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1.
湖南洞庭湖水系As和Cd等重金属元素分布特征及输送通量 总被引:9,自引:1,他引:8
土壤地球化学调查显示,长江沿岸,尤其湖南洞庭湖流域存在以镉为主的重金属高值带。为进一步确定As和Cd等重金属元素在河流中的存在形式、迁移方式和通量等地球化学特征,本研究在洞庭湖水系主要干支流的关键位置布置采样点,分夏季丰水期和冬季枯水期两次,采集了原水、0.45μm过滤水和0.20μm过滤水等水样品,以及悬浮物固体样品,分析了水和悬浮物样品中As和Cd、Pb等重金属元素含量。结果发现,As元素在湘江、资水、湘江上游支流西河和耒水中含量最高,耒水、西河及湘江的Pb、Zn含量相对偏高,Cd在湘江、耒水及汨罗江的含量也明显高于其他河流;研究区河水中As、Ni、Cd和Zn等元素在水中离子态比例较大,其溶解态含量受河水pH和温度的控制,湘江、西河、耒水和汨罗江中悬浮物As、Zn、Cu、Cd、Pb和Cu等元素含量远高于其他水系悬浮物,这与这些流域内存在多金属矿区密切相关;不同元素在河水中迁移途径有很大差别,As以溶解态和胶体态为主要迁移形式,Pb、Zn、Cu、Cd和Ni等重金属元素以悬浮物形式迁移的比例最大;主要入湖河流中,湘江输入洞庭湖的As、Zn、Cu和Cd总量最大,年通量分别为961.43 t、478.90 t、101.67 t、59.58 t。 相似文献
2.
鄱阳湖水系重金属元素地球化学特征及入湖通量 总被引:1,自引:0,他引:1
江西省多目标区域地球化学调查显示,鄱阳湖流域河流两岸土壤(河漫滩沉积物)中存在明显的重金属异常带。为揭示河流两岸河漫滩沉积物(土壤)中重金属元素的来源、输送通量及其沉积历史,分别于丰水期和枯水期系统采集了鄱阳湖流域赣江、信江、饶河、抚河、修水及鄱阳湖湖水、悬浮物等样品,分析As、Cd、Pb等元素含量。研究表明:As、Pb、Cu、Zn等元素在研究区河流中的含量普遍较高,不同时期河水中的元素含量有较大的差异;各重金属元素在研究区河流迁移形式有很大的差别,As和Cd主要以离子态形式迁移,但Cd悬浮态迁移形式所占比例也很大;Pb、Zn、Cu和Ni主要以悬浮态形式迁移;重金属在河流水体和悬浮物两相中的分配受水体pH值、温度和悬浮物浓度等因素影响,不同的元素受这些因素的影响程度有很大的差别;按各支流输送通量,赣江和信江对湖区重金属元素输入通量的贡献最大,是鄱阳湖Cd等重金属元素的最主要来源。 相似文献
3.
河水理化性质和元素组成特征直接影响到水体利用功能,入海河流元素输送量对近岸海洋生态环境具有重要影响。在中国东部33条入海河流下游河段或河口区布设了水地球化学调查点,分别在2007年夏季(丰水期)、2007年底—2008年初(枯水期)采样并测定了河水酸碱度、电导率值以及溶解态常量和微量元素浓度。研究表明,多数北方河流水体酸碱度、电导率值以及常量元素浓度高于南方河流,与中国土壤及其常量元素组成的南北分带相吻合,反映了我国南北气候分带对河水地球化学特征的控制作用,推断少数河流酸碱度、电导率和常量元素浓度的异常分布与海水混合作用、人为污染等作用有关;部分河流水体中微量元素浓度背离于区域正常浓度,其原因一是与区域地球化学背景有关,二是与城市污染影响有关,通过对比部分城市上、下游水体元素浓度证实城市污染的影响;研究认为丰水期易溶元素Na、Ca、K、Zn、Se浓度较低反映了大量降水的稀释效应,而丰水期河水Al、REE、Fe、Pb、Tl等元素浓度明显高于枯水期,主要与丰水期暴雨形成的地面径流携带大量胶体颗粒进入地表水有关。 相似文献
4.
第二松花江中上游悬浮物重金属元素分布特征 总被引:4,自引:0,他引:4
悬浮物是河流重金属元素的主要迁移载体。对第二松花江中上游悬浮物重金属元素分布特征进行了较系统的研究。结果表明:第二松花江中上游悬浮物中重金属元素含量变化大;枯水期悬浮物主要以吸附重金属元素能力强的粘土矿物为主,而丰水期则以长英质矿物碎屑为主;枯水期悬浮物重金属元素含量明显高于丰水期;工业污染是导致吉林市区河段悬浮物中As、Cu、Zn、Cd、Pb和Hg元素含量远高于松花湖和下游河段的主要原因。 相似文献
5.
通过对山东省小清河流域土壤重金属污染现状的调查研究,查明土壤重金属污染状况,元素来源和分布迁移规律,从而为该区土壤重金属污染的科学治理提供有效依据。研究发现,小清河沿岸地区的重金属污染主要表现为As、Cd、Cr、Ni等元素的污染;依据内梅罗污染指数评价方法发现研究区存在重金属污染的土壤总面积为880.5 km2,未受到重金属污染的土壤面积为1 822.1 km2,分别占全区总土壤面积的32.58%和67.42%,其中上游的济南市城区北园镇至华山镇区域的小清河两岸是重污染区。对小清河流域土壤重金属来源的探析表明,大气干湿沉降是土壤重金属污染的主要来源;土壤重金属的生物有效性评价显示重金属元素Cd的活动态比例高达56.17%,活化迁移能力强,是该区对生态环境危害性最大的污染因子。此外,As、Cd、Cr、Pb等重金属元素的活动态含量明显受pH值和Corg含量的制约,在低pH值、高Corg含量的土壤区应高度重视As和Cd的污染问题。 相似文献
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7.
在2007年底至2008年初的枯水期间,系统采集了中国东部流域面积和径流量较大的33条河流沉积物、悬浮颗粒物和水样,采用等离子质谱法、X荧光光谱法等方法测定了14种稀土元素含量以及常量组分和水体pH值等理化指标。研究发现中国河流稀土元素浓度总体高于世界均值,且南方河流沉积物、悬浮物稀土元素含量高于北方河流,南方河流悬浮物态中稀土、重稀土呈现一定程度的相对富集,与我国上地壳稀土丰度和稀土矿产种类的南北分异相吻合。展示了以中国东部泥质岩稀土元素丰度标准化后的稀土配分模式及Ce、Eu异常特征,发现河流沉积物的中、重稀土元素相对富集,悬浮物轻稀土相对富集,溶解相重稀土富集的特征;北方河流溶解相稀土元素浓度明显大于南方河流,且除小清河外,溶解相Eu不同于沉积物与悬浮物而呈强烈的正异常,主要与河水理化性质影响下的稀土分异有关。研究发现小清河等少数河流沉积物中稀土元素为异常高值,经Al标准化处理、计算拟合剩余值后,认为小清河等河流稀土元素已受人为污染的影响。 相似文献
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9.
金矿区河水和底泥中重金属含量分布与耦合关系 总被引:3,自引:1,他引:2
河流中河水与底泥中重金属含量之间的关系对于河流污染防治意义重大。对某金矿区3种典型河流的河水与底泥中的重金属含量进行分析,发现4条河流均有超过国家标准限值的情况,河水中7种重金属元素均出现超标,Cr、As元素超标不严重;底泥中Hg、Pb、Cr、Cu、Zn超标,其中Hg超标最严重,河水和底泥中Hg最大超标倍数分别达到3099倍和244倍。河流中重金属主要赋存形态为沉积态,底泥的吸附解吸作用是河流底泥和河水中重金属沿程变化的主控因素;金矿区区域上河水和底泥中重金属很好地服从Langmuir等温吸附模式。矿业活动、地层岩性均会影响底泥对重金属的平均最大吸附容量,流径黄土区的双桥河平均最大吸附容量最大。研究结果为矿山河流污染防治与预警提供了参考依据。 相似文献
10.
云南沘江流域农田土壤重金属Pb、Zn、Cd、As的地球化学特征 总被引:11,自引:0,他引:11
以流经中国铅锌矿储量最大的兰坪金顶铅锌矿区的澜沧江支流——沘江周围农田土壤为研究对象,通过实地调查采样、室内实验测定和统计分析等方法,测定分析了土壤中Pb、Zn、Cd、As的含量及其化学形态分布,以探讨矿产开发对农田土壤重金属含量的影响。结果表明:(1)沘江流域农田土壤中的重金属蓄积量大,以国家《土壤环境质量标准》(Ⅱ级)衡量,Pb、Zn、Cd、As含量超标率分别为66.667%、91.667%、100%、16.667%,污染程度为Cd﹥Zn﹥Pb﹥As;(2)土壤中Pb和Cd的化学形态均以水溶态为主,活性大,迁移能力强,水溶态元素能够直接进入生态链,通过植物吸收进入食物链将给人类健康造成一定的威胁。而Zn和As化学形态分别以铁锰氧化物结合态和残渣态为主,这两种形态在一般环境条件下较稳定,迁移能力弱;Pb和Cd的环境有效态(水溶态、离子交换态、碳酸盐结合态、腐殖酸结合态之和)含量较高,如果发生酸雨或酸性矿山废水的排出,它们的环境有效态会大量增加,对流域具有潜在的危害;(3)土壤中Pb、Zn、Cd、As含量分布和化学形态分布,整体上均为随着与矿区的距离增大而降低的趋势,分布曲线分为单峰状、双峰状两类。另外,Cd、Pb、Zn的化学形态分布与总量分布趋势基本一致,As的腐殖酸结合态、残渣态与总量分布一致。 相似文献
11.
《Russian Geology and Geophysics》2014,55(5-6):562-581
The results of more than 40 years long authors’ investigations in the field of the freshwater (river input) and marine (ocean waters) hydrospheres are summarized. The latest estimations of the global average concentrations of many chemical elements in river water and suspended matter and in ocean water and suspended matter are presented. It is shown that particulate suspended forms of many elements are predominant in river waters (“rivers are the kingdom of suspended forms of elements”), while their dissolved forms prevail in ocean waters (“ocean is the kingdom of dissolved forms of elements”). Sedimentary and biogeochemical processes of the river material transformation in the river-sea mixing zone (the so-called “marginal filter of the ocean”) were studied thoroughly. It was shown that radical quantitative and qualitative changes of dissolved and particulate suspended substances take place in this zone, resulting in the governed transformation of dissolved forms into suspended particulate forms and their following deposition on the bottom. The first data on the losses of 35 chemical elements in the river-sea mixing zone are presented. These data prove that the concentrations of dissolved elements in river and ocean waters are in regular and close relationship with their losses in the river-sea mixing zone and with the types of element distribution in ocean water column (conservative, biogenic, and lithogenic). This indicates the existence of a geochemical system in the entire (freshwater and marine) hydrosphere, which calls for deep and detailed investigations. 相似文献
12.
《Applied Geochemistry》2006,21(11):1837-1854
Total dissolved and total particulate Hg mass balances were estimated during one hydrological period (July 2001–June 2002) in the Thur River basin, which is heavily polluted by chlor-alkali industrial activity. The seasonal variations of the Hg dynamics in the aquatic environment were assessed using total Hg concentrations in bottom sediment and suspended matter, and total and reactive dissolved Hg concentrations in the water. The impact of the chlor-alkali plant (CAP) remains the largest concern for Hg contamination of this river system. Upstream from the CAP, the Hg partitioning between dissolved and particulate phases was principally controlled by the dissolved fraction due to snow melting during spring high flow, while during low flow, Hg was primarily adsorbed onto particulates. Downstream from the CAP, the Hg partitioning is controlled by the concentration of dissolved organic and inorganic ligands and by the total suspended sediment (TSS) concentrations. Nevertheless, the particulate fluxes were five times higher than the dissolved ones. Most of the total annual flux of Hg supplied by the CAP to the river is transported to the outlet of the catchment (total Hg flux: 70 μg m−2 a−1). Downstream from the CAP, the bottom sediment, mainly composed of coarse sediment (>63 μm) and depleted in organic matter, has a weak capacity to trap Hg in the river channel and the stock of Hg is low (4 mg m−2) showing that the residence time of Hg in this river is short. 相似文献
13.
Rare Earth Element Patterns in the Karst Terrains of Guizhou Province, China: Implication for Water/Particle Interaction 总被引:1,自引:0,他引:1
The authors determine the concentrations of dissolved (<0.22 μm) rare earth elements (REE) and suspended particulate matter
(SPM) of typical karst rivers in Guizhou Province, China during the high-flow period. The concentrations of acid-soluble REE
extracted from SPM using diluted hydrochloric acid are also obtained to investigate water/particle interaction in the river
water. The dissolved REE contents in the river water are extremely low in the rivers of the study. The dissolved REE distribution
patterns normalized by the Post Archean Australia Shale (PAAS) in the karst rivers are not flat, show slight enrichment of
heavy REE to light REE, and also have significant negative Ce and Eu anomalies. The acid-soluble REE appears to have similar
distribution patterns as characterized by MREE enrichment and slight LREE depletion, with unremarkable Ce and Eu anomalies.
The PAAS-normalized REE distribution patterns of SPM are flat with negative Eu anomalies. The contents and distribution patterns
of REE in the SPM are closely related to the lithological character of the source rocks. The SPM contains almost all the REE
produced in the process of surficial weathering. This demonstrates that particle-hosted REE are the most important form of
REE occurrence. REE fractionation, which takes place during weathering and transport, leads to an obvious HREE enrichment
in the dissolved loads relative to the SPM. Y/Ho ratio can be used to shed light on REE behaviors during water/particle interaction. 相似文献
14.
Arctic rivers typically transport more than half of their annual amounts of water and suspended sediments during spring floods. In this study, the Sagavanirktok, Kuparuk and Colville rivers in the Alaskan Arctic were sampled during the spring floods of 2001 to determine levels of total suspended solids (TSS) and dissolved and particulate metals and organic carbon. Concentrations of dissolved organic carbon (DOC) increased from 167 to 742 μmol/L during peak discharge in the Sagavanirktok River, at about the same time that river flow increased to maximum levels. Concentrations of dissolved Cu, Pb, Zn and Fe in the Sagavanirktok River followed trends observed for DOC with 3- to 25-fold higher levels at peak flow than during off-peak discharge. Similar patterns were found for the Kuparuk and Colville rivers, where average concentrations of dissolved trace metals and DOC were even higher. These observations are linked to a large pulse of DOC and dissolved metals incorporated into snowmelt from thawing ponds and upper soil layers. In contrast with Cu, Fe, Pb and Zn, concentrations of dissolved Ba did not increase in response to increased discharge of water, TSS and DOC. Concentrations of particulate Cu, Fe, Pb and Zn were more uniform than observed for their respective dissolved species and correlated well with the Al content of the suspended particles. However, concentrations of particulate Al were poorly correlated with particulate organic carbon. Results from this study show that >80% of the suspended sediment and more than one-third of the annual inputs of dissolved Cu, Fe, Pb, Zn and DOC were carried to the coastal Beaufort Sea in 3 and 12 d, respectively, by the Kuparuk and Sagavanirktok rivers. 相似文献
15.
《Applied Geochemistry》2005,20(7):1391-1408
Surface water samples from the St. Lawrence River were collected in order to study the processes controlling minor and trace elements concentrations (Al, Fe, Mn, Cd, Co, Cu, Ni and Zn), and to construct mass balances allowing estimates of the relative importance of their natural and anthropogenic sources. The two major water inputs, the upper St. Lawrence River, which drains waters originating from the Lake Ontario, and the Ottawa River were collected fortnightly over 18 months. In addition, other tributaries were sampled during the spring floods. The output was monitored near Quebec City at the river mouth weekly between 1995 and 1999. Dissolved metal concentrations in the upper St. Lawrence River carbonated waters were lower than in the acidic waters of the tributaries draining the crystalline rocks of the Canadian shield and the forest cover. Biogeochemical and hydrodynamic processes occurring in Lake Ontario drive the seasonal variations observed in the upper St. Lawrence River. Biogeochemical processes relate to biological uptake, regeneration of organic matter (for Cd and Zn) and oxyhydroxide formation (for Mn and Fe), while hydrodynamic processes mainly concern the seasonal change in vertical stratification (for Cd, Mn, and Zn). In the Ottawa River, the main tributary, oxyhydroxide formation in summer governs seasonal patterns of Al, Fe, Mn, Cd, Co and Zn. The downstream section of the St. Lawrence River is a transit zone in which seasonal variations are mainly driven by the mixing of the different water masses and the large input of suspended particulate matter from erosion. The budget of all dissolved elements, except Fe and Zn, was balanced, as the budget of particulate elements (except Cd and Zn). The main sources of metals to the St. Lawrence River are erosion and inputs from tributaries and Lake Ontario. Direct anthropogenic discharges into the river accounted for less than 5% of the load, except for Cd (10%) and Zn (21%). The fluxes in transfer of dissolved Cd, Co, Cu and Zn species from the river to the lower St. Lawrence estuary were equal to corresponding fluxes calculated for Quebec City since the distributions of dissolved concentrations of these metals versus salinity were conservative. For Fe, the curvature of the dilution line obtained suggests that dissolved species were removed during early mixing. 相似文献
16.
The partitioning of the total sediment load of a river into suspended load and bedload: a review of empirical data 总被引:1,自引:0,他引:1
The partitioning of the total sediment load of a river into suspended load and bedload is an important problem in fluvial geomorphology, sedimentation engineering and sedimentology. Bedload transport rates are notoriously hard to measure and, at many sites, only suspended load data are available. Often the bedload fraction is estimated with ‘rule of thumb’ methods such as Maddock’s Table, which are inadequately field‐tested. Here, the partitioning of sediment load for the Pitzbach is discussed, an Austrian mountain stream for which high temporal resolution data on both bedload and suspended load are available. The available data show large scatter on all scales. The fraction of the total load transported in suspension may vary between zero and one at the Pitzbach, while its average decreases with rising discharge (i.e. bedload transport is more important during floods). Existing data on short‐term and long‐term partitioning is reviewed and an empirical equation to estimate bedload transport rates from measured suspended load transport rates is suggested. The partitioning averaged over a flood can vary strongly from event to event. Similar variations may occur in the year‐to‐year averages. Using published simultaneous short‐term field measurements of bedload and suspended load transport rates, Maddock’s Table is reviewed and updated. Long‐term average partitioning could be a function of the catchment geology, the fraction of the catchment covered by glaciers and the extent of forest, but the available data are insufficient to draw final conclusions. At a given drainage area, scatter is large, but the data show a minimal fraction of sediment transported in suspended load, which increases with increasing drainage area and with decreasing rock strength for gravel‐bed rivers, whereby in large catchments the bedload fraction is insignificant at ca 1%. For sand‐bed rivers, the bedload fraction may be substantial (30% to 50%) even for large catchments. However, available data are scarce and of varying quality. Long‐term partitioning varies widely among catchments and the available data are currently not sufficient to discriminate control parameters effectively. 相似文献
17.
Aluminum in the macrotidal Yalujiang estuary: Partitioning of Al along the estuarine gradients and flux 总被引:1,自引:0,他引:1
Water samples were collected from the Yalujiang estuary in both flood periods (August 1992 and August 1994) and dry season (May 1996) and were analyzed for aluminum (Al). Al behaves non-conservatively in the Yalujiang estuary, and a significant loss (70–80%) in dissolved concentration is observed in the upper estuary, in spite of seasonal variation in water discharge and sediment load. About 0.4×106, tons of Al is annually transported from Yalujiang to the estuary, of which the particulate pool clearly dominates. The particulate Al flux through the Yalujiang contributes 35% of the total Al input from Chinese rivers to the Yellow Sea. The data sets from size fractionation and C-18 SPE separation demonstrate that a large fraction of dissolved Al is in colloidal (≈50%) and organically complex (≈60%) forms in the Yalujiang. The observed scavenging from solution to particulate pools in the estuary is most likely through the flocculation of colloidal and organic-complexed Al, which results in a considerable change in dissolved-particulate partitioning, shown by laboratory mixing experiments. Exchange between dissolved and particulate phases is examined by analysis of Kd, the distribution coefficient. The empirical relationship of Kd with chlorinity and suspended matter concentrations was investigated with field observations and model simulations. The model indicated that Kd values of Al are inversely related to the amount of total suspended matter, but Kd-chlorinity plots show different features between dry and flood seasons. 相似文献
18.
Geochemistry of dissolved and particulate elements in the major rivers of China (The Huanghe,Changjiang, and Zhunjiang rivers) 总被引:1,自引:0,他引:1
The relationship between the geochemistry of dissolved and particulate materials and geographic conditions was investigated. Samples of water and suspended particulate matter were collected from five locations in three of the major rivers of China (the Huanghe, Changjiang, and Zhunjiang rivers). Because these rivers generally flow parallel to latitudes and flow through diverse geologic and climate zones, they provide excellent opportunities for comparisons of solute transport. The geochemistry of these rivers is influenced strongly by climate. The low discharge of the Huanghe River influences the character of the major ionic materials (Cl?+SO4 2? and Na++K+) as well as the high degree of mineralization within the system. Dissolved concentrations of both major ions and trace elements are lower in the southern reaches of the rivers. The highly mobile ions, such as, Na+ and Ca2+, are depleted from the suspended particulate material in the southern regions, while the relatively immobile ions of Al, Fe, Ti, Mn, and trace metals are concentrated within the suspended mateiral. The relative mobility of some elements as measured by the Dissolved Transport Index (DTI) changes with climate. The geology of the area drained by the rivers has a major influence on the geochemistry in areas of similar climate. Lowest leaching rates in the southern climates occur in areas dominated by granite, which is resistant to weathering. The composition of both cations and anions among the three tributaries of the Zhujiang River are dependent on the rocks that dominate each eregion. Some particulate forms of the rare earth elements are present in the highest concentrations in regions dominated by granite. The DTI calculated for the major rivers in China are much smaller than those computed for other major rivers of the world. The low concentration of heavy metals in the particulate material suggests that pollution in the rivers of China is less serious than in rivers of other industrialized countries. 相似文献
19.
Water samples from eight major Texas rivers were collected at different times during 1997–1998 to determine the dissolved and particulate trace metal concentrations, expected to show differences in climate patterns, river discharge and other hydrochemical conditions, and human activities along the different rivers. Specifically, two eastern Texas rivers (Sabine, Neches) lie in a region with high vegetation, flat topography, and high rainfall rates, while four Central Texas rivers (Trinity, Brazos, Colorado, and San Antonio) flow through large population centers. Relatively high dissolved organic carbon (DOC) concentrations in the eastern Texas rivers and lower pH led to higher Fe and Mn concentrations in river waters. The rivers that flow through large population centers showed elevated trace metal (e.g., Cd, Pb, Zn) concentrations partly due to anthropogenically produced organic ligands such as ethylenediaminetetraacetic acid (EDTA) present in these rivers. Trace metal levels were reduced below dams/reservoirs along several Texas rivers. Statistical analysis revealed four major factors (suspended particulate matter [SPM], EDTA, pH, and DOC) that can explain most of the observed variability of trace metal concentrations in these rivers. SPM concentrations directly controlled particulate metal contents. Variation in pH correlated with changes of dissolved Co, Fe, Mn, and Ni, and particulate Mn concentrations, while DOC concentrations were significantly related to dissolved Fe concentrations. Most importantly, it was found that, more than pH, EDTA concentrations exerted a major control on dissolved concentrations of Cd and Zn, and, to a lesser extent, Cu, Ni, and Pb. 相似文献