各种改性剂对重金属迁移,积累影响的研究

采用盆栽实验．研究了在不同改性措施条件下,Ｃｄ、Ｐｈ、Ｃｕ、Ｚｎ、Ａｓ多元素复合污染物对水稻、大豆生长的影响及重金属在土壤－作物系统中迁移、积累的特性．结果表明,作物根系中的离子冲量越大,对作物危害越重．酸处理对作物生长影响较大,而腐殖酸和石灰处理有利于作物的生长．改性剂对重金属迁移能力影响大小依次为酸＞腐殖酸＞石灰．作物的不同部位对重金属吸收的顺序为根＞茎叶＞籽实．重金属在土壤－作物系统中的迁移能力为Ｃｄ＞Ｚｎ＞Ｃｕ＞Ａｓ＞Ｐｂ．     

杨树落叶前后重金属元素内外迁移循环规律研究

供试元素在杨树各部位的含量和贮量为Ｚｎ＞Ｃｕ＞Ａｓ＞Ｐｂ＞Ｃｄ,并与环境中相应元素浓度呈正相关．落叶时元素的迁移主要发生在叶、枝、根和干之间,叶中８～４８％的Ａｓ、Ｚｎ迁移至主干的皮与材中,而Ｃｕ、Ｐｂ、Ｃｄ贮量均有增加,Ｚｎ、Ａｓ的内循环占总循环量的４０％,Ｃｄ、Ｐｂ、Ｃｕ表现为外循环,占总贮量的１７～２７％．同时分析了植物对土壤重金属污染的净化效率．     

改性措施对复合污染土壤重金属行为影响的研究

采用田间实验的方法,研究了在复合污染土壤上石灰＋Ｃａ、Ｍｇ、Ｐ肥处理对重金属迁移、积累的影响及重金属的作物效应．结果表明,在污染土壤上采用石灰＋Ｃａ、Ｍｇ、Ｐ肥处理可减少重金属向作物籽实的迁移和积累,特别是Ｃｄ、Ｐｈ、Ａｓ３元素;改性以后,水稻、小麦Ｃｄ吸收量比改性前降低了３１．５—５５％．４种作物对Ｐｈ的吸收量降低了２３．４－５７．８％,Ｃｕ、Ｚｎ吸收量略有降低．水稻Ａｓ吸收量增加了５６．８％,小麦、大豆Ａｓ吸收量减少６１．８－８１．１％．重金属在土壤中存在的形态发生了变化,Ｃｄ、Ｐｈ、Ｚｎ交换态百分含量不同程度地有所减少,而碳酸盐结合态有所增加,可被植物吸收利用的有效含量降低．     

重金属复合污染对土壤—植物系统的生态效应II.对作物,苜蓿,树…

研究Ｃｄ、Ｐｂ、Ｃｕ、Ｚｎ、Ａｓ５元素复合污染对农作物、苜蓿、树木吸收元素的影响,供试污染物浓度以接近国内外土壤环境标准值作为高剂量处理,结果表明,５种元素间存在交互作用,可提高作物对Ｃｄ、Ｐｂ、Ｚｎ吸收系数,籽实超出粮食卫生标准的超标率在低剂量处理时Ｃｄ为１６．６￣４２．８５％,高剂量时达１６．６￣７１．４２％。苜蓿茎叶中Ｃｄ、Ｐｂ含量超出饲料卫生标准,树叶中含量也有所增加,在中、酸性土壤上尤甚     

落叶松落叶前后重金属元素内外迁移循环规律研究

供试元素在落叶松各部位的含量和贮量顺序为Ｚｎ〉Ｃｕ〉Ａｓ〉Ｐｂ〉Ｃｄ,并与环境中相应元素浓度呈正相关。元素的迁移主要发生在叶和枝、干、根之间,落叶时叶中６％的Ｚｎ迁移到枝、干中,且贮量均有增加,存在明显的内循环,占总循环量的２５％;Ｃｕ、Ｐｂ、Ｃｄ、Ａｓ主要为外循环,其循环量占总贮量的２０％￣７１％,循环率分别为３０％、６８％、２７％和２３％。     

海南岛兴隆地区某些药用植物中的微量元素

本文研究海南兴隆地区１２种不同类型药用植物微量元素的生物吸收系数（Ａｘ）及其含量水平变化特性,结果表明不同科、属、种植物对同一元素的吸收量差异显著,以Ｍｇ＞Ａｌ＞Ｆｅ＞Ｍｎ＞Ｚｎ＞Ｃｕ为序;同属不同品种植物在不同生境中对微量元素的生物吸收系数各有差别,海南槟榔（Ａｘ０．３０×１０－６、１２．５１×１０－６）＞泰国槟榔（Ａｘ０．２９×１０－６、１１．５９×１０－６＞云南槟榔（Ａｘ０．２７×１０－６、１１．５６×１０－６）,元素间吸收量相比以Ｍｏ＞Ｚｎ＞Ｃｕ＞Ｍｎ＞Ｎｉ为例;同种植物不同器官微量元素的吸收量也是不同的,例如巴戟天的含量以根（２１８．４８×１０－６＞叶（１１５．１９×１０－６）＞茎（１１３．０２×１０－６）。植物与土壤中元素含量消长变化关系密切,相比之下,植物中Ｆｅ、Ｍｎ、Ｚｎ含量均高于Ｃｕ、Ｐｈ、Ｎｉ。绞股蓝（１８９．２６）＞巴戟天（１６９．０４）＞益智（１６１．７０）＞槟榔（１５５．８８）。     

Cd和表面活性剂复合污染对小麦叶片若干生理状性的影响

研究了溶液培养条件下Ｃｄ－直链十二烷基苯磺到钠（ＬＡＳ）、Ｃｄ－二六烷基三甲基溴化铵（ＣＴＡＢ）和Ｃｄ－聚氧乙烯山梨醇月桂酸酯（Ｔｗｅｅｎ－８０）３种复合污染对小麦生理状态的影响。结果表明,表面活性剂促进Ｃｄ在小麦叶中的积累,其效应顺序为ＣＴＡＢ〉ＬＡＳ〉Ｔｗｅｅｎ８０．Ｃｄ和表面活性剂复合污染条件下,小麦叶中Ｃｄ的大量积累导致的细胞膜脂过氧化水平大大高于单纯Ｃｄ污染下的水平。细胞中ＳＨ基含量降低     

螯合剂对重金属超量积累植物Thlaspicaerulescens的锌,铜,锰？…

由螯合剂ＥＤＴＡ和ＤＴＰＡ对重金属超量积累植物Ｔｈａｓｐｉｃａｅｒｕｌｅｓｃｅｎｓ吸收Ｚｎ、Ｃｕ、Ｍｎ、Ｆｅ和Ｐ的影响表明：营养液含Ｚｎ１０μｍｏｌ／Ｌ条件下,植株地上部全Ｚｎ含量和根系吸Ｚｎ速率分别达到１６８１ｍｇｋｇ＾－１干重和４４８ｍｇｋｇ＾－１根干重ｄ＾－１;４３．２μｍｏｌ／Ｌ的ＥＤＴＡ或ＤＴＰＡ处理显著抑制植株的生长,也减少植株单位根重吸收的Ｚｎ量,降低地上部和根系全Ｚｎ全Ｃｕ、全Ｍｎ     

苔藓植物对鞍山市环境污染生物指示的研究

采用野外生态学调查和实验分析相结合的方法,对鞍山市内和市郊所选的５个样点苔藓植物的种类、分布及各样点大气净度指数值（ＩＡＰ）和苔藓体内Ｐｂ、Ｚｎ、Ｃｕ、Ｃｄ、全Ｓ等污染物的含量及其与环境污染的关系进行了综合研究和分析．结果表明,严重污染区,包括样点鞍钢,苔藓植物少于５种,ＩＡＰ值＜５,苔藓体内污染物的含量范围是（ｍｇ·ｋｇ－１）：Ｐｂ（１１２～１４９）、Ｚｎ（４０１～４７７）、Ｃｕ（３５．８～３８．５）、Ｃｄ（２．４５～３．５３）、Ｓ（２２００～３１００）;污染区,包括样点立山公园和二一九公园,苔藓植物种数１５～３０,ＩＡＰ值５～２５,污染物在苔藓体内的含量范围是（ｍｇ·ｋｇ－１）：Ｐｂ（３１．２～４４．６）、Ｚｎ（１２０～１９９）、Ｃｕ（９．４０～１７．６）、Ｃｄ（１．０２～２．４２）、Ｓ（１４００～２６００）;相对清洁区,包括样点烈士陵园和千山,苔藓种数多于４０种,ＩＡＰ值＞３０,污染物在苔藓体内的含量范围是（ｍｇ·ｋｇ－１）：Ｐｂ（１５．４～２５．６）、Ｚｎ（８４．３～１３５）、Ｃｕ（５．２４～１１．５）、Ｃｄ（０．６４～１．９９）、Ｓ（８００～２１００）．     

重金属复合污染对土壤—植物系统的生态效应I.对作物,微生物,芷…

研究Ｃｄ、ｐｂ、Ｃｕ、Ｚｎ、Ａｓ复合污染对土壤－植物系统的生态效应,供试污染物浓度以接近国内外土壤环境质量标准值作为高剂量处理,结果表明,该５种元素间可产生加和与协同作用,对生态系统造成危害,低剂量时,妈阿使土壤微生物活性受到抑制,高剂量时可使农作物减产１０％,在酸性土壤上减产达５０％以上,对苜蓿及树木产引起减产。     

铜、砷及其复合污染对黄豆（Glycine max）影响的初步研究

通过水培实验研究了Cu、As单一及复合污染对黄豆种子萌发、幼苗生长及部分酶活性的影响,结果表明,Cu、As污染明显抑制黄豆种子萌发、幼苗生长,对黄豆种子萌发时的呼吸强度、蛋白酶活性有显著的抑制作用,且随着Cu、As浓度的增加,抑制作用增强,呈负相关;而OD活性则随污染物浓度的增加而增加,呈正相关,Cu、As污染共同存在时,随二者投加比例不同出现不同程度的拮抗效应,可以降低和缓解单一污染物的毒害作用。     

Cu、As对作物种子萌发和幼苗生长影响的研究

通过水培实验研究了Cu、As污染对作物种子萌发、幼苗生长及部分酶活性的影响。结果表明,Cu,As污染明显抑制黄豆种子萌发、幼苗生长,对作物种子萌发时的呼吸强度、酶活性有显著的抑制作用,且随着Cu、As浓度的增加,抑制作用增强,呈负相关;而POD活性则随污染物浓度的增加而增加,呈正相关。     

富营养化与污染物间的相互作用及其生态效应

1　引　言进入 90年代 ,为了改善水环境条件 ,越来越多的国家认识到必须减少养分、稳定的有机物和金属元素的输入。富营养化和持续污染物 (Ｃｈｒｏｎｉｃｐｏｌｌｕｔａｎｔｓ)是当前全球水生态系统的两个主要问题[1 ,2 ]。尽管对富营养化和污染物已有很多研究 ,但很少调查二者之间的相互关系。有证据表明两者之间可能存在相互作用过程[5～ 7],但在自然的水生态系统中其作用的大小和关系尚不清楚。滇池是我国典型的遭受富营养化和重金属污染双重胁迫的高原湖泊 ,本研究以滇池富营养化和重金属污染为背景 ,通过室内模拟 ,初步探索富营养化和…     

Combined Effect and Mechanism of Acidity and Lead Ion on Soybean Biomass

Heavy metal pollution and soil acidification are serious global environmental issues. The combined pollution from acidification and heavy metal has become a new environmental issue in regions where the two issues simultaneously occur. However, studies on combined pollution are still limited. In the current study, we investigated the combined effect and mechanism of acidity and heavy metal [lead ion (Pb²⁺)] on soybean biomass as well as on growth, nitrogen nutrition, and antioxidant system in soybean roots. Results showed that the combined treatment with acidity and Pb²⁺ decreased the soybean biomass. At pH 4.5, the soybean biomass in the combined treatment with acidity and 0.9 mmol L^?1 Pb²⁺ was lower than that in the combined treatment with acidity and Pb²⁺ at 0.3 or 1.5 mmol L^?1. This result was also observed at pH 3.5 and 3.0. The combined treatment with acidity and Pb²⁺ also resulted in the following consequences: root growth inhibition; decrease in nitrate, ammonium, and malondialdehyde contents; increase in nitrite reductase activity; and decrease in peroxidase activity. The extent at which the test indexes decreased/increased in the combined treatment was higher than that in the single acidity treatment. The correlation analysis results indicated that the decrease in the soybean biomass in the combined treatment with acidity and Pb²⁺ resulted from the decrease in the root growth, nitrate–nitrogen assimilation, and peroxidase activity.     

利用蚕豆根尖细胞微核技术检测Cu、As污染的诱变性

应用蚕豆根尖细胞微核技术检测Cu、As及其复合污染的诱变性能,计数了蚕豆根尖细胞微核千分率(MCN‰)和污染指数(PI)并进行了F检验.结果表明,在一定浓度范围内(Cu＜200mg·L,As＜15mg·L^-1),随着Cu、As浓度的增加,MCN‰上升;24个试验处理组PI均在2以上,各处理组MCN‰有显著差异,和对照组有极显著差异(a＜0,01),表明Cu、As及其复合处理对蚕豆根尖细胞的分裂活动有明显影响.     

Characterization of Soil Contamination in Miduk Mining District,SW Iran

In this study, 30 soil samples were collected from 0–5 cm and 15–20 cm depths in the vicinity of the Miduk Porphyry Copper Mine in Kerman Province, southeast Iran. The samples were analyzed for total concentrations of eight potentially toxic elements. The bioavailability of trace elements is determined using sequential extraction analysis. Average concentrations of As, Cd, Cr, Cu, Mo, Ni, Pb, and Zn in soil samples are 26.9, 0.49, 56.31, 201.18, 1.77, 45.6, 83.87, and 191.94 mg kg^?1, respectively. Also, to assess the bioaccumulation of the analyzed elements, the roots and the leaves of three plant species were sampled and analyzed. The mobility of the analyzed trace elements shows the following decreasing order: Cd > Mo > Ni > Zn > Cu > Cr >Pb> As. The distribution pattern of elements indicates that elemental concentration in Miduk soils is highly influenced by bedrock composition, while soil pollution is mostly affected by ancient mining.     

Effects of Cadmium and Mixed Heavy Metals on Rice Growth in Liaoning,China

Joint effects of Cd and other heavy metals (Pb, Cu, Zn and As) on the growth and development of rice plants and the uptake of these heavy metals by rice were studied using the pot-culture method combined with chemical and statistical analyses. The results showed that the growth and development of rice plants were strongly influenced by the double-element combined pollution. There was an average decrease in the height of rice plants of 4.0–5.0 cm, and grain yield was decreased by 20.0–30.0%, compared with the control. The uptake of Cd by rice plants was promoted due to the interactions between Cd and the other heavy metals added to the soil. The Cd concentration in roots, stems/leaves and seeds increased 31.6–47.7, 16.7–61.5 and 19.6–78.6%, respectively. Due to interactions, uptake of Pb, Cu and Zn by roots and stems/leaves was inhibited, accumulation of Pb, Cu and Zn in seeds was increased, uptake of As by roots was promoted and uptake of As by stems/leaves was inhibited. In particular, the upward transporting ability of the heavy metals absorbed by rice plants was significantly increased.     

Spatial distribution,contamination levels,sources, and potential health risk assessment of trace elements in street dusts of Urumqi city,NW China

Abstract

A total of 83 dust samples were collected from the streets of Urumqi city in NW China and analyzed for the concentrations of As, Cd, Cr, Cu, Hg, Mn, Ni, Pb, and Zn elements. The spatial distribution, contamination levels, main sources, and potential health risks of these trace elements were determined based on geostatistical analysis, geo-accumulation index, multivariate analysis, and the health risk assessment model introduced by the USEPA, respectively. The obtained results indicate that the average concentrations of Cd, Cr, Cu, Hg, Ni, Pb, and Zn exceed the corresponding background values determined in Xinjiang soils by factors of 2.0, 1.35, 1.38, 8.24, 1.28, 2.09, and 3.26, respectively. The spatial distribution patterns of the nine trace elements in street dust were found to be substantially heterogeneous, and the contamination level decreased in the following order: Hg?>?Zn?>?Pb?>?Cd?>?Cr?>?Cu?>?As?>?Ni?>?Mn. Based on the identified concentrations, the collected dust samples were found to be moderately polluted by Hg, and not polluted by As, Cr, Cu, Mn, and Ni. The remaining elements, Cd, Pb, and Zn lie on the borderline between non-pollution and moderate pollution levels. Furthermore, it was shown that Mn and Zn in street dusts originate from both, natural and anthropogenic sources, while As, Cd, Cr, Cu, Hg, Ni, and Pb are mainly produced by anthropogenic sources. Overall, the carcinogenic and non-carcinogenic health risks of the analyzed elements, instigated primarily by oral ingestion of street dusts, were found to be within the acceptable range for both, children and adults. As and Cr are the main non-carcinogenic elements, whereas Cr is the major carcinogenic element among the investigated dust-bound metals in the study area.     

江苏省典型区农田土壤及小麦中重金属含量与评价

为了研究江苏省典型区地震带农田土壤和小麦中重金属的污染,在具有代表性的农田采集收获期小麦及耕层土壤,分析和评价了土壤和小麦中重金属Cu、Pb、Cd、Ni、Cr、Hg、As和Zn的含量及污染程度。结果表明,土壤样品中Cd、Zn、Pb的含量均超过江苏省土壤背景值,Cr、Cu、Ni和As分别有25.64%、97.44%、92.31%和92.31%的土壤样品中超过江苏省土壤背景值,Hg的含量均在背景值以下;与国家土壤环境质量标准(GB15618—1995)中Ⅱ级标准相比,Cd的含量均超出标准限值,其它7种重金属元素含量均在标准限值以下。土壤中重金属相关分析表明,Cd、Cu、Cr、Ni、Pb、Zn、As具有相同的来源的可能性较大,而Hg与Cd、Cu、Cr、Ni、Pb、Zn、As的来源均不相同。以NY 861—2004为评价标准,小麦籽粒Pb、Cr、Hg、Ni、As样品超标率分别为100%、58.97%、33.33%、10.26%、2.56%,Cu、Zn和Cd没有样品超标,由此可见小麦籽粒中Pb的污染最为严重。采用单因子污染指数法、综合污染指数法和Hakanson潜在生态评价指数法以国家土壤环境质量标准(GB15618—1995)和江苏省土壤背景值为参比值,对农田土壤重金属污染进行评价,结果显示,从单项污染指数来看只有Cd达到重度污染水平,其它元素均在安全范围以内,从综合污染指数来看土壤重金属污染达到中度污染水平,从潜在生态评价指数法来看,研究区域表现为很强的生态危害,并以Cd为主要污染因子。