重金属铬(Ⅵ)和铅对南京土壤中赤子爱胜蚓生长及繁殖的影响

以南京化学工业园的土壤为研究对象,分析土壤中重金属Cr(Ⅵ)和Pb对赤子爱胜蚓(Eisenia fetida)生长及繁殖的影响.结果表明,与对照组比较,暴露28 d时,较低浓度的Cr(Ⅵ)(4—8 mg·kg-1)和Pb(1000—1500 mg·kg-1)能促进赤子爱胜蚓的生长发育,而较高浓度的Cr(Ⅵ)(32—64 mg·kg-1)和Pb(3000 mg·kg-1)则显著抑制赤子爱胜蚓的生长发育;赤子爱胜蚓的产茧量随着Cr(Ⅵ)和Pb浓度的升高被显著抑制,其中,Cr(Ⅵ)抑制赤子爱胜蚓产茧量的EC50(半数有效浓度)、NOEC(无观察效应浓度)和LOEC(最低观察效应浓度)分别为22.86(20.56—25.42)、8、16 mg·kg-1.Pb抑制赤子爱胜蚓产茧量的EC50、NOEC和LOEC分别为2280.34(2200.90—2362.65)、1500、2000 mg·kg-1;与人工土壤中Cr(Ⅵ)和Pb对赤子爱胜蚓产茧量的28 d-EC50有显著性差异.     

利用三油酸甘油酯-醋酸纤维素复合膜评价土壤中多环芳烃的生物可利用性

将一种新型被动式采样器——三油酸甘油酯-醋酸纤维素复合膜(TECAMs)暴露于10种人工老化土壤中富集萘、菲、芘和苯并[a]芘4种多环芳烃(PAHs),并与土壤模型动物——赤子爱胜蚓(Eiseniafoetida)进行比较以研究该采样器用于评价土壤中多环芳烃生物可利用性的可能性.研究结果表明,TECAMs能有效富集土壤中萘、菲、芘和苯并[a]芘,并在48h内基本达到平衡,远快于赤子爱胜蚓的21d平衡时间.TECAMs内PAHs含量与土壤溶解有机碳(DOC)含量呈正相关(p<0.05),而与土壤中总有机质(TOM)含量呈负相关(p<0.05),土壤pH对TECAMs富集PAHs的影响不显著(p<0.05).TECAMs内PAHs含量与土壤中PAHs含量、赤子爱胜蚓体内PAHs含量均呈显著线性正相关(p<0.05,p<0.01).研究结果表明TECAMs有可能应用于评价土壤中PAHs的生物可利用性.     

土壤Cu、Cd污染对两种蚯蚓种的急性毒性

通过室内模拟重金属Cu、Cd污染实验,测定了在黄泥土条件下赤子爱胜蚓和威廉环毛蚓的急性毒性效应以及体内累积量.结果表明,赤子爱胜蚓体内Cd累积量与土壤Cd浓度呈显著正相关,赤子爱胜蚓和威廉环毛蚓体内Cu累积量在土壤Cu浓度200～392mgkg-1时呈上升趋势,在Cu浓度392～1075.6mgkg-1时呈下降趋势;威廉环毛蚓体内Cd累积量在土壤Cd浓度200～548.8mgkg-1时呈上升趋势,在Cd浓度548.8～1505.8mgkg-1时呈下降趋势.赤子爱胜蚓和威廉环毛蚓的LC50(Cu)分别为387～555mgkg-1和412～653mgkg-1,LC50(Cd)分别为809～1138mgkg-1和708～1030mgkg-1.总体来看,威廉环毛蚓对重金属Cu的累积能力以及耐受性均强于赤子爱胜蚓,而赤子爱胜蚓对Cd的耐受性强于威廉环毛蚓,但累积能力低于威廉环毛蚓.图4表1参25     

山东省主要类型土壤重金属的径流迁移系数研究

本研究借助于GIS的空间分析功能求得研究区域的坡度等影响土壤流失的因素,采用修正的土壤流失计算模型(RUSLE),探讨研究区域耕地土壤侵蚀量。结果表明,土壤侵蚀量分别是长清的褐土为6128t·km-2·a-1,商河的潮土为2659t·km-2·a-1,泰安的潮棕壤为5147t·km-2·a-1。采用合适的计算公式,在土壤中重金属为中等浓度时,褐土各重金属的径流迁移系数除Zn为2.73%外,其余均为2.72%,潮土除Pb为1.18%外,其余均为1.19%,潮棕壤Cu和Pb为2.29%,Zn和Cd为2.30%。     

凡口铅锌矿湿地系统沉积物中重金属的分布

研究了用于处理凡口铅锌矿选矿废水的宽叶香蒲(Typha latifolia)人工湿地系统沉积物中重金属Pb、Zn、Cu和Cd的分布。沉积物略呈碱性,在各层沉积物中,DTPA-Zn质量分数高于DTPA-Pb质量分数。冬季(11~12月)湿地系统中3个处理池进水口的沉积物结合水中的Pb、Zn、Cu和Cd质量分数与春季(1~3月)的相比较,有显著的差异。湿地处理系统中Pb、Zn、Cu和Cd主要沉积在表层土壤中;但3个处理池入水口和出水口不同深度的沉积物pH值没有显著差异(p<0.05),表明pH值与重金属含量并不存在相关性。     

壬基酚聚氧乙烯醚暴露下赤子爱胜蚓（Eisenia foetida）的生理损伤

利用急性接触试验和人工土壤试验分别研究了壬基酚聚氧乙烯醚（NPEO）对赤子爱胜蚓（Eisenia foetida）的致死性和氧化损伤.急性接触试验结果显示,NPEO对赤子爱胜蚓的48 h毒性半致死剂量p（48 h,LD50）为0.58 mg·L^-1;人工土壤试验结果显示,NPEO可诱导赤子爱胜蚓CAT酶活力、GST酶活力、GSH含量和氧化产物（MDA）含量上升,暴露28 d时,NPEO浓度与赤子爱胜蚓CAT酶活力、GST酶活力、GSH含量和MDA含量呈正相关,且均存在显著的剂量-效应关系（P＜0.05）,NPEO剂量增加对赤子爱胜蚓SOD酶活性和Cu-Zn SOD酶活性有轻微抑制作用.以上结果表明NPEO在亚致死暴露浓度下＜0.50 mg· kg^-1）会对赤子爱胜蚓产生生理胁迫并导致一定程度的氧化损伤.     

我国典型土壤上重金属污染对番茄根伸长的抑制毒性效应

采用盆栽试验观测了我国3种典型土壤——黄泥土、褐土、红壤上不同重金属(铜、锌、铅)作用下敏感植物番茄的根伸长,其中黄泥土和褐土上重金属添加量范围为Cu(0～2000mg·kg-1)、Zn(0～4000mg·kg-1)和Pb(0～5000mg·kg-1),红壤上为Cu(0～400mg·kg-1)、Zn(0～750mg·kg-1)和Pb(0～2000mg·kg-1).对不同土壤上Cu、Zn、Pb对番茄的根伸长抑制率进行了比较,以阐明不同土壤上重金属种类及用量对蔬菜根生长的抑制及毒性效应.结果表明,相同Cu、Zn、Pb污染水平(添加量)下,土壤中重金属对番茄的根伸长抑制率大小顺序基本表现为:红壤>黄泥土>褐土.番茄对红壤中的重金属最敏感,其次是黄泥土,再次是褐土.番茄对不同重金属的毒性响应不同,对Cu最敏感,Zn和Pb次之.土壤中有效态重金属含量与番茄根伸长呈显著(p<0.05)或极显著(p<0.01)负相关,表明有效态重金属含量是影响蔬菜根伸长的重要因素.     

壬基酚对赤子爱胜蚓的生态毒理学研究

环境激素对生态的影响越来越受到人们的重视。通过赤子爱胜蚓对壬基酚的滤纸接触法毒性试验,从分子水平揭示环境污染物对蚯蚓组织的毒性影响。在壬基酚对赤子爱胜蚓(Eiseniafoetida)的急性毒性试验中,测得72hLC50为0.908μg/cm2。在系列浓度的壬基酚暴露中,过氧化氢酶(Catalase,CAT),超氧化物歧化酶(Superoxidedismutase,SOD)和谷胱甘肽硫转移酶(GlutathioneS-transferase,GST)的敏感性依次为CAT>SOD>GST。实验结果表明,这三种酶均可作为早期NP污染预警指标。     

邻苯二甲酸二异辛酯致赤子爱胜蚓体细胞氧化损伤的研究

以赤子爱胜蚓为实验材料,探讨了邻苯二甲酸二异辛酯(DEHP)对赤子爱胜蚓(Esisenia foelide)的毒性.DEHP染毒剂量:0、0.2、0.4、0.8、1.6mmol·L-1,染毒2h后采用KCl-SDS沉淀法检测细胞匀浆DNA-蛋白质交联(DPC)系数,硫代巴比妥酸法检测丙二醛(MDA)含量.结果表明:随着DEHP染毒浓度的增加,赤子爱胜蚓细胞匀浆的DPC系数显著升高(F=14.1,p<0.01),并具有剂量-效应关系(r=0.8877,p<0.05),而MDA含量变化不显著,各染毒组与对照组之间不存在显著性差异(F=0.27,p>0.05).以上结果表明,实验浓度的DEHP暴露可使赤子爱胜蚓体细胞发生显著的DNA蛋白质交联,具有遗传毒性.     

土壤镉污染对赤子爱胜蚓(Eisenia fetida)和加州腔蚓(Metaphire californica)体表角质层的影响

利用镉(Cd)污染土壤(0.15、7.28、13.53、16.45 mg?kg~(-1))在室内培养赤子爱胜蚓(Eisenia fetida)和采集野外原位污染(0.84、2.17、5.16、6.38、9.83 mg?kg~(-1))土壤中的加州腔蚓(Metaphire californica),使用JEM~(-1)230型透射电镜观察不同质量分数Cd污染土壤对赤子爱胜蚓与加州腔蚓体表角质层超显微结构的影响,分析其与土壤中Cd的关系,探寻其在Cd污染条件下的变化规律,并对蚯蚓体壁在防御重金属毒性中的作用进行初步研究,旨在揭示Cd长期污染条件下蚯蚓的生态适应性,为正确地开展土壤污染生态风险评价提供科学依据。研究结果表明,在Cd低污染条件下赤子爱胜蚓(Cd7.28mg?kg~(-1))和加州腔蚓(Cd5.16 mg?kg~(-1))上角质层突起(微绒毛)排列较为整齐有序,在Cd高污染条件下其上角质层突起变得稀疏无序,并且污染严重时会出现颗粒化或缺失现象。赤子爱胜蚓和加州腔蚓的角质层均随着土壤Cd质量分数及蚯蚓体内Cd的质量分数的升高呈现出先增厚后变薄的变化规律,且在各处理条件下都能正常生存。由此可知,在Cd污染土壤中,不同种的蚯蚓可以通过调节角质层厚度来适应受污染的土壤环境。     

Lethal critical body residues as measures of Cd,Pb, and Zn bioavailability and toxicity in the earthworm<Emphasis Type="Italic">Eisenia fetida</Emphasis>

Background

Earthworm heavy metal concentrations (critical body residues, CBRs) may be the most relevant measures of heavy metal bioavailability in soils and may be linkable to toxic effects in order to better assess soil ecotoxicity. However, as earthworms possess physiological mechanisms to secrete and/or sequester absorbed metals as toxicologically inactive forms, total earthworm metal concentrations may not relate well with toxicity.

Objective

The objectives of this research were to: i) develop LD₅₀s (total earthworm metal concentration associated with 50% mortality) for Cd, Pb, and Zn; ii) evaluate the LD₅₀ for Zn in a lethal Zn-smelter soil; iii) evaluate the lethal mixture toxicity of Cd, Pb, and Zn using earthworm metal concentrations and the toxic unit (TU) approach; and iv) evaluate total and fractionated earthworm concentrations as indicators of sublethal exposure.

Methods

Earthworms (Eisenia fetida (Savigny)) were exposed to artificial soils spiked with Cd, Pb, Zn, and a Cd?Pb?Zn equitoxic mixture to estimate lethal CBRs and mixture toxicity. To evaluate the CBR developed for Zn, earthworms were also exposed to Zn-contaminated field soils receiving three different remediation treatments. Earthworm metal concentrations were measured using a procedure devised to isolate toxicologically active metal burdens via separation into cytosolic and pellet fractions.

Results and Discussion

Lethal CBRs inducing 50% mortality (LD₅₀, 95% CI) were calculated to be 5.72 (3.54–7.91), 3.33 (2.97–3.69), and 8.19 (4.78–11.6) mmol/kg for Cd, Pb, and Zn, respectively. Zn concentrations of dead earthworms exposed to a lethal remediated Zn-smelter soil were 3-fold above the LD₅₀ for Zn and comparable to earthworm concentrations in lethal Zn-spiked artificial soils, despite a 14-fold difference in total soil Zn concentration between lethal field and artificial soils. An evaluation of the acute mixture toxicity of Cd, Pb, and Zn in artificial soils using the Toxic Unit (TU) approach revealed an LD₅₀ (95% CI) of 0.99 (0.57–1.41) TU, indicating additive toxicity.

Conclusions

Total Cd, Pb, and Zn concentrations in earthworms were good indicators of lethal metal exposure, and enabled the calculation of LD₅₀s for lethality. The Zn-LD₅₀ developed in artificial soil was applicable to earthworms exposed to remediated Zn-smelter soil, despite a 14-fold difference in total soil Zn concentrations. Mixture toxicity evaluated using LD₅₀s from each single metal test indicated additive mixture toxicity among Cd, Pb, and Zn. Fractionation of earthworm tissues into cytosolic and pellet digesis yielded mixed results for detecting differences in exposure at the sublethal level.

Recommendation and Outlook

CBRs are useful in describing acute Cd, Pb, and Zn toxicity in earthworms, but linking sublethal exposure to total and/or fractionated residues may be more difficult. More research on detoxification, regulation, and tissue and subcellular partitioning of heavy metals in earthworms and other invertebrates is needed to establish the link between body residue and sublethal exposure and toxicity.

     

Biosolids application affects the competitive sorption and lability of cadmium,copper, nickel,lead, and zinc in fluvial and calcareous soils

The objective of this research was to investigate the effects of biosolids on the competitive sorption and lability of the sorbed Cd, Cu, Ni, Pb, and Zn in fluvial and calcareous soils. Competitive sorption isotherms were developed, and the lability of these metals was estimated by DTPA extraction following their sorption. Sorption of all metals was higher in the fluvial than in the calcareous soil. Sorption of Cu and Pb was stronger than that of Cd, Ni, and Zn in all soils. Biosolids application (2.5%) reduced the sorption of all metals especially Cu and Pb (28–43%) in both soils (especially the calcareous soil) at the lower added metal concentrations (50 and 100 mg L^?1). However, it increased the sorption of all metals especially Pb and Cu in both soils (especially the calcareous soil; 15.5-fold for Cu) at the higher added concentrations (250 and 300 mg L^?1). Nickel showed the highest lability followed by Cd, Zn, and Pb in both soils. Biosolids increased the lability of the sorbed Ni in the fluvial soils at all added concentrations and the lability of Cd, Pb, and Zn at 50 mg L^?1, but decreased the lability of Cd, Pb, and Zn at 250 and 300 mg L^?1 in both soils. We conclude that at low loading rate (e.g., 50 mg L^?1) biosolids treatment might increase the lability and environmental risk of Cd, Cu, Pb, and Zn. However, at high loading rate (e.g., 300 mg L^?1) biosolids may be used as an immobilizing agent for Cd, Cu, Pb, Zn and mobilizing agent for Ni.     

10种常用农药对赤子爱胜蚓(Eisenia foetida)的急性毒性效应

为了评价农药对土壤无脊椎动物种群的生态风险,采用OECD标准滤纸法和人工土壤法测定了10种常用农药对蚯蚓(Eisenia foetida)的急性毒性效应。采用滤纸法,48h测定结果表明,4种氨基甲酸酯类(异丙威、甲萘威、速灭威和丁硫克百威)和2种有机磷类(毒死蜱和哒嗪硫磷)农药对蚯蚓的急性毒性(其LC50值为3.50(2.77～4.44)～72.42(59.58～88.05)μg·cm-2)明显高于3种昆虫生长调节剂(噻嗪酮、虫酰肼和呋喃虫酰肼)和吡蚜酮对蚯蚓的急性毒性(其LC50值>629.1μg·cm-2)。采用人工土壤法,14d测定结果表明,上述4种氨基甲酸酯类农药对蚯蚓的急性毒性(其LC50值为59.61(55.13～64.44)～134.1(127.0～141.5)mg·kg-1)明显高于上述2种有机磷类农药和其他农药对蚯蚓的急性毒性(其LC50值为193.0(180.1～206.8)～386.4(359.7～414.2)mg·kg-1)。上述结果表明,不同类型的农药对蚯蚓的毒性存在较大差异,且同一类型的不同农药品种对蚯蚓的毒性也存在较大差异。总体来看,氨基甲酸酯类农药比其他类型的农药对蚯蚓具有更高的毒性。根据《化学农药环境安全评价试验准则》,本研究采用人工土壤法测定的所有农药对蚯蚓均为低毒级。     

贵州省典型矿区土壤重金属污染对蚯蚓的毒性效应评估

选取我国贵州省某矿区典型的重金属复合污染土壤开展28 d慢性毒性暴露试验,以蚯蚓体内2种抗氧化酶活性——过氧化氢酶(CAT)和超氧化物歧化酶(SOD)、8-羟基脱氧鸟苷(8-ODHG)和金属硫蛋白(MT)含量为生物指标,评估了以上生物指标与土壤重金属含量的相关性,探讨该研究方法用于矿区土壤重金属生态风险评估的可行性。结果表明,CAT和SOD在暴露周期内均出现先诱导后抑制的动态响应过程,表明蚯蚓通过提高CAT和SOD的活性来清除机体因污染胁迫而产生的自由基,以适应环境变化,在毒性缓解后,蚯蚓体内代谢产物的积累抑制了抗氧化氢酶活性,CAT和SOD活性下降并趋于稳定。暴露于重金属污染亚致死浓度时,蚯蚓体内的8-OHDG含量随着暴露时间的延长显著降低,随着暴露浓度的增加,损伤存在由低到高的转变。在28 d暴露周期内,蚯蚓体内MT在重金属胁迫下发挥了解毒作用,MT含量在蚯蚓暴露后第7天增加,随后逐渐降低。本文基于生物毒性试验综合评估了矿区典型重金属污染土壤的生态风险,研究结果对指导重金属复合污染土壤的修复与再利用具有重要意义。     

蚯蚓和堆肥固定化添加模式对漆酶降解土壤五氯酚的影响

利用土壤五氯酚（PCP）污染模拟实验,研究两种不同生态型蚯蚓（赤子爱胜蚓Eisenia foetida和壮尾环毛蚓Amynthas robustus E.Perrie）和堆肥固定化添加模式对漆酶降解土壤PCP的影响。在42 d培养期内,测试了不同处理下PCP质量分数、漆酶活性,以及土壤呼吸和微生物碳氮等微生物指标。结果表明：堆肥固定化漆酶降解土壤PCP的效果优于壳聚糖固定化漆酶和自由漆酶,主要原因是堆肥固定化漆酶能够有效地提高漆酶稳定性,减缓其活性下降速度。此外,堆肥还能提高土壤微生物的数量与活性,显著提升土壤漆酶的活性。添加两种生态型蚯蚓对漆酶活性影响不显著,但均可以显著提高土壤微生物的数量与活性,加速土壤中PCP的降解。壮尾环毛蚓对土壤微生物数量与活性的提升效果优于赤子爱胜蚓。     

Evaluation of tests to assess the quality of mine-contaminated soils

An acid metal-contaminated soil from the Aljustrel mining area (a pyrite mine located in SW Portugal in the Iberian Pyrite Belt) was subjected to chemical characterisation and total metal quantification (Cd, Cr, Cu, Ni, Pb and Zn). Water-soluble metals were determined and a sequential extraction procedure was used to investigate metal speciation. Two bioavailable metal fractions were determined: a mobile fraction and a mobilisable fraction. Soil ecotoxicity was studied using a battery of bioassays: plant growth test and seed germination with cress (Lepidium sativum L.), earthworm (Eisenia fetida) mortality, E. fetida avoidance behaviour, luminescent inhibition of Vibrio fischeri and Daphnia magna immobilisation. Although the total content of Cu, Zn and Pb in the soil was large (362, 245 and 1,250 mg/kg dry matter, respectively), these metals were mostly structurally bound (87% for Cu, 81% for Zn and 89% for Pb) and, therefore, scarcely bioavailable. Nonetheless, the D. magna immobilization test using soil leachate showed an EC₅₀ (48 h) of 36.3% (v/v), and the luminescent inhibition of V. fischeri presented an EC₂₀ (15 min) of 45.2% and an EC₂₀ (30 min) of 10.7% (v/v), suggesting a considerable toxic effect. In the direct exposure bioassays, E. fetida avoided the mine soil at the highest concentrations (50%, 75% and 100% v/v). At the same soil concentrations, cress showed negligible growth. The results suggest the need to use a battery of toxicity tests, in conjunction with chemical methods, in order to assess the quality of mine-contaminated soils correctly.     

铜暴露下赤子爱胜蚓（Eisenia foetida）活体基因的损伤研究

通过碱性单细胞凝胶电泳法研究了Cu2+暴露剂量对赤子爱胜蚓(Eiseniafoetida)活体基因损伤的动态影响.结果显示:不添加Cu2+的对照组和添加Cu2+的处理组蚯蚓体腔细胞尾部DNA含量和尾长均呈非正态分布(p<0.05);在暴露72h时,125mg·L-1Cu2+处理组尾部DNA含量值最大,为41.44%,100mg·L-1Cu2+处理组尾长值最大,为33.79μm;随着Cu2+暴露剂量的增加,尾部DNA含量和尾长损伤频率增加;对照组和处理组的尾部DNA含量和尾长之间均存在显著性差异(p<0.05),Spearman非参数相关分析表明,尾部DNA百分含量和尾长之间呈显著相关(p<0.01,n=21),Cu2+暴露浓度与尾部DNA百分含量、尾长具有良好的剂量-构效关系(p<0.01).在125mg·L-1Cu2+浓度下暴露72h时蚯蚓的基因损伤程度达到最大,损伤程度为3级.可见,蚯蚓DNA生物标志物是重金属污染基因毒理诊断的重要指标,碱性SCGE试验是检测Cu2+暴露对赤子爱胜蚓活体基因损伤的有效手段.     

亚硒酸钠对蚯蚓的毒性及蚓体富硒作用的研究

以100mgkg^-1,200mgkg^-1,300mg kg^-1等不同质量分数（w)的亚硒酸钠（NaSeO2)添加到蚯吲饵料中,研究了亚硒酸钠处理对蚯蚓生长发育及死亡的影响和蚯蚓的富硒作用,结果表明,3个w(NaSeO2)处理对蚯蚓生长发育和富硒量的影响都达到极显著水平,w(NaSeO2)越高,用其处理饲养的蚯蚓死亡率也较高,富硒量也较大,二者存在一定的正相关性,在200mg kg^-1的w(NaSeO2)处理下,当蚯蚓饲养到84d时,蚯蚓的富硒量可达到332．5mg kg^-1,同时死亡率高达90％。     

Assessment of As and Heavy Metal Contamination in the Vicinity of Duckum Au-Ag Mine, Korea

In order to assess the potential of As and heavy metal contamination derived from past mining activity and to estimate the human bioavailability quotients for As and heavy metals. Tailings, soils and crop samples were collected and analysed for As, Cd, Cu, Pb and Zn. The mean concentrations of As, Cd, Cu, Pb and Zn in the tailings were 68.5, 7.8, 99, 3,754 and 733 µg g^–1, respectively. Maximum Pb concentration in tailings was up to 90 times higher than its tolerable level. The concentrations of these metals were highest in the soils from the dressing plant area, and decreased in the order: farmland soil to paddy soil. In particular, some of the soils from the dressing plant area contained more than 1% of Pb and Zn. The pollution index ranged from 0.19 to 1.93 in paddy soils, and from 1.47 to 3.60 in farmland soils. The average concentrations of heavy metals in crops collected from farmland were higher than those in rice stalks or rice grains, and higher than the internationally accepted limits for vegetables. Element concentrations extracted from farmland soils within the simulated human stomach for 1 h are 9.4 mg kg^–1 As, 3.8 mg kg^–1 Cd, 37 mg kg^–1 Cu, 250 mg kg^–1 Pb and 301 mg kg^–1 Zn. In particular, the extracted concentrations of Cd, Pb and Zn are in excess of the tolerable levels. The results of the simple bioavailability extraction test (SBET) indicate that regular ingestion (by inhalation and from dirty hands) of soils by the local population could pose a potential health threat due to long-term toxic element exposure.