Accumulation of Zn,Cu and Cd by crabs and barnacles

The crab Carcinus maenas (L.) and the barnacle Elminius modestus Darwin were exposed to a range of dissolved concentrations of Zn, Cu and Cd for 21 days in artificial seawater. Accumulation of Zn and Cu by crabs has been interpreted in terms of the presence of a regulation mechanism to maintain constant body concentrations (83·2 ± 19·4 μg Zn g^?1 dry wt.; 39·8 ± 9·8 μg Cu g^?1 dry wt.) under varying external dissolved metal levels, until a threshold dissolved metal concentration (c. 400 μg Zn l^?1; c. 170 μg Cu l^?1) beyond which net accumulation of metal begins. Cadium appears to be accumulated by C. maenas at all exposures with no evidence for regulation of body cadmium concentrations. Exposure of E. modestus to Zn, Cu or Cd caused net accumulation of the respective metal in the bodies of the barnacles, with no evidence for regulation of body metal concentrations.     

Hysteresis‐based analysis of overland metal transport

Introducing a concept of equivalent mass depth of flow, this study describes the phenomenon of non‐point source pollutant (metal) transport for pavement (or overland) flow in analogy with wave propagation in wide open channels. Hysteretic and normal mass rating curves are developed for runoff rate and mass of 12 dissolved and particulate‐bound metal elements (pollutants) using the rainfall‐runoff and water quality data of the 15 × 20 m² instrumented pavement in Cincinnati, USA. Normal mass rating curves developed for easy computation of pollutant load are found to be of a form similar to Manning's, which is valid for open channel flows. Based on the hysteresis analysis, wave types for dissolution and mixing of particulate‐bound metals are identified. The analysis finds that the second‐order partial‐differential equation normally used for metal transport does not have the efficacy to describe fully the strong non‐linear phenomena such as is described for various metal elements by dynamic waves. In addition, the proportionality concept of the popular SCS‐CN concept is extended for determining the potential maximum metal mass M_p of all the 12 elements transported by a rain storm and related to the antecedent dry period (ADP). For the primary metal zinc element, M_p is found to increase with the ADP and vice versa. Copyright © 2003 John Wiley & Sons, Ltd.     

壳幔混染作用——下扬子区早中生代玄武岩同位素地质特征

下扬子区中生代（231Ma）玄武质火山岩全岩εNd（t）值-8.62～1.92,87Sr/86Sr 值0.7074～0.7179，206Pb/204Pb值为17.786～18.323。岩石中含有前寒武纪捕虏晶锆石。研究表明玄武质岩石可能是由亏损地幔与元古宙地壳岩石混染作用的结果。     

Chemical forms of heavy metal contaminants in sediments of Miyun reservoir

The chemical forms, spatial distribution and sources of As, Hg, Cd, Pb and Zn in sediments of the Miyun reservoir were studied. The results of sequential extraction demonstrate that most of As, Pb and Zn were bound to the residual fraction, Hg was associated with the sulfide fraction while Cd was associated with the carbonate fraction and the residual fraction. On the vertical profiles the concentrations of the heavy metals in total and each fractions mostly decreased with increasing depths in sediments, suggesting that the heavy metals input from the upstream watershed increases yearly. Summation of the residual fraction, the sulfide fraction and the carbonate fraction accounts for 60.03%―85.60% of the total heavy metal contents in the sediments, which represent the geochemical background values of the elements and relate closely to soil erosion. Results of the main factor analysis show that most sediments of the reservoir come from the upstream soil erosion, the point source pollution and domestic waste. Moreover, the microbial activities taking place on the sediment-water interface are also one of the major factors to cause the increasing content of the organic matter fraction and the iron-manganese oxide fraction. Environmental change of the reservoir water could make the removability of the heavy metals increase, leading to the increase of their concentrations in pore water in sediments, and imperiling water quality of the reservoir.     

煤矸石释放重金属环境效应研究--淮南煤矿塌陷区水体试验场实例调查

概要分析了淮南新孜5号井煤矸石所含的重金属元素对塌陷区鱼塘水质的影响,指出除个别水样中Zn、Cu超标外,其他均不超标,该鱼塘水质适宜养鱼要求。矸石样与华北及整个地壳泥岩中元素的丰度比,矸石中Cr、Pb、Zn与泥岩丰度基本持平,而Cd、Cu均超过其他泥岩中丰度值。因此,煤矸石在地面遭受风化,其所含有害物质可能会释放到环境,在煤矸石堆放处适当进行监测还是必要的。     

重庆城区浓雾的基本特征

统计分析沙坪坝1951～2002年间发生的浓雾事件，结合2001年12月重庆市雾的外场试验资料，探索重庆市主城区浓雾的基本特征。重庆主城区浓雾随年代演变有减缓趋势；主城区浓雾是自然雾与烟尘等的混合物，河谷及城市效应使雾更浓；城市中出现浓雾的大气边界层特征是在近地面层有逆温及增湿降温现象；高浓度气溶胶的净辐射效应阻碍白天混合层发展，使大气边界层趋于稳定，它是重庆连续几天有雾的原因之一；浓雾具有一定的湿沉降作用，能有限地清洁空气；有浓雾的天气条件下，建议降低污染物的排放总量，以避免严重大气污染事件发生。     

关于矿产资源勘查开采过程中关键节点的探讨

随着采矿等矿业活动在全球范围内的大面积进行,人们对矿山及其周边环境问题的关注度持续增加。电感耦合多接收等离子体质谱仪(MC-ICP-MS)的出现推动了同位素的地球化学研究,也使得同位素示踪技术被广泛应用于探究矿山环境中的各类问题。为强调同位素示踪技术在复杂矿山环境中应用的重要性及其能解决科学问题的多样性,本文调研和分析了截至2022年7月国内外学者公开发表的借助同位素示踪技术测试、分析矿山水文环境中的地球化学过程及污染物来源/影响等方面的论文及其数据,研究区涵盖二十多个国家、四十多个地区。通过总结发现：水体氢、氧同位素示踪技术是矿山水源解析、水力联系研究及酸性矿山废水(AMD)源识别的有效工具;硫酸盐硫、氧同位素示踪技术为研究矿山环境中的硫酸盐来源、AMD酸化过程及污染、细菌硫酸盐的还原作用与元素迁移转化等提供重要支持;重金属(铅、镉、锌、汞等)同位素示踪技术是探究矿山及附近环境中的金属污染来源及不同来源贡献率的有效手段。大量研究表明,虽然同位素技术在解析矿山环境污染物来源和特征污染物迁移转化机制以及揭示矿山水文地球化学过程等方面起到重要作用,但目前的大部分研究局限于应用单一/少数同位素对矿山环境介质进行短时间示踪研究。因此,未来需进一步发展多同位素示踪技术,并对矿山环境中存在的各类问题进行长期、持续地监测调查,提出有效的污染防治新方法。

     

陕北北部一次罕见区域性暴雨天气过程分析

利用MICAPS常规气象资料、ERA-Interim 0.25°×0.25°再分析数据、地面区域气象站逐小时观测数据、FY-2G卫星云图和榆林CR/CB雷达产品,对2017年7月25日20时—26日08时陕西北部持续强降水过程进行综合分析。结果表明：（1）这次降水过程呈东西向带状分布,雨强大、范围小、移动慢、持续时间长,降水主要集中在夜间,大暴雨区具有典型的β中尺度特征;（2）西风槽的快速东移南压以及副高的稳定维持有利于槽前正涡度平流的加强及低层低值系统的发展,850 hPa新生的河套低涡和东南低空急流成为这次强降水过程的直接影响系统;（3）河套低涡是一个浅薄的热低压系统,它的发生发展可分为三个阶段,初始阶段低涡形成于弱的锋区中并具有不对称的暖心结构,成熟阶段和旺盛阶段低涡转变为对称的暖心结构,强降水产生在低涡发展成熟阶段,在低涡旺盛阶段降水达到最强;（4）河套低涡直接影响并控制着地面β中尺度低压的发生发展,β中尺度低压稳定在榆林西部,中尺度低压的西部和东部分别形成冷性辐合和暖性辐合,不断触发γ对流单体生成,不同中尺度对流云团的合并导致了降水的强烈发展。

     

京津冀及周边一般性降水与短时强降水特征对比

京津冀及周边地区为我国北方强降水的多发区域。基于1966—2021年87个国家级气象站逐小时降水资料对比分析暖季5—9月一般性降水和短时强降水的空间分布及年际变化,并基于1980—2021年298个气象站分析日变化等特征。结果表明：京津冀及周边地区的渤海西侧平原区域存在短时强降水强度极端性显著区域。渤海西侧平原以外区域两类降水平均小时降水量、强度和降水时次百分比均呈增长趋势,但短时强降水的增幅更高,而渤海西侧平原区域趋势则均不明显。渤海西侧平原区域和渤海西侧平原以外区域的一般性降水平均小时降水量和降水时次百分比日变化幅度显著弱于短时强降水;7—9月渤海西侧平原区域降水夜发性更明显,且相比另一区域半峰持续时间多出约2 h。2005年后渤海西侧平原区域和渤海西侧平原以外区域短时强降水平均小时降水量和降水时次百分比下午时段均明显减弱,但午夜后至清晨明显增加。     

江西于都某钨矿区土壤重金属特征及生态风险评价

金属矿产资源的持续开发活动通常会导致矿区土壤重金属含量累积,厘清土壤重金属环境污染特征并评价其生态风险,可为监测土壤环境质量和预防土壤污染提供依据。选择江西于都某百年开采钨矿山,采用单因子污染指数法、内梅罗综合指数法和Hakanson潜在生态风险指数法,对其周边土壤中Cr、Ni、Cu、Zn、Cd、Pb、As、Hg污染特征及潜在生态风险进行调查评价。评价结果表明,研究区土壤受到Cu、Zn、Cd、Pb、As等重金属的污染,单因子污染指数分别为6.74、3.72、45.1、3.36、8.88;综合污染评价表明,Cd是主要污染贡献因子,其次为As、Cu、Pb、Zn;土壤综合潜在生态风险指数平均值高达2065,属很强生态风险;强生态风险及以上区域主要分布在矿山周边及矿山下游河道附近,分布面积约占研究区总面积的43.89%;研究区土壤重金属相关性分析表明,Cu、Zn、Cd、Pb之间具有显著的相关性。综合研究结果可知,该区域土壤Cd具有一定的潜在生态风险,应引起充分重视,矿山开发利用可能是导致Cu、Zn、Cd、Pb污染的主要原因。