度普遍较高,范围介于1~31 g/L.西部山前倾斜平原,地下水矿化度较小,水质较好.南部滨海低平原区,矿化度介于12~31 g/L,地下水为盐水.东北部冲积平原区地下水矿化度介于1~3 g/L,为微咸水.在地下水化学类型方面,HCO₃-Na型地下水主要分布于西部山前倾斜平原区;Cl-Na型地下水主要分布在南部滨海低平原地区;Cl-Na·Ca型地下水主要分布在北部和东部的冲积平原区;HCO₃·Cl-Na型地下水主要分布在东北部的冲积平原区.山前倾斜平原地区,地下水水质基本保持着良好的状态,大部分地区水质变化不大.南部低平原区,Cl^-、SO₄^2-、Na⁺及矿化度持续升高,高矿化度、氯化物型和钠型水分布面积增大,向周边扩散.北部冲积平原地区,地下水的各组分及矿化度略有起伏,变化不大并趋于稳定.     

福建长乐地区海水入侵(上溯)对水化学变化的影响

海水入侵是沿海地区主要环境地质问题,分析沿海地下水和河水水化学特征,对圈定海水入侵范围及判断影响程度具有重要意义。通过在福建长乐市海水入侵含水层和闽江口海水上溯区采取23件水样进行室内常规离子测试,获得了海水入侵(上溯)区水中主要离子含量。利用海水稀释线分析主要离子与Cl离子之间的相对变化,对比离子实际浓度与理想浓度的差异,分析海水入侵对水化学变化的影响。研究结果显示,随着海水与淡水混合,水化学类型从海水到淡水依次为Na-Cl型水-Na-Cl·HCO₃型水-Na·Ca-HCO₃·Cl型水-Ca-HCO₃型水;引起水化学类型和TDS变化的主要因素为Na⁺和Cl^-的增加;Ca²⁺、Mg²⁺高于海水稀释线和理想浓度线,Na⁺、K⁺在海水稀释线和理想浓度线上下跳跃：Br^-/Cl^-与海水稀释线吻合较好,可以作为判断海水入侵范围的依据。     

The groundwater age in the Middle-Upper Devonian aquifer system, Lithuania

³H, δ¹³C and hydrochemical data were used to estimate the corrected groundwater age derived from conventional ¹⁴C age of dissolved inorganic carbon (DIC). The Middle-Upper Devonian aquifer system from the Baltic upland recharge area in eastern Lithuania towards the discharge area on the Baltic Sea coast in the west was considered. The concentration of total dissolved solids (TDS) in groundwater changes from 300 to 24,000  mg/L and increases downgradient towards the coast. The other major constituents have the same trend as the TDS. The hydrochemical facies of groundwater vary from an alkali-earth carbonates facies at the eastern upland area to an alkali-earth carbonate-sulfate and chloride facies at transit and discharge areas. Meteoric water percolating through the Quaternary and Devonian aquifers regulate the initial ¹⁴C activities of groundwater involving two main members of DIC: soil CO₂ with modern ¹⁴C activity uptake and dissolution of ¹⁴C-free aquifer carbonates. Other sources of DIC are less common. ¹⁴C activity of DIC in the groundwater ranged from 60 to 108 pMC at the shallow depths. With an increase of the aquifers depth the dolomitization of aqueous solution and leakage of the “old” groundwater from lower aquifers take place, traced by lower activities (7–30 pMC).     

Hydrogeochemical genesis of groundwaters with abnormal fluoride concentrations from Zhongxiang City,Hubei Province,central China

The groundwaters from Zhongxiang City, Hubei Province of central China, have high fluoride concentration up to 3.67 mg/L, and cases of dental fluorosis have been found in this region. To delineate the nature and extent of high fluoride groundwaters and to assess the major geochemical factors controlling the fluoride enrichment in groundwater, 14 groundwater samples and 5 Quaternary sediment samples were collected and their chemistry were determined in this study. Some water samples from fissured hard rock aquifers and Quaternary aquifers have high fluoride concentrations, whereas all karst water samples contain fluoride less than 1.5 mg/L due to their high Ca/Na ratios. For the high fluoride groundwaters in the fissured hard rocks, high HCO₃ ⁻ concentration and alkaline condition favor dissolution of fluorite and anion exchange between OH⁻ in groundwater and exchangeable F⁻ in some fluoride-bearing minerals. For fluoride enrichment in groundwaters of Quaternary aquifers, high contents of fluoride in the aquifer sediments and evapotranspiration are important controls.     

Hydrogeochemistry and groundwater quality assessment of the multilayered aquifer in Lower Kelantan Basin,Kelantan, Malaysia

Continual expansion of population density, urbanization, agriculture, and industry in most parts of the world has increased the generation of pollution, which contributes to the deterioration of surface water quality. This causes the dependence on groundwater sources for their daily needs to accumulate day by day, which raises concerns about their quality and hydrogeochemistry. This study was carried out to increase understanding of the geological setup and assess the groundwater hydrogeochemical characteristics of the multilayered aquifers in Lower Kelantan Basin. Based on lithological data correlation of exploration wells, the study area can be divided into three main aquifers: shallow, intermediate and deep aquifers. From these three aquifers, 101 groundwater samples were collected and analyzed for various parameters. The results showed that pH values in the shallow, intermediate and deep aquifers were generally acidic to slightly alkaline. The sequences of major cations and anions were Na⁺ > Ca²⁺ > Mg²⁺ > K⁺ and HCO₃^? > Cl^? > SO₄^2? > CO₃^2?, respectively. In the intermediate aquifer, the influence of ancient seawater was the primary factor that contributed to the elevated values of electrical conductivity (EC), Cl^? and total dissolved solids (TDS). The main facies in the shallow aquifer were Ca–HCO₃ and Na–HCO₃ water types. The water types were dominated by Na–Cl and Na–HCO₃ in the intermediate aquifer and by Na–HCO₃ in the deep aquifer. The Gibbs diagram reveals that the majority of groundwater samples belonged to the deep aquifer and fell in the rock dominance zone. Shallow aquifer samples mostly fell in the rainfall zone, suggesting that this aquifer is affected by anthropogenic activities. In contrast, the results suggest that the deep aquifer is heavily influenced by natural processes.     

Hydrogeochemical and isotopic evidences of the groundwater regime in Datong Basin, Northern China

Datong Basin is one of the Cenozoic faulted basins in Northern China’s Shanxi province, where groundwater is the major source of water supply. The results of hydrochemical investigation show that along the groundwater flow path, from the margins to the lower-lying central parts of the basin, groundwater generally shows increases in concentrations of TDS, HCO₃ ^?, SO₄ ^2?, Cl^?, Na⁺ and Mg²⁺ (except for Ca²⁺ content). Along the basin margin, groundwater is dominantly of Ca–HCO₃ type; however, in the central parts of the basin it becomes more saline with Na–HCO₃-dominant or mixed-ion type. The medium-deep groundwater has chemical compositions similar to those of shallow groundwater, except for the local area affected by human activity. From the mountain front to the basin area, shallow groundwater concentrations of major ions increase and are commonly higher than those in medium-deep aquifers, due to intense evapotranspiration and anthropogenic contamination. Hydrolysis of aluminosilicate and silicate minerals, cation exchange and evaporation are prevailing geochemical processes occurring in the aquifers at Datong Basin. The isotopic compositions indicate that meteoric water is the main source of groundwater recharge. Evaporation is the major way of discharge of shallow groundwater. The groundwater in medium-deep aquifers may be related to regional recharges of rainwater by infiltrating along the mountain front faults, and of groundwater permeating laterally from bedrocks of the mountain range. However, in areas of groundwater depression cones, groundwater in the deep confined aquifers may be recharged by groundwater from the upper unconfined aquifer through aquitards.     

An appraisal of groundwater quality in Seymour and Blaine aquifers in a major agro-ecological region in Texas,USA

Aquifer-based groundwater quality assessment offers critical insight into the major hydrochemical processes, and aids in making groundwater resources management decisions. The Texas Rolling Plains (TRP), spanning over 22 counties, is a major agro-ecological region in Texas from where highest groundwater nitrate (NO₃ ^?) levels in the state have been reported. In this study, we present a comparative assessment of major hydrochemical facies pertaining to NO₃ ^? contamination and a host of species such as sulfate (SO₄ ^2?), chloride (Cl^?), and total dissolved solids (TDS) in different water use classes in the Seymour and Blaine aquifers, underlying the TRP. Aquifer-stratified groundwater quality information from 1990 to 2010 was obtained from the Texas Water Development Board and aggregated over decadal scale. High groundwater salinization was found in the municipal water use class in the Blaine aquifer with about 100, 87 and 50 % of observations exceeding the secondary maximum contaminant level for TDS, SO₄ ^2?, and Cl^?, respectively in the 2000s (2000–2010). The NO₃-contamination was more alarming in the Seymour aquifer with 82 and 61 % of observations, respectively, exceeding the maximum contaminant level (MCL) in the irrigation and municipal water use classes in the 2000s. Salinization was more influenced by SO₄ ^2? and Cl^? in the Blaine aquifer and by NO₃ ^? in the Seymour aquifer. High NO₃ ^? (>MCL) observations in the Seymour aquifer occurred in the Ca–HCO₃ and Ca–Mg–HCO₃ facies, the domains of fresh water recharge and anthropogenic influences (e.g., agricultural activities, waste disposal). High SO₄ ^2?, Cl^? and TDS observations in the Blaine aquifer dominated the Ca–Cl, Na–Cl, and mixed Ca(Mg)–SO₄(Cl) facies indicating evaporite dissolution, mixing and solute exchange, and lack of fresh recharge.     

Isotope geochemistry and modelling of the multi-aquifer system in the eastern part of Lithuania

A steady-state groundwater flow model of three Quaternary intertill aquifers in the eastern part of Lithuania has been compiled. The distinction of separate modelled layers is based on hydraulic and isotope-hydrochemistry data criteria. ³H data were used to estimate the corrected groundwater age and were coupled with a groundwater-flow-dynamics model of the Quaternary aquifer system along a cross-section flow pathway from the Baltic Upland recharge area in eastern Lithuania towards the discharge area in the lowlands near the city of Kaunas in central Lithuania. The bicarbonate content in groundwater (214–462 mg/l) increases downgradient towards the lowland area. The other major constituents and total dissolved solids (TDS) have a trend analogous to the bicarbonate. The ¹⁴C activity of dissolved inorganic carbon (DIC) in the groundwater ranges from 41.4 to 85.7 pMC. With aquifer-system depth, active precipitation of aqueous solution takes place by dissolving minerals of calcite and dolomite and leakage of “old” groundwater from lower aquifers; the process is also traced by lower ¹⁴C and ³H activities and by more positive δ¹⁸O values in lowland areas.     

Hydrogeochemical characteristics of groundwater and pore-water and the paleoenvironmental evolution in the past 3.10 Ma in the Xiong’an New Area,North China

The groundwater level has been continuously decreasing due to climate change and long-time overexploitation in the Xiong’an New Area, North China, which caused the enhanced mixing of groundwater in different aquifers and significant changes in regional groundwater chemistry characteristics. In this study, groundwater and sediment pore-water in drilling cores obtained from a 600 m borehole were investigated to evaluate hydrogeochemical processes in shallow and deep aquifers and paleo-environmental evolution in the past ca. 3.10 Ma. Results showed that there was no obvious change overall in chemical composition along the direction of groundwater runoff, but different hydrochemical processes occurred in shallow and deep groundwater in the vertical direction. Shallow groundwater (< 150 m) in the Xiong’an New Area was characterized by high salinity (TDS > 1000 mg/L) and high concentrations of Mn and Fe, while deep groundwater had better water quality with lower salinity. The high TDS values mostly occurred in aquifers with depth < 70 m and >500 m below land surface. Water isotopes showed that aquifer pore-water mostly originated from meteoric water under the influence of evaporation, and aquitard pore-water belonged to Paleo meteoric water. In addition, the evolution of the paleoclimate since 3.10 Ma BP was reconstructed, and four climate periods were determined by the δ¹⁸O profiles of pore-water and sporopollen records from sediments at different depths. It can be inferred that the Quaternary Pleistocene (0.78–2.58 Ma BP) was dominated by the cold and dry climate of the glacial period, with three interglacial intervals of warm and humid climate. What’s more, this study demonstrates the possibilities of the applications of pore-water on the hydrogeochemical study and further supports the finding that pore-water could retain the feature of paleo-sedimentary water.© 2021 China Geology Editorial Office.     

Geophysical characterization of the complex dynamics of groundwater and seawater exchange in a highly stressed aquifer system linked to a coastal lagoon (SE Spain)

Anthropogenic pressure influences the two-way interactions between shallow aquifers and coastal lagoons. Aquifer overexploitation may lead to seawater intrusion, and aquifer recharge from rainfall plus irrigation may, in turn, increase the groundwater discharge into the lagoon. We analyse the evolution, since the 1950s up to the present, of the interactions between the Campo de Cartagena Quaternary aquifer and the Mar Menor coastal lagoon (SE Spain). This is a very heterogeneous and anisotropic detrital aquifer, where aquifer–lagoon interface has a very irregular geometry. Using electrical resistivity tomography, we clearly identified the freshwater–saltwater transition zone and detected areas affected by seawater intrusion. Severity of the intrusion was spatially variable and significantly related to the density of irrigation wells in 1950s–1960s, suggesting the role of groundwater overexploitation. We distinguish two different mechanisms by which water from the sea invades the land: (a) horizontal advance of the interface due to a wide exploitation area and (b) vertical rise (upconing) caused by local intensive pumping. In general, shallow parts of the geophysical profiles show higher electrical resistivity associated with freshwater mainly coming from irrigation return flows, with water resources mostly from deep confined aquifers and imported from Tagus river, 400 km north. This indicates a likely reversal of the former seawater intrusion process.     

Stable chlorine isotopic signatures and fractionation mechanism of groundwater in Anyang,China

The present work provides an online Bench II-IRMS technique for the measurement of stable chlorine isotope ratio, which is used to measure the δ³⁷Cl of 38 groundwater samples from the Karst and Quaternary aquifers in Anyang area. The regional distribution and signature of δ³⁷Cl value are characterized on the base of isotopic data. The results suggest that the δ³⁷Cl value of Quaternary groundwater decreases with increasing Cl^? concentration, and has no correlation with δ¹⁸O and δD values, but closely correlates with the depth to water table. The fractionation mechanism of the chlorine isotope is expounded according to the type of groundwater. The δ³⁷Cl value of karst water is generally positive, which is relevant to the dissolution of evaporite (gypsum mine), and may be caused by the mixing of groundwater and precipitation. The groundwater of Quaternary unconfined aquifer is mainly recharged by precipitation, and the δ³⁷Cl value of groundwater is generally negative. The δ³⁷Cl value of groundwater in Quaternary confined aquifer is more negative with increasing the depth to water level and elevated Cl^? concentration, which is possible to result from the isotope fractionation of ion filtration. The groundwater with inorganic pollutants in Quaternary unconfined aquifer has generally a positive δ³⁷Cl value.     

Geochemical and isotopic investigation of the aquifer system in the Djerid-Nefzaoua basin, southern Tunisia

In the Djerid-Nefzaoua region, southern Tunisia, about 80% of agricultural and domestic water supply is provided by the complex terminal (CT) aquifer. However, 20% of this demand is provided by other hydraulically connected aquifers, namely the continental intercalaire (CI) and the Plio-Quaternary (PQ). Overexploitation of the CT aquifer for agricultural practices has contributed to the loss of the artesian condition and the decline of groundwater level which largely increased the downward leakage from the shallow PQ aquifer. Excess irrigation water concentrates at different rates in the irrigation channels and in the PQ aquifer itself. Then, it returns to the CT aquifer and mixes with water from the regional flow system, which contributes to the salinization of the CT groundwater. A geochemical and isotopic study had been undertaken over a 2-years period in order to investigate the origin of waters pumped from the CT aquifer with an emphasis on its hydraulic relationships with the underlying and the overlying CI and PQ aquifers. Geochemistry indicates that groundwater samples collected from different wells show an evolution of the water types from Na-Cl to Ca-SO₄-Cl. Dissolution of halite, gypsum and anhydrite-bearing rocks is the main mechanism that leads to the salinization of the groundwater. Isotopic data indicate the old origin of all groundwater in the aquifer system. Mixing and evaporation effects characterizing the CT and the PQ aquifers were identified using δ²H and δ¹⁸O relationship and confirmed by the conjunction of δ²H with chloride concentration.