硒对镉胁迫下寒地水稻Cd、Zn、Fe、Cu、Mn含量的影响

研究了镉胁迫下施硒后水稻各器官Cd、Zn、Fe、Cu、Mn含量的变化,并探讨了施硒对缓解镉胁迫下水稻养分吸收的可行性。采用人工模拟镉胁迫的盆栽试验方法,研究不同镉浓度(0,2,4,8mg/kg土壤)下,施硒(0,0.07,0.14mg/kg土壤)对水稻不同器官Cd、Zn、Fe、Cu、Mn含量的影响。结果表明:(1)随着土壤镉浓度的增加,水稻各器官镉含量均增加,不同器官镉含量表现为根系茎鞘叶片精米。(2)相同镉浓度下,随着硒浓度的增加,各器官中镉含量下降,Se2(0.14 mg/kg)优于Se1(0.07 mg/kg)处理。Cd1(2mg/kg)浓度时,Se2处理精米镉含量比Se0降低31.5%(P0.01)。(3)镉胁迫下,施硒对水稻各器官中Zn、Fe、Cu、Mn含量影响不同。相同镉浓度下,随着硒浓度的增加,叶片Zn含量下降,Fe含量增加;茎鞘Zn、Fe含量下降,而Cu含量增加;根系Zn、Cu含量下降,而Fe、Mn含量增加;精米Zn、Mn、Cu、Fe含量增加。其中Cd2(4mg/kg)浓度时,与Se0处理相比,Se2处理茎鞘Zn含量降低了36.2%;叶片和根系Fe含量增加了15.4%和11.4%;精米Zn、Mn、Cu、Fe显著含量增加,分别增加了43.3%,15.8%,52.6%,20.5%(P0.01)。施硒能显著降低镉胁迫下寒地水稻镉含量,Cd1浓度下,施硒后精米镉含量下降幅度最大;镉胁迫下施硒影响水稻对Zn、Fe、Cu、Mn的吸收,尤其Cd2浓度下,施硒对精米Zn、Mn、Cu、Fe含量影响较大,Se2处理效果最佳。     

湘北某镇农田土壤―水稻系统重金属累积和稻米食用安全研究

为研究采矿炼矿活动对农田和稻谷重金属累积的影响,评估其对人体健康的潜在风险,对湖南北部某镇一硫铁矿附近典型污染稻田土壤—水稻系统8种重金属(锰(Mn)、铜(Cu)、锌(Zn)、钴(Co)、镍(Ni)、铬(Cr)、镉(Cd)和铅(Pb))含量进行监测。结果表明:该冶炼厂附近稻田土壤Cd污染最严重,单因素污染指数达12.85,为重度污染;Cu、Zn、Co和Ni为轻度污染。土壤重金属综合污染指数达重度污染。重金属生物富集因子的研究表明:Cd和Mn极易从土壤中被水稻根系吸收,尤其Cd被水稻根系吸收的能力远超其他重金属元素;而Cu、Pb、Co、Cr、Zn和Ni相对不易被水稻根系吸收。重金属在植株组织的分配也表现出差异:Pb、Co、Cu、Cd和Cr被水稻根吸收后,主要蓄积于根部,在根部的浓度百分比分别为82.5%、70.6%、64.8%、59.4%和57.5%;Mn、Zn和Ni被根系吸收后,会迅速向地上部组织迁移。研究区稻田出产的糙米Cd污染严重,Cd的超标率达100%,"镉米"的产出率达53.3%。糙米Cu和Ni的超标率也分别达到了40%和86.7%。若居民食用研究区稻米,每人每日摄入Cd量高于FAO/WHO推荐的标准限值5.9倍,表明研究区稻米存在很大安全风险。     

重金属Cd Zn对长穗偃麦草生理生化特性的影响及其积累能力研究

以长穗偃麦草为材料,采用土培试验方法,研究了重金属Cd、Zn单一及复合污染对长穗偃麦草的生物量、保护酶（SOD和POD）、丙二醛（MDA）、脯氨酸（Pro）的影响,及长穗偃麦草对Cd、Zn的积累能力。结果表明,Cd、Zn单一及复合污染下,长穗偃麦草生物量随Cd和Zn浓度的升高而降低,与对照存在显著差异（P〈0.05）;Cd和Zn单一污染下,随着Cd、Zn浓度的升高,SOD、POD、MDA、Pro含量增加;Cd和Zn复合污染下,随处理质量浓度的增加,SOD呈下降趋势,POD和MDA呈增加趋势。Cd10Zn200处理下Pro含量减少,随Cd和Zn质量浓度的增加,其他复合处理下的Pro含量增加;植株根部的Cd和Zn积累量均大于地上部的积累量。综合实验结果,可初步判断长穗偃麦草能积累和忍受一定量的Cd、Zn,Cd和Zn复合污染对上述各指标的毒害效应大于同水平单元素污染的效应。长穗偃麦草根茎发达,生物量大,在生长过程中可通过生物量带走部分重金属Cd、Zn,因此长穗偃麦草具有修复重金属Cd和Zn污染土壤的潜能。     

龙游硫铁矿区农田土壤重金属污染的空间 变异及在水稻中的积累

为了解浙江龙游硫铁矿区农田重金属污染状况,采集矿区265件农田土壤样品,分析8种重金属Cu、As、Hg、Zn、Cd、Ni、Pb、Cr元素全量,利用地统计学软件GS+9.0对研究区土壤各元素指标进行半变异函数拟合,并利用普通克里格法进行插值并绘制空间分布图。采集30件水稻籽粒样品,分析重金属在研究区中水稻籽粒的累积特征,并进行了健康风险评价。结果表明:矿区土壤中8种重金属元素的变异系数从0.72到1.76,离散程度较高。8种重金属的土壤空间半变异函数Cu、As、Hg元素符合指数模型,Zn、Cd、Ni、Pb符合球状模型,Cr符合高斯模型。元素Cu、Pb、Zn、Cr、Ni的块金值与基台值的比值C0/C0+C都小于0.25,说明空间变化主要受地质背景等因素影响;元素Cd、Hg和As的块金值与基台值的比值C0/C0+C在0.25~0.75之间,说明除了地质背景因素,人为活动等随机因素也有影响。矿区水稻籽粒中重金属Ni和Cd的变异系数最高,分别为0.95和0.87,说明Ni和Cd元素可能存在异常积累。矿区水稻籽粒对重金属的富集能力由大到小依次为Cd、Zn、Cu、Ni、As、Hg、Cr、Pb。健康风险评价结果表明矿区农田水稻籽粒中元素As、Cd的风险商大于1,存在潜在健康风险;而其他6种重金属Cu、Hg、Zn、Ni、Pb和Cr基本属于安全范围。     

气候变暖对春小麦籽粒痕量元素利用率的影响

为了回答温度升高是否会改变痕量元素在士壤中的溶解性,以及作物对痕量元素的生物利用率,在人工气候室模拟未来气候变化温度升高背景下,对种植在不同温度处理的3种春小麦,测定了籽粒中Cd,Cu,Fe和Zn含量.结果发现温度升高引起了土壤中Cd,Cu,Fe和Zn溶解性的显著变化,也显著地影响小麦籽粒中Cd,Cu,Fe和Zn的生物利用率.最高升温3℃处理使西旱1号、2号和3号小麦籽粒中Cd浓度相比对照分别下降43.4％、11.1％和13.4％,Cu浓度相比对照处理分别下降了30.4％、25.1％和10.8％.但Fe和Zn的情况却不同,1℃和2℃升温处理使西旱1号籽粒中Zn浓度比对照处理分别增加了28.9％和35.8％.根据未来气候变化两北地区温度升高1.9℃,估计到2050年,小麦籽粒中的质量分数范围分别在Cd(0.59-0.65)、Cu(5.91-7.64)、Zn(63.73-69.41)和Fe(185.23-202.70) mg/kg.     

镉对小麦（Triticum aestivum）干物质积累、转移及籽粒产量的影响

采用大田试验以不同镉耐性的洛麦23（镉耐性弱）和中育10号（镉耐性强）为试验材料,研究了镉（0、10、50、100mg·kg-1）对不同镉耐性小麦品种干物质积累、干物质转移、叶面积指数及产量的影响。结果表明,一定浓度范围的Cd胁迫可以增加小麦的叶面积指数,当超过这一浓度范围则呈现为抑制作用,这一临界值因小麦品种不同而异。结果同时表明,一定浓度范围的Cd处理对小麦各器官的干物质积累及同化物转移同样具有促进作用,这一临界值不仅因小麦品种不同而异,也因器官不同而异。镉胁迫导致小麦籽粒产量下降,3个Cd处理下洛麦23籽粒产量较对照依次下降了8.3%、34.3%、51.6%,中育10号产量下降程度较小,依次下降了3.7%、9.5%、29.3%。整体而言,镉胁迫影响了小麦的正常生长发育,导致小麦减产。同时,这种影响也存在品种差异性,镉耐性较大的中育10号叶面积指数受抑制程度较小,干物质积累量较大,各器官同化物转移途径受Cd损伤较轻,最终在籽粒产量上表现优于镉耐性较弱的洛麦23。     

北京城郊污灌土壤-小麦（Triticum aestivum）体系重金属潜在健康风险评价

为探讨城郊污灌土壤-小麦体系中重金属Cu、Cd、Cr、Pb和Zn的迁移富集特征及潜在健康风险,选取北京城郊污灌区24块代表性小麦（Triticumaestivum）样地,运用高分辨电感耦合等离子体质谱仪（HR-ICP-MS）测定了土壤及小麦籽粒中消解态Cu、Cd、Cr、Pb和Zn含量。结果表明,污灌土壤中Cu、Cd、Cr、Pb和Zn的均值含量分别为26.51、0.24、101.29、28.04mg.kg-1和85.59mg.kg-1,高于北京土壤元素背景值,已出现积累现象;小麦籽粒中5种重金属含量顺序为Zn（52.38mg.kg-1）〉Cu（6.09mg.kg-1）〉C（r4.62mg.kg-1）〉Pb（0.17mg.kg-1）〉Cd（0.04mg.kg-1）,其中Cr、Zn含量超出国家标准限值,食品安全需引起关注。在以污灌区小麦粉为主要食源条件下,健康风险评价显示：北京城郊污灌区单一重金属风险系数（HQ）尚未达到显著水平,但是郊区成人和儿童的5种重金属综合健康风险均大于1,4种不同人群的风险系数（HQ）和风险指数（HI）有相同的影响顺序,即郊区儿童〉郊区成人〉城区儿童〉城区成人;5种重金属中,Cr所占风险比例最小,由Cu和Zn所引起的健康风险所占比例最高。表明对北京城郊污灌区小麦籽粒主要消费区域和流通渠道以及由此引发的居民（尤其郊区儿童和成人）重金属健康风险需要予以关注,预防食品安全危害的发生。     

盐分胁迫下番茄盐分离子和重金属的分布特征

采用盆栽试验方法研究了不同盐分含量处理下番茄不同器官盐分离子（Na＋、K＋、Ca2＋）和重金属离子（Cd2＋、Pb2＋、Cr2＋、Zn2＋、Cu2＋、Ni2＋）的分布特征,探讨盐分离子对番茄不同器官吸收重金属离子的影响机制,为重金属污染盐渍土壤的农业可利用性评价提供科学依据。结果表明,番茄根、茎、叶和果实Na＋含量均随盐分含量增加而增加;番茄根K＋含量随盐分含量增加小幅上升,茎K＋含量则显著下降,叶K＋含量无显著变化;番茄各器官Ca2＋含量随盐分含量增加无明显变化。番茄根Cd、Pb、Cr、Zn和Cu含量以及番茄茎、叶Cd含量均随盐分含量增加而增加;番茄根Ni含量、番茄茎叶Pb、Cr、Ni、Zn和Cu含量以及番茄果实各重金属含量受盐分含量变化影响不大。因此,土壤盐分含量的增加对番茄根部吸收重金属（Ni除外）有促进作用。     

土壤重金属铜、镉胁迫对冬小麦碳氮运转的影响

在盆栽试验条件下，选用铜、镉两种金属元素各设置3个浓度水平，即Cu，（100mg／kg），Cu2（200mg／kg），Cu3（300mg／kg）和Cd1（10mg／kg），Cd2（50mg／kg），Cd3（100mg／kg）共6个处理，以不施金属元素处理为对照．研究了Cu。Cd胁迫对冬小麦碳氨运转的影响。结果表明，与对照相比，铜、镉处理降低了小麦叶片、茎鞘、颖壳等营养器官花前贮藏物质再运转量和再运转率以及花前营养器官总运转量和运转率。降低了粒重。其中以Cu2，Cd2处理对叶片影响最大，Cu3，Cd2处理对茎鞘、颖壳穗轴和总运转量影响最大。小麦叶片、茎鞘、颖壳等营养器官花前贮藏氮索再运转量和总运转量随铜、镉施用浓度的增加而降低，籽粒氨素积累量也随之降低，而各营养器官花前贮藏氮素再运转率和总运转率的变化较为复杂。Cu。Cd对籽粒产量、淀粉和蛋白质含量的影响均表现为随施用浓度增加而降低的趋势。     

石灰及其后效对玉米吸收重金属影响的田间实例研究

通过田间试验方法,研究了在铅锌矿废水污染的土壤上施用石灰1 a后,继续施用石灰和石灰后效处理对后续第1、2季低累积玉米（Zea mays）的产量以及重金属Cd、Pb、Zn和Cu含量的影响,并分析了土壤pH、土壤DTPA提取态重金属含量和土壤重金属全量的变化。结果表明,连续施用石灰和石灰后效均显著提高玉米产量,其中连续施用石灰处理效果最佳,第1季籽粒产量是对照（无石灰）的6倍,第2季是对照的3.8倍。与对照相比,连续施用石灰处理显著降低了2季玉米籽粒Cd、Pb、Zn和Cu含量,石灰后效只能降低第2季玉米茎叶Cd、Pb和Cu含量,而籽粒Cd、Pb含量与对照相比略有升高,说明石灰后效能维持一年半左右。对照处理土壤Cd和Zn全量显著低于石灰处理,可能是土壤中Cd和Zn随着雨水的淋洗向下层迁移造成的。施用石灰可防止Cd和Zn对地下水的污染。     

Effect of Organic Materials on Partitioning,Extractability and Plant Uptake of Metals in an Alum Shale Soil

Soils developed on sulphide-bearing shale (alum shale) in Norway contain naturally high amount of heavy metals. We conducted a greenhouse pot experiment to study the effect of four rates (0, 2, 4, and 8%) and three sources (cow manure, pig manure and peat soil) of organic matter in partitioning and distribution, extractability and plant uptake of Cd, Cu, Ni and Zn in an alum shale soil. Sequential extraction scheme was used to determine the distribution patterns of metals in the soil. DTPA was used for extracting the metals from the soil. Wheat (Triticum aestivum) was used as a test crop to study the plant uptake of metals. The highest amount of Cd was present in the exchangeable fraction, irrespective of the rate and source of organic matter applied. Copper, Ni, and Zn, on the other hand, were present only in small quantities in this fraction. The largest fraction of Cu was associated with organic matter and the amounts present in the oxide, carbonate and exchangeable fractions were very small. Nickel and Zn were found mainly in the residual fraction. Increasing rates of cow and pig manure decreased the amounts of Cd and Ni associated with the exchangeable fraction whereas, the addition of peat soil at the same rate increased the amounts of these metals associated with this fraction. This effect of organic matter was primarily associated with the change in soil pH caused by different organic matter sources. The DTPA-extractable metals were decreased with increasing rates of organic matter application, irrespective of its source. Grain and straw yields of wheat were decreased with increasing rates of organic matter. The application of organic matter increased the Cu and Zn concentrations in both grain and straw. The concentration of all metals was lower in plants grown in the cow manure amended soil as compared to those grown in the soil amended with either pig manure or peat soil. These results sugggest that the source of organic matter was a determining factor for metal distribution in the soil and for metal uptake by plants. In this study cow manure slightly increased the soil pH and thus was more effective than either pig manure or peat soil in reducing the plant uptake of metals but in general the efficiency of the organic material in reducing heavy metal uptake was small.     

Role of Soil Properties in Phytoaccumulation of Uranium

A pot study was conducted to investigate the toxiceffects of certain heavy metals on the plant growth and grainyield of wheat (Triticum aestivum L.). The resultsrevealed that heavy metals brought about significant reductionsin both parameters, Cd being the most toxic metal followed by Cu,Ni, Zn, Pb and Cr. Moreover, the presence of Cd in the soilresulted in the maximum inhibition (84.9%) in the number of freeliving Azotobacter chroococcum cells over the control. Thephytotoxicity was apparently due to the susceptibility of thefree living Azotobacter chroococcum cells to the toxicdoses of heavy metals.Protein content decreased from 19.0–71.4% in metal exposedplants at metal concentrations equivalent to those found inpolluted soil. Metal uptake by grains was directly related tothe applied heavy metal with greater concentrations of metalsfound in cases where metals were added separately rather than incombinations. The toxic effects on the plant growth, nitrogencontent in plant parts, and protein content in grains, exerted bytwo metals in combination were not additive, but rather only assevere as for the most toxic metal alone.     

新乡市寺庄顶污灌区土壤及小麦重金属污染特征的研究

通过田间采样及室内样品分析,对新乡市寺庄顶污灌区土壤和小麦子实中重金属污染特征进行了初步探讨。结果表明,土壤中cr含量达标,Cd、Ni、Zn和Cu的含量超标,其平均含量分别为65．31、1196．64、2799．25和145．78mg·kg-1,是国家土壤环境二级标准的108．85、19．94、9．33和1．46倍;污染最严重的Cd主要以铁-锰氧化物结合态存在,所占比例平均为56．84％,Ni主要以铁-锰氧化物结合态和残渣态存在,所占比例平均为37．44％和39．55％,Zn主要以残渣态存在,所占比例平均为78．24％,Cu主要以有机结合态存在,所占比例平均为57．70％。小麦子实中cd污染最严重,其平均含量为2．55mg·kg-1,是国家食品卫生标准的25．5倍,这主要是由于土壤中Cd总量严重超标且迁移能力最强的可交换态所占比例较高引起的,Ni、Cr和Zn含量分别是国家食品卫生标准的12．98、6．12和1．32倍,表明长期污水灌溉对寺庄顶灌区小麦的食品安全造成严重威胁,应引起足够的重视。     

Limited downward migration of pollutant metals (Cu,Zn, Ni,and Pb) in acidic virgin peat soils near a smelter

The distribution of pollutant heavy metals (Cu, Zn, Ni, Cd, and Pb) was determined in 11 acidic virgin peat profiles located along two transects moving away from a smelter plant in the Noranda region of Quebec. The levels of all five metals were found highest in the 0 to 15 cm layer at site near the smelter, and decreased progressively with the distance from the smelter, up to 42 km. Copper had the highest concentrations (5525 μg g^?1) followed by Pb and Zn. The maximum levels of total metals built up in the peat surface near the smelter were high, approximately reaching the threshold limits for phytotoxicity in peat soils. The amounts of heavy metals moving down and accumulating in the anaerobic zone of the peat profiles were limited. The distribution and enrichment ratios in the profiles showed that Cu, Zn, and Cd would have relatively higher mobility than Pb.     

长期化肥配施不同有机肥对土壤和玉米中重金属累积的影响

  【目的】  明确长期化肥配施有机肥对重金属元素在土壤和农作物籽粒、秸秆中积累的影响及其环境效应,为安全高效施肥提供科学依据。  【方法】  在北京市农林科学院新型肥料长期定位试验站进行了为期10年的田间试验,其种植模式为冬小麦–夏玉米轮作,试验处理为不施肥 (CK)、单施化肥 (NPK)、氮磷钾 + 鸡粪堆肥的有机肥料 (NPKJF)、氮磷钾 + 污泥堆肥的有机肥料 (NPKWN)、氮磷钾 + 垃圾堆肥的有机肥料 (NPKLJ) 和氮磷钾 + 秸秆粉碎还田 (NPKJG) 共6个处理,施肥处理依据等氮量施肥原则,每季作物施 N 180 kg/hm2、P₂O₅ 90.0 kg/hm2、K₂O 90.0 kg/hm2。在玉米收获后测定了玉米秸秆、籽粒和0—20 cm耕层土壤中重金属全量。  【结果】  添加污泥处理显著提高了土壤中Cd、Hg、As、Cu、Zn的含量,单因子污染指数分别比对照提高了45.10%、150.00%、104.00%、44.60%、65.80%。不同施肥处理对土壤中全量Cd、Cr、Hg、Cu、Zn存在一定的富集效果。各处理重金属单项污染指数在0.02～0.46,远小于1,综合污染指数为0.23～0.36,均小于0.7,试验区土壤重金属均为无污染等级。施用有机废弃物堆肥的处理玉米籽粒Cd、Cu、Zn含量比对照显著增加,各处理间Hg、As、Cr、Pb、Ni含量差异不显著,连续10年定位施肥后试验站土壤以及玉米籽粒中重金属含量均未超标。同一作物不同部位对重金属的富集能力不同,玉米秸秆对重金属的富集能力大于籽粒。玉米籽粒中Pb、Cu、Zn含量与土壤Pb、Cu、Zn含量存在正相关性,玉米秸秆中Cd、Hg、Cr、Ni含量与土壤中Cd、Hg、Cr、Ni含量呈正相关或者显著负相关。  【结论】  在施氮总量不变的前提下,连续施用供试有机堆肥10年后,土壤重金属含量均未超标,土壤重金属单项污染指数在0.02～0.46,综合污染指数为0.23～0.36,无污染风险。只有污泥堆肥需要加强土壤Cd的监测。玉米秸秆对重金属的富集能力大于籽粒。玉米籽粒中Pb、Cu、Zn含量与土壤相应重金属含量存在正相关性,秸秆中Cd、Pb、Hg、Zn与Cr、Ni含量与土壤中相应重金属含量呈正相关,而秸秆中Cr、Ni含量与土壤中相应重金属含量呈负相关。     

新乡市大棚菜田土壤重金属积累特征及污染评价

采用微波消解-ICP-AES技术,测定不同种植年限大棚菜田土壤样品中As、Pb、Zn、Cd、Cr、Mn、Ni、Cu等重金属的含量,研究不同种植年限与大棚菜田土壤重金属累积的相关性以及大棚菜田土壤重金属累积特征,并利用地积累指数法进行污染评价。结果表明:大棚菜田土壤重金属Zn、Pb、Ni、Mn和Cu的含量与种植年限具有极显著相关性;大棚菜田土壤中重金属Cd和Cr的含量与种植年限不相关。重金属元素间相关性分析表明,Zn与Pb、Cd、Ni、Mn、Cr、Cu,Pb与Cd、Ni、Mn、Cr、Cu,Cd与Ni、Mn、Cr,Ni与Mn、Cr、Cu,Mn与Cr、Cu具有污染同源性,Cu与Cd、Cr不具有污染同源性。地积累指数法污染评价结果显示Cd的污染等级达到了6级,已构成了极严重污染;Zn和Cu的污染等级达到2级,已构成了中度污染;Pb、Mn的污染等级达到1级,已经构成了轻~中度污染;As、Ni、Cr均未构成污染。     

中国太原市农业土壤的重金属污染状况

To evaluate the current state of the environmental quality of agricultural soils in Taiyuan City, a hotspot for China’s industrial development, the concentrations of 8 heavy metals in soils were investigated by means of extensive sampling in farmlands, forestlands, and grasslands in the city. Statistical analyses and spatial distribution maps were used to identify the most significant heavy metal pollutants. The mean concentrations of As, Cd, Cu, Hg, Pb, Zn, Ni, and Cr were slightly higher than their background values in Taiyuan’s topsoil, but were lower than the maximum permissible concentrations in the Chinese Environmental Quality Standard for agricultural soils. Farmland soils in Taiyuan had the highest average Cd, Cu, Hg, Pb, Zn, and Cr concentrations, but the As and Ni concentrations did not differ significantly among the farmland, forestland, and grasslands. Soil contamination by Cd, Cu, Hg, Pb, Zn, and Cr was mainly derived from farming practices, especially the use of sewage water for irrigation. In contrast, As and Ni might derive mainly from the soil parent material. The identification of heavy metal sources in agricultural soils may provide a basis for taking appropriate action to protect soil quality.     

Transport and distribution of heavy metals in Cauvery river

Heavy metal transport in Cauvery river chiefly takes place in the particulate form. Tributaries Hemevathi and Kabini draining highly mineralized areas contribute significantly to the heavy metal load of the Cauvery river. Particulate metal transport is influenced by the presence of major dams built across the river. Factor analysis of the elemental data identifies two major group of heavy metals, (a) Fe, Mn, Cr, V and Ti and (b) Cu, Pb and Zn in the suspended sediments of Cauvery river. Heavy metals in surface sediments show wide variations in their concentrations due to the non-uniform grain size distribution of the sediments. The elements Fe, Mn, Pb, Cu, Zn, Ni, Co and As are dominantly present in the <20 μm fraction of the river sediments. Speciation studies show that Fe-Mn oxide phase held the largest share of heavy metals in the sediments. The depth variation of heavy metals in the core sediments suggest their similar mobility during diagenesis. Geoaccumulation indices calculated suggest that Cd, Zn, Cr, Pb, Cu and Ni are enriched in sediments several times over background values.     

包头市铜厂周边土壤中重金属垂直分布特征与形态分析

为了解包头市铜厂周边地区土壤剖面中重金属污染状况,采用火焰原子吸收分光光度法和Tessier连续提取法,对土壤中6种重金属（Cu,Zn,Mn,Ni,Pb和Cd）的垂直分布特征、形态及潜在生物可利用性进行了分析。结果表明:研究区土壤剖面各层土壤中6种重金属含量均超过内蒙古土壤背景值,Cu,Pb和Cd为主要污染物。随采样深度的增加,Cu,Zn,Pb和Mn的含量呈现下降趋势,且由相关性系数可知重金属Cu,Zn和Pb可能有相同人为或自然污染源;土壤剖面中6种重金属均主要以残渣态存在,含量均在50%以上,对生物危害较小;潜在生物可利用性分析结果为:Cu（32.61%） > Mn（31.85%） > Ni（24.90%） > Zn（16.60%） > Cd（15.23%） > Pb（14.87%）,Cu和Mn的潜在生物可利用性较大,其次为Ni,Zn,Cd和Pb潜在生物可利用性较小。