铜陵尾矿土壤重金属污染物的固定修复

化学固定法通过向土壤中添加一定的固定剂，降低重金属有效态含量达到修复土壤重金属污染的目的。利用石灰、炉渣和稻草作为土壤重金属固定剂，通过土壤与固定剂的混合来修复铜陵Cu、Cd、Zn污染土壤，分析石灰、炉渣和稻草对土壤有效态Cu、Cd、Zn的固定修复效率和土壤微生物代谢呼吸率的影响。结果表明:除石灰与炉渣单独使用时对Cu固定修复效率低，以及稻草单独使用对Cd与Zn的固定修复效率也较差外，固定剂能够显著的降低有效态Cu、Cd、Zn含量(〖WTBX〗p〖WTBZ〗<005)，尤其石灰、煤渣和稻草的混合物能够最为高效的降低有效态Cu、Cd、Zn含量，固定修复效率分别为9428%、7810%和 9857%，同时还能显著提高土壤微生物的代谢呼吸率(〖WTBX〗p〖WTBZ〗<005)，增大微生物的活性。Pearson’s相关系数分析进一步表明在重金属污染的酸性土壤中，同时增加碱性物质和有机质含量能够较为高效地降低有效态重金属含量，增强土壤微生物抗重金属胁迫和毒性耐受能力，利于土壤的复垦再利用     

蒌蒿(Artemisia selengensis L.)修复洞庭湖土壤Cd污染的强化措施研究

〖HTSS〗洞庭湖土壤镉污染严重,蒌蒿（Artemisia selengensis L.）是在洞庭湖湿地新发现的一种对镉具有较强富集能力的优势植物,已证实该种植物对土壤中的镉具有较好的修复效果和潜能,将来可作为洞庭湖土壤镉污染的理想修复材料。以南洞庭湖Cd污染土壤为栽培基质,分别在蒌蒿幼苗期、成株期添加EDTA等7种螯合剂和调控物质,研究了不同添加物对蒌蒿生长状况及Cd富集效果的影响。结果表明,HEDTA、EDTA、DTPA等3种螯合剂不同程度地降低了蒌蒿地上部分的生物量,但增加了土壤中有效态Cd的含量,使蒌蒿茎叶中Cd的富集浓度分别上升了35.5%、984%、421%,可显著提高蒌蒿的修复效果;生石灰的添加则使土壤有效态Cd明显减少,抑制了蒌蒿对Cd的富集;有机腐殖质和复合肥的施加虽促进了蒌蒿生长,但未对其富集效果产生显著影响;幼苗期施加调控物质,在植株生物量、Cd富集浓度及土壤有效态Cd含量等方面造成的影响均大于成株期     

三峡库区中低产土壤重金属含量及其与小麦吸收的关系

三峡库区中低产土壤的Hg,As,Cr,Pb,Cu五个重金属含量（除渝北区外），均在国家土壤环境质量标准内，属自然背景值一级标准。Cd和Zn高于全国土壤中的平均含量和背景值含量，属二级标准。土壤的重金属含量与土壤母质类型，pH值，阳离子交换量，有机质，无定形铁和物理性粘粒有关，同时存在一定的地域分布。重庆近郊的土壤所有重金属含量相对较高。土壤重金属的可给态或有效性含量极低，锌和铜不是过量，而是不足。小麦籽粒中As,Cr,Pb,Zn,Cu含量低于国家食品对重金属限量标准和小麦籽粒背景值标准，Hg,Cd含量高于国家规定标准。籽粒中的Cu,Zn含量是小麦茎叶中的2.0-2.2倍，而茎叶中的Hg,Pb,As,Cr,Cd含量明显高于籽粒。     

基于Hydrus-1D模型的太湖流域农田系统水分渗漏和氮磷淋失特征分析

在土壤水分长期定位观测基础上,应用Hydrus-1D模型对太湖流域典型稻麦轮作农田土壤水分渗漏进行动态模拟,并结合深层土壤溶液取样及氮磷浓度测定,分析了当前耕作方式下农田水分渗漏和氮磷淋失特征。结果表明,土壤水渗漏与降雨、灌溉及前期土壤含水率有关;麦季深层渗漏量小但持续时间长,而稻季单次渗漏量大却持续时间短。模拟时段内铵态氮和可溶解性总磷的淋失主要发生在稻季,淋失量分别为2.62、0.49 kg/hm²,分别占稻麦轮作期总淋失量的96.0%、96.0%,而硝态氮淋失主要发生在麦季,淋失量为57.97 kg/hm²,占总淋失量的80.2%;无机氮淋失的主要形态为硝态氮,其淋失量占总淋失量的96.4%。综合看来,硝态氮应作为主要阻控对象,以减少农田面源污染对地下水及太湖水体的污染风险。此外,氮磷淋失在6、7月份即休耕期和水稻生长早期容易达到峰值,应得到重视。     

改良剂对湿地土壤团聚体及抗悬浮能力的影响试验

以巢湖十五里河河口湿地土壤为研究对象,选用PAM(J)、PAM+生物炭(SJ)和PAM+泥炭(NJ)为土壤结构改良剂,研究改良剂对淹水条件下培养后土壤水稳性团聚体数量、土壤抗悬浮能力和土壤磷释放的影响。结果表明,四种处理(CK、NJ、J和SJ)0.25 mm水稳性团聚体含量大小顺序为:J(58.73±0.57%)SJ(48.27±3.58%)NJ(34.47±2.02%)CK(2.31±0.15%)。在室内风浪扰动模拟实验中,扰动后上覆水体悬浮物浓度(SS)和水体磷浓度的大小顺序均是:CKNJJSJ,且CK显著大于NJ、J和SJ。添加PAM(J)、PAM+生物炭(SJ)和PAM+泥炭(NJ)不仅能显著提高0.25 mm研究区湿地土壤水稳性团聚体的含量,也能显著增强风浪扰动下淹水土壤的抗悬浮能力,进而显著降低淹水后土壤磷释放能力,其中以添加PAM+生物炭组合提升淹水后湿地土壤抗悬浮和降低磷释放能力的效果最佳。     

江西省耕地土壤有效态微量元素含量空间变异特征及其影响因素

采用Pearson相关性分析、Spearman相关性分析、偏相关性分析、方差分析和地统计学方法，对江西省耕地表层(0~20 cm)土壤有效态B、Cu、Fe、Mn和Zn等5种微量元素含量空间变异特征及其影响因素进行研究。结果表明：研究区土壤有效态B、Cu、Fe、Mn和Zn总体处于中等以上水平，B表现为强变异性，其他有效态元素均呈中等变异性。空间结构方面，B、Cu、Fe、Mn和Zn的块金效应值依次为15.68%、12.09%、87.63%、77.98%和25.27%，表明B和Cu具有强烈的空间相关性，Zn呈中等空间相关性，而Fe和Mn空间相关性较弱。空间分布方面，土壤有效B含量表现出“两边低、中间高”的空间分布趋势，Fe、Cu、Zn呈现出较为平滑的空间分布格局，Mn在空间分布上并无明显规律。Pearson相关性分析和偏相关性分析表明5种微量元素之间存在一定的耦合关系但并无直接相关性。Spearman相关性分析和方差分析结果表明，高程、坡度、pH、有机质、全氮、成土母质、地貌类型、土壤类型、灌溉能力、秸秆还田方式和常年耕作制度对5种微量元素含量的空间变异影响显著(P<0.05)。结果可为江西省测土配方施肥卡制定与耕地资源利用与管理及优质高产种植提供可靠参考依据。 关键词： 江西省；微量元素；空间变异；相关性分析；偏相关性分析；影响因素     

苏南经济快速发展区土壤Cu形态含量影响因素定量分析——以昆山市为例

以江苏省昆山市为典型区,定量研究几种因素对农田土壤Cu形态含量的影响。结果表明:1)土壤有效态Cu含量为8.37 mg/kg,土壤全Cu含量为27.43 mg/kg,土壤Cu的活化率为31.02%;2)土壤重金属Cu各形态含量相对大小为残渣态(13.82 mg/kg)有机质结合态(9.42 mg/kg)铁锰氧化物结合态(2.79 mg/kg)碳酸盐结合态(0.84 mg/kg)、可交换态(0.57 mg/kg),残渣态含量明显高于其它形态,达47.83%,有机质结合态Cu含量也较高,占全量的36.09%;3)pH值是影响可交换态Cu含量的最主要因素,达极显著负相关水平。全Cu含量是影响碳酸盐结合态Cu含量、铁锰氧化物结合态Cu含量、有机质结合态Cu含量和残渣态Cu含量的最主要因素,达极显著正相关水平;4)全Cu含量是影响可交换态Cu含量的重要因素,达显著正相关水平。pH值是影响碳酸盐结合态含量的相对重要因素。CEC是影响铁锰氧化物结合态Cu含量的重要因素。有机质含量是影响有机质结合态Cu含量的重要因素,达极显著正相关水平。0.01 mm黏粒含量是影响残渣态Cu含量的重要因素。     

青海湖周边地区表土磁化率与土壤重金属的相关性研究

以青海湖周边地区表层土壤为对象,通过测定66件表层土壤样品的磁化率和Cu、Zn、Pb、Cr、Mn的含量,探讨表层土壤重金属元素含量与磁化率的空间分布规律及二者的相关性。结果表明:(1)青海湖周边地区表土磁化率(χfd)空间分布具有一定的规律性,呈现南岸高、北岸低的特点;(2)土壤中的Cu、Zn、Pb、Cr均与磁化率(χfd)呈显著正相关,而Mn与磁化率(χfd)呈显著负相关。土壤磁化率(χfd)的空间分布与重金属Cu、Zn、Pb、Cr的变化趋势相似,与Mn的空间变化趋势相反;(3)土壤磁化率可作为研究青海湖地区土壤重金属污染的辅助手段。     

南京地区农田土壤和蔬菜重金属污染状况研究

采集了南京市5县4郊5个环境单元（矿冶区、交通干线、工厂周边、污灌地、农产品基地）共100个样点的农田土壤及部分蔬菜样品，测定了重金属（Pb、Cu、Zn、Cd）的质量分数。结果表明，土壤Pb、Cu、Zn、Cd 质量分数的变化范围分别为26.1~4 138.8、16.5 ~3 375.1、46.0~3 587.6、0.09~17.61 mg/kg。不同功能区土壤重金属含量存在明显差异，以矿区周边农田污染最为严重，其次为污灌地和公路沿线农田, 部分农产品基地存在轻度Cd污染，工厂周边农田土壤污染相对较小。19个样点的青菜地上部重金属Pb、Cu、Zn、Cd质量分数的变化范围分别为0.11~7.11、5.04~76.42、36.8~364.3、0.04~2.96 mg/kg，同样以矿区周边污染农田的青菜样本重金属含量最高。青菜重金属含量与土壤重金属生物有效性含量和总量之间呈极显著相关。不合理的矿业开采和冶炼是导致南京地区农田土壤和蔬菜重金属污染的重要原因。     

苏南经济快速发展区土壤Cu形态含量影响因素定量分

以江苏省昆山市为典型区，定量研究几种因素对农田土壤Cu形态含量的影响。结果表明：1)土壤有效态Cu含量为837 mg/kg，土壤全Cu含量为27.43 mg/kg，土壤Cu的活化率为31.02%；2)土壤重金属Cu各形态含量相对大小为残渣态(13.82 mg/kg)＞有机质结合态(9.42 mg/kg)＞铁锰氧化物结合态(2.79 mg/kg)＞碳酸盐结合态(0.84 mg/kg)、可交换态(057 mg/kg)，残渣态含量明显高于其它形态，达47.83%，有机质结合态Cu含量也较高，占全量的36.09%；3)pH值是影响可交换态Cu含量的最主要因素，达极显著负相关水平。全Cu含量是影响碳酸盐结合态Cu含量、铁锰氧化物结合态Cu含量、有机质结合态Cu含量和残渣态Cu含量的最主要因素，达极显著正相关水平；4）全Cu含量是影响可交换态Cu含量的重要因素，达显著正相关水平。pH值是影响碳酸盐结合态含量的相对重要因素。CEC是影响铁锰氧化物结合态Cu含量的重要因素。有机质含量是影响有机质结合态Cu含量的重要因素，达极显著正相关水平。＜0.01 mm黏粒含量是影响残渣态Cu含量的重要因素.     

The interaction of heavy metals with urban soils: sorption behaviour of Cd, Cu, Cr, Pb and Zn with a typical mixed brownfield deposit

This study investigated the sorption characteristics and release of selected heavy metals (Cd, Cu, Cr, Pb and Zn) from a typical urban soil material from a derelict brownfield site in Western Scotland, UK. The study aimed to evaluate contaminant interactions with an urban substrate, comprising a mix of mineral soil and residue materials (e.g. brick, concrete, wood). This type of material has received little consideration in the literature to date. Soil samples were subject to a sequence of test involving batch equilibration and dynamic leaching, in single (non-competitive) and multi-element (competitive) solutions. The batch experiments were carried out in unadjusted and close to soil field pH conditions (pH 2 and 7, respectively). The equilibrium adsorption capacity for heavy metals was measured and extrapolated using the Langmuir isotherm. The parameters of the isotherms x(m) (the maximum amount adsorbed per unit mass of adsorbent (mg/g)) and b (adsorption constant (m(3)/g)) were calculated for Cd, Cu, Cr, Pb as single-element and multi-element solutions. The adsorption from the single-element solution was more effective than adsorption under multi-element conditions, due to competitive effects. For example, the adsorption of copper from a single-element solution was over four times greater than for a multi-element solution. In the case of Cr and Zn, migration of metal from soil to solution was observed. Adsorption capacity at pH 2 followed the order Cr>Cu>Pb>Cd and at pH 7 Cd>Zn, with precipitation affecting Cu and Pb behaviour. During the column leaching experiment, most of the heavy metals were irreversibly bound to the soil, but in the case of Cr some movement from soil into solution was observed. The results also showed that Cd, Cu, Pb and Zn were removed from the solution and adsorbed on the soil. No significant difference in the metal removal from single- and multi-element solutions was observed. Overall, the urban residue behaved in a similar manner to mineral soils despite a significant component of anthropogenic solid materials.     

The effect of ageing on the bioaccessibility and fractionation of cadmium in some typical soils of China

Ingestion of contaminated soil has been recognized as an important exposure pathway of cadmium (Cd) for humans, especially for children through outdoor hand-to-mouth activities. The effect of ageing process following the input of Cd into soil on the bioaccessibility of Cd in five typical soils of China was investigated using physiologically based in vitro test in this study. A sequential extraction procedure was employed with attempt to identify the bioaccessible fraction(s) of Cd in soils. The bioaccessibility of Cd in strongly acidic (approximately pH 4.5) soils reached nearly steady levels (76.5-76.9% and 52.0-52.6% in the gastric and small intestinal phases, respectively) after a sharp decline in the first week of ageing. In contrast, the bioaccessibility of Cd in higher pH (>6.0) soils was found to be much lower (53.3-72.7% and 29.9-43.4% in gastric and small intestinal phases, respectively) and took 2 weeks of ageing to reach steady levels. The freshly spiked Cd was more labile than native Cd. The main proportion of spiked Cd was found in exchangeable Cd which was higher in strongly acidic soils (68.6-71.8%) than in higher pH soils (53.4-61.4%) at day 120 after a sharp decline to the nearly steady state in the first 1 and 2 weeks, respectively. Significant correlations between Cd bioaccessibility and either water soluble and exchangeable Cd individually, or the sum of water soluble and exchangeable Cd throughout the incubation period for all soils, indicate that these forms of Cd are likely to constitute the main proportion of bioaccessible Cd in soils.     

Effect of elemental sulphur on solubility of soil heavy metals and their uptake by maize

A pot experiment was conducted to study the influence of elemental sulphur (S) on solubility of soil Pb, Zn and Cd and uptake by maize (Zea mays L.). Two rates of elemental sulphur (S) applied at 0 (S0) and 200 (S200) mmol kg(-1) soil with three rates of each heavy metal at Pb, 0 (Pb0), 200 (Pb200), 400 (Pb400) mg kg(-1) soil, Zn, 0 (Zn0), 100 (Zn100), 200 (Zn200) mg kg(-1) soil and Cd, 0 (Cd0), 50 (Cd50), 100 (Cd100) mg kg(-1) soil, respectively. The result showed that with S application at 200 mmol S kg(-1), soil pH decreased about 0.3 unit and the solubility of the Zn and Cd was significantly increased, but the solubility of Pb had no significant influence. The concentration of Pb, Zn and Cd in maize shoots and roots were increased with increasing rates of heavy metals. However, the concentration of Zn and Cd in shoots and roots were higher with application of S rather than without S but no significant difference was found for Pb. The highest concentration of Zn in the shoots was 2.3 times higher with application of S rather than without at the same rate of Zn, 200 mg kg(-1). Plant biomass was also significantly affected by the application of S and of heavy metals. With heavy metal addition, the shoot and root biomass were decreased with the rates of those of heavy metals increased either with or without application of S. However, the shoot biomass was significantly decreased with S application at the same rate of heavy metals except that with Zn addition. The removal of Cd and Pb by maize uptake and accumulation with application of S had no significant increase compared to that without, but the removal Zn by maize uptake from the soil increased by application of S, 90.9 microg plant(-1) contrast to 25.7 microg plant(-1) at Zn200 within a growth period of only 40 days.     

稻鸭、稻鱼共作对稻田P素动态变化的影响

以稻鸭和稻鱼生态系统为研究对象，通过大田试验研究了稻田P的动态变化及转化规律，及其对环境的影响。结果表明，施P后土壤和田面水P含量立即达到最大值，一周后迅速降低。相对于空白（CK），养鸭处理（RD）和养鱼处理（RF）田面水总P浓度、溶解P浓度、土壤速效P含量和水稻吸P量显著增加，而土壤全P含量有所增加。研究还表明，水稻吸P量与田面水溶解P、土壤速效P显著相关。对田面水P素径流流失的潜在环境效应分析表明，施P后的一周左右是控制P素流失的关键时期；由于养鸭养鱼能提高稻田P含量，在稻鸭、稻鱼共作期间，要注意避免农田排水和防止因降雨引起的田面水外溢。同时，由于鸭子和鱼能提高土壤有效养分含量，降低化肥的施用量，进而降低了化肥损失所造成的环境危害。     

Correlation of the partitioning of dissolved organic matter fractions with the desorption of Cd,Cu, Ni,Pb and Zn from 18 Dutch soils

Eighteen Dutch soils were extracted in aqueous solutions at varying pH. Extracts were analyzed for Cd, Cu, Ni, Pb and Zn by ICP-AES. Extract dissolved organic carbon (DOC) was also concentrated onto a macroreticular resin and fractionation into three operationally defined fractions: hydrophilic acids (Hyd), humic acids (HA) and fulvic acids (FA). In this manner, change in absolute solution concentration and relative percentage for each fraction could be calculated as a function of extraction equilibrium pH. The soils were also analyzed for solid phase total organic carbon and total recoverable metals (EPA Method 3051). Partitioning coefficients were calculated for the metals and organic carbon (OC) based on solid phase concentrations (less the metal or OC removed by the extraction) divided by solution concentrations. Cu and Pb concentrations in solution as a function of extract equilibrium pH are greatest at low and high pH resulting in parabolic desorption/dissolution curves. While processes such as proton competition and proton promoted dissolution can account for high solution metal concentrations at low pH, these processes cannot account for higher Cu and Pb concentrations at high pH. DOC increases with increasing pH, concurrently with the increase in Cu and Pb solution concentrations. While the absolute concentrations of FA and HA generally increase with increasing pH, the relative proportional increase is greatest for HA . Variation in HA concentrations spans three orders of magnitude while FA concentrations vary an order of magnitude over the pH range examined. Correlation analysis strongly suggests that HA plays a major role in increasing the concentration of solution Cu and Pb with increasing pH in the 18 soils studied. The percentage of the OC that was due to FA was nearly constant over a wide pH range although the FA concentration increased with increasing pH and its concentration was greater than that of the HA fraction at lower pH values (pH = 3-5). Thus, in more acidic environments, FA may play a larger role than HA in governing organo-metallic interactions. For Cd, Ni, and Zn, the desorption/dissolution pattern shows high metal solution concentrations at low pH with slight increases in solution concentrations at extremely high pH values (pH>10). The results presented here suggest that the effects of dissolved organic carbon on the mobilization of Cd, Ni, and Zn may only occur in systems governed by very high pH. At high pH, it is difficult to distinguish in this study whether the slightly increased solution-phase concentrations of these cations is due to DOC or hydrolysis reactions. These high pH environments would rarely occur in natural settings.     

Distributions of zinc, copper, cadmium and lead in a tropical ultisol after long-term disposal of sewage sludge

Heavy metals present in soils constitute serious environmental hazards from the point of view of polluting the soils and adjoining streams and rivers. The distribution of heavy metals in a sandy Ultisol (Arenic Kandiustult) in south eastern Nigeria subjected to 40 years disposal of sewage wastes (sludge and effluents) was studied using two profile pits (S/NSK/1 and S/NSK/2) sited in the sewage disposal area and one profile pit (NS/NSK) sited in the non-sewage disposal area. Soil samples were collected in duplicate from these soil horizons and analyzed for their heavy metal contents. The mean concentrations of Zn, Cu, Cd and Pb in the top- and sub-soil horizons of sewage soil were 79.3, 32, 0.29 and 1.15 mg/kg, respectively. These levels were high enough to constitute health and phytotoxic risks. All the metal levels were much higher in the AB horizon in the sewage than in the non-sewage soil profile, but Pb and Cu contents were also high down to the Bt1 horizon, indicating their apparent relatively high mobility in this soil. There was a significant correlation between organic matter (OM) and Zn (r=0.818**), and between OM and Cd (0.864**) in the sewage soil. The high OM status of the sewage sludge, together with its corresponding low pH, might have favoured metal-OM complexation that could reduce heavy metal mobility and phytotoxicity in this soil.     

鄱阳湖表层沉积物中砷及重金属赋存形态及其潜在生态风险

重金属污染是水体沉积物污染的主要问题之一，研究沉积物中重金属元素的赋存形态，探索水体中重金属的来源，可以为水体重金属污染治理修复提供理论基础。采用BCR三步连续提取法对鄱阳湖枯水期表层沉积物中As和7种重金属元素（Cd、Co、Cr、Cu、Ni、Pb和Zn）的赋存形态进行了研究，并基于重金属风险评价代码（Risk Assessment Code, RAC）方法评估了鄱阳湖表层沉积物中的As和7种重金属元素的潜在生态风险。结果表明，鄱阳湖表层沉积物中As、Co、Cr、Cu、Ni和Zn主要以残渣态的形式存在(6160%~8518%)；Pb主要以残渣态（5097%）和铁锰氧化物结合态（4102%）为主要的赋存形态，其可提取态所占比例为4903%，具有较高的二次释放潜力；Cd的赋存形态主要以弱酸提取态（4160%）和铁锰氧化态（2719%）为主，其可提取态所占比例高达7749%，潜在生态风险较大。RAC分析结果表明，鄱阳湖表层沉积物Cd的生态风险整体上位于高风险，需要加强对鄱阳湖Cd污染的关注。所有站点Cr的弱酸提取态所占比例均低于1%，表明鄱阳湖Cr污染的生态风险为无风险，As、Ni和Pb属于低风险，而Cu、Co和Zn位于低风险至中等风险     

Correlations between speciation of Cd,Cu, Pb And Zn in sediment and their concentrations in total soft tissue of green-lipped mussel Perna viridis from the west coast of Peninsular Malaysia

Total concentrations and speciation of cadmium (Cd), copper (Cu), lead (Pb) and zinc (Zn) in surface sediment samples were correlated with the respective metal measured in the total soft tissue of the green-lipped mussel Perna viridis, collected from water off the west coast of Peninsular Malaysia. The aim of this study is to relate the possible differences in the accumulation patterns of the heavy metals in P. viridis to those in the surface sediment. The sequential extraction technique was employed to fractionate the sediment into 'freely leachable and exchangeable' (EFLE), 'acid-reducible,' 'oxidisable-organic' and 'resistant' fractions. The results showed that significant (P<.05) correlations were observed between Cd in P. viridis and Cd in the sediment (EFLE fraction and total Cd), Cu in P viridis and Cu in the sediment (EFLE and 'acid-reducible' fractions and total Cu) and Pb in P viridis and Pb in the sediment ('oxidisable-organic' fraction and total Pb). No significant correlation (P > .05) was found between Zn in P viridis and all the sediment geochemical fractions of Zn and total Zn in the sediment. This indicated that Zn was possibly regulated from the soft tissue of P. viridis. The present results supported the use of P viridis as a suitable biomonitoring agent for Cd, Cu and Pb.     

Distribution of trace elements in tissues of two shrimp species from the Persian Gulf and roles of metallothionein in their redistribution

This study investigates the distribution of three trace elements (Cd, Cu and Zn) in tissues (exoskeleton, abdominal muscle and hepatopancreas) of two shrimp species (Penaeus merguiensis and Penaeus semisulcatus). Special emphasis in this study was placed on evaluating the effects of storage conditions on redistribution of the elements and moreover the potential roles of metallothionein in tissue redistribution. The specimens were collected from the northern part of Persian Gulf during September 2001 and January 2002. The concentrations of metals in the tissues were measured using an Inductively Coupled Plasma-Atomic Emission Spectrophotometer (ICP-AES) and an ICP-Mass Spectrometer (ICP-MS). Metallothionein levels were determined using Differential pulse polarography. Results show a similar hierarchy for Cd and Cu concentrations among different tissues as follows: hepatopancreas>exoskeleton>muscle; and for Zn, the hepatopancreas again contained the highest levels, though there were not any significant differences in Zn concentrations between muscle and exoskeleton. Significant differences were found between the species in the case of Cd and Zn concentrations. Cd and Zn levels in P. semisulcatus were markedly higher than in P. merguiensis. In general, there were highly significant differences among the storage conditions from accumulation the selected trace elements and metallothionein in both species point of view, but in most cases, no significant differences could be observed among the fresh, refrigerated and frozen specimens of P. semisulcatus. In regards to Zn and Cu accumulation in edible (muscle) tissues of P. merguiensis, optimum conditions for frozen storage is -30 degrees C as ice-frozen, and in terms of short-term storage, 1-day refrigeration is recommended. The redistribution of Zn and Cu during the storage period can be attributed to the role of metallothionein in their transport from organ(s) to muscle during storage. The variations in pH values measured in the muscle of P. merguiensis in different storage conditions showed a similar trend with metallothionein, Zn and Cu. In contrast, it appears that cadmium is transported from muscle to the other tissues. Exoskeleton is probably one of the recipient tissues of cadmium. The inter-elemental relationships were assessed for each species, separately. A significant positive relationship was observed between the concentrations of Zn and metallothionein in P. semisulcatus, whereas in P. merguiensis, Cd concentrations decreased significantly with increasing metallothionein. Highly significant differences between the sexes in Cu and Zn contents could be detected. The differences between the sexes in the levels of Zn and Cu were significantly greater in P. semisulcatus. Highly significant size-related differences were found in the levels of Cd, Cu and metallothionein in the selected tissues of the shrimp species. Comparison between the mean concentrations of the elements in muscle tissue and existing guidelines indicate that in nearly all cases, the concentrations were well below permissible levels for human consumption. The only exception was observed regarding mean values of Cd, which was somewhat greater than some of the recommended levels.     

玄武湖沉积物中重金属的垂直分布

选取中国典型城市内湖--南京玄武湖为研究对象，采用目前运用较为广泛的欧洲标准测试分析委员会(now the Standards，Measurements and Testing Programme)推荐的BCR连续提取法对沉积物中Pb、Cd、Ni、Zn、Cr和Mo 6种重金属形态在垂向上的分布进行测定，并对其潜在迁移风险进行讨论。结果表明：玄武湖沉积物中6种重金属总量由大到小的顺序为：Zn＞Cr＞Mo＞Ni＞Pb＞Cd，含量分别为14880~24412、11255~13578、5519~7730、4142~4981、857~2005和129~173 mg/kg，除Pb外均高于南京土壤环境背景值。在50 cm的柱状沉积物样品中，Pb与Cd主要以可氧化态和残渣态存在，Mo、Ni、Zn和Cr主要以残渣态为主要的存在形态。6种重金属的总量与不同形态在垂向上的分布因金属种类不同有所差异。玄武湖沉积物中含有丰富的有机质(80%~110%)，且pH值为偏酸性至近中性(582~713)，沉积物中的重金属具有较高的潜在迁移风险，在城市湖泊污染治理中应予以足够的重视