蚯蚓对垃圾与底泥中镉的富集现象

通过蚯蚓处理垃圾及纳污河流底泥实验研究发现蚯蚓可选择吸收并富集垃圾及底泥中的镉，但对其他重金属元素铅、铜、锌等并无此种富集吸收现象。     

Fenton氧化处理对土壤中芘的生物可利用性的影响

研究发现蚯蚓吸收土壤中污染物芘的速率很快,10 d后蚯蚓体内富集污染物浓度基本达到稳定态;土壤中的有机质是影响污染物迁移的重要因素,土壤有机质的含量越高对芘滞留(吸附)能力越强,蚯蚓富集芘的量越低,蚯蚓富集到体内污染物的浓度越低.这也说明土壤对污染物的吸附/解吸行为决定了土壤中污染物的生态风险;氧化处理降低了土壤中的有机质含量,改变土壤有机质的组成,氧化处理也降低了土壤中被吸附污染物芘对蚯蚓的生物有效性.     

利用餐厨和绿化垃圾提高蚯蚓堆肥效率处理剩余污泥的研究

为了显著提高蚯蚓堆肥处理剩余污泥的效率,在实验室条件下进行了掺入不同比例餐厨和绿化垃圾的剩余污泥蚯蚓堆肥试验。在保持剩余污泥占主体的情况下,试验按照剩余污泥：餐厨垃圾：绿化垃圾的质量比（干质量）顺序,共设6个不同配比处理组,分别为100/0/0、90/5/5、80/10/10、70/15/15、70/20/10和70/10/20,各组接种蚯蚓后恒温（25±1）℃暗室培养,中途适时补充基质和水分,试验为期7周。试验结束后,去除未被降解基质,分离并量测蚯蚓质量和数量以及蚓粪质量及其养分含量,并据此量化比较各组蚯蚓堆肥效率。试验结果表明,与纯污泥相比,增加餐厨和绿化垃圾的总比例可以显著加快蚯蚓的生长、成熟和繁殖速度,显著提高对应基质的降解速率和蚓粪生产速率,而且相应蚓粪的养分（总有机碳、全钾）含量也会显著增加（全氮和全磷含量无显著影响）。在保持剩余污泥占70%比例下,掺入15%餐厨垃圾和15%绿化垃圾的组别蚯蚓堆肥处理剩余污泥的效率达到最高（蚓粪的养分含量除外）,并与其他组别相比具有统计显著性。总之,餐厨和绿化垃圾的掺入能够显著提高蚯蚓堆肥处理剩余污泥的效率。     

蚯蚓处理垃圾的试验研究

本文以北京清华园垃圾为饲料,养殖山东海阳“露天红”蚯蚓(Eiseniafoetida)。对盛养容器,垃圾成份、垃圾的预处理条件、养殖的环境条件等进行了试验研究。在试验的条件下,蚯蚓增重倍数:室内盆养日平均为0.3,室外生产性养殖日均0.08,耗饵量为自身重的0.7倍,排粪比平均为0.4,孵化率平均为2条。垃圾中若煤渣成份不超过总量的75％或建筑垃圾不超过50％都可用来养殖蚯蚓。     

开封惠济河水系底泥重金属污染与潜在生态风险评价

以惠济河水系开封段底泥为研究对象,沿河采集75个底泥样品,测定了样品中重金属Cd、Cr、Cu、Ni、Pb和Zn的含量,并采用富集系数法分析重金属富集污染程度和潜在生态风险指数法评价重金属的潜在生态风险.结果表明,惠济河开封段底泥Cd、Cr、Cu、Ni、Pb和Zn平均含量分别为24.51、67.86、290.65、28.46、115.34、1936.95 mg·kg~(-1),远高于我国潮土背景值.富集系数分析表明,底泥各重金属污染程度由高到低依次为:Cd(146.10)Zn(19.62)Cu(9.89)Pb(3.83)Cr(0.89)Ni(0.88),其中Cd、Cu、Zn已显著富集污染,Cr、Ni无明显富集污染.生态风险评价结果表明,底泥各重金属平均潜在生态风险系数的大小顺序依次为:CdCuZnPbNiCr,6种重金属综合潜在生态风险指数(RI)平均值为7259.21,属于很强生态风险,RI"很强"等级样点主要分布在黄汴河、化肥河、惠济河下游及马家河下游河段,镉是最主要的潜在生态风险因子.     

胶州湾某水域蛤蜊(Ruditapes philippinarum)、牡蛎(Crassostrea ariakensis)中的雌激素含量

为了探讨海洋贝类对环境中雌激素的富集情况,采用液-液萃取和固相萃取方法提取了胶州湾李村河入海口蛤蜊、牡蛎和底泥中的雌酮(E1)、雌二醇(E2)、雌三醇(E3)和雌炔醇(EE2),并用GC-MS方法测定了上述4种物质的含量,此外还采用暴露实验方法研究了蛤蜊吸收底泥中雌激素物质的影响因素.测定结果显示,该水域中蛤蜊全组织中E1含量为0.45～5.20ng·g-1,E2含量为nd～4.34ng·g-1,E3和EE2未检出;牡蛎体内的E1、E2和E3含量分别为4.64～29.66、2.16～7.20和0.96～7.96ng·g-1,EE2未检出;底泥中E1、E2和E3含量分别为0.43～2.36、nd～0.59、0.52～1.13ng·g-1,EE2未检出.蛤蜊和牡蛎体内的雌激素物质含量高于其栖息的底泥.暴露实验结果显示,随着底泥中雌激素物质含量的增加或暴露时间增加,蛤蜊体内雌激素物质的含量增加,贝类可吸收并富集底泥中的雌激素物质.     

猪粪、木屑混合物蚯蚓堆制处理中蚓体Cu、Zn富集的影响因素

采用室内接种法,以赤子爱胜蚓（Eisenia fetida）构建生物反应器,研究猪粪、木屑混合物的蚯蚓堆制处理中,蚓体的生长状况及影响其Cu、Zn富集的主要因素。结果表明,接种密度为40 mg.g-1、湿度为75%同时有利于蚯蚓生长和基质消耗;温度为15℃对蚓体质量增加最有利,而温度为20℃最利于基质消耗;m（猪粪）∶m（木屑）为6∶4可同时利于蚓体质量增加和基质消耗。适宜的接种密度（48 mg.g-1）、湿度（70%）、温度（15℃）及较高比例的碳源辅料〔m（猪粪）∶m（木屑）为6∶4〕有利于蚓体对Cu的吸收和富集;低接种密度和高比例碳源辅料有利于蚓体对Zn的吸收,湿度和温度对蚓体Zn含量无显著影响,但蚓体Zn富集量分别在接种密度48 mg.g-1、m（猪粪）∶m（木屑）为6∶4、湿度75%和温度15℃条件下达最大。     

河流底泥污染及其控制与修复

水体底泥污染是世界范围内的一个环境问题。污染物通过大气沉降、废水排放、雨水淋溶与冲刷进入水体,最后沉积到底泥中并逐渐富集,使底泥受到严重污染。在河流环境中,河床沉积底泥以推移和悬浮形式输送,很大程度上导致了上覆水和沉积底泥的相互物理作用。河流有强有力的自然环境,在河流系统中趋向有利于沉积底泥的解吸作用,从而将会影响上覆水的水质。因此,在水质管理计划中,应该将已污染的沉积底泥作为一个污染源予以考虑,沉积底泥是河流污染的一个重要方面。文章根据近年来国内外对河流底泥污染的控制、处理、修复及利用的文献资料,分析了河流底泥的污染现状及主要类型,包括重金属、NP营养物质、难降解有机物和持久性有毒污染物等,指出了目前在底泥污染修复中存在的问题。针对河流底泥污染控制与修复技术,介绍了除控制外源污染物外的物理修复、化学修复和生物修复等几种主要的修复方法和技术,分析了各种方法的利弊以及适用情况。在阐述了堆肥、建材利用、低温热解、湿地及栖息地建设、修复废弃地和建设填方等利用方式后,提出具体的控制和修复应因地制宜,综合各种恢复技术及利用方式,以达到控制及修复污染的河流底泥,恢复河流生态系统之目的。     

重污染河道钝化底泥对紫花苜蓿生长及重金属吸收的影响

河道底泥重金属污染是限制底泥资源化利用的主要因素。采用盆栽实验研究了沈阳细河重污染河道底泥与碱性炉渣和锯木屑配比后养分含量变化及对紫花苜蓿(Medicago sativa L.)生长的影响。结果表明:钝化底泥基质中有机质和养分含量较高,能满足植物初期生长所需养分,但相对保肥能力较低。将底泥采用碱性炉煤渣钝化处理后,钝化底泥基质上紫花苜蓿生物量及株高均显著高于纯底泥处理,其中SD4处理(河道底泥∶燃煤炉渣∶锯木屑=1.0∶1.0∶0.5)中的植株长势最好。所有钝化底泥基质上紫花苜蓿地上部和根部重金属含量极显著降低,而且根部重金属含量显著高于地上部含量。与纯底泥对照相比,钝化底泥基质上紫花苜蓿地上部和根部对重金属Cd、Cu、Pb、Zn的富集系数(BCF)和转移系数(TF)均小于1.0。     

不同基质及硒添加量对蚯蚓生长、繁殖和富硒能力的影响

蚯蚓是潜在的富硒蛋白饲料.在大棚环境条件下采用不同配比的3种农业废弃物(牛粪、菌渣和残余菜叶)和低浓度硒(Na_2SeO_3,0/20/40 mg/kg)对赤子爱胜蚓(Eisenia fetida)进行培养,研究不同培养基质和硒添加量对蚯蚓生长繁殖和富硒能力的影响.结果发现,培养45 d后,与相同浓度硒处理的其他3组基质[纯牛粪、牛粪+菌渣+菜叶(干重比为6/2/2和3/6/1)]相比,牛粪+菌渣组(干重比为1/1)蚯蚓总生物量、蚓茧数、蚓体硒富集量和富集系数均达到最大,其中总生物量比培养前最大增加了18.21%,每100条蚯蚓产蚓茧数量达68.35-72.45个,蚓体硒富集量最高达到151.56mg/kg,蚓体硒富集系数最大为4.91.当硒添加浓度为20 mg/kg和40 mg/kg时,以牛粪+菌渣+菜叶为基质的两组(干重比为6/2/2,3/6/1)在培养初期对蚯蚓活性和培养后的总生物量增加均有一定的抑制作用,蚯蚓总生物量最大降低了8.48%.在不同基质培养条件下,外源添加硒对蚓体硒富集量和硒富集系数增加有促进作用,蚓体硒富集量与基质硒添加量均呈现出剂量-效应关系.上述结果表明,赤子爱胜蚓对硒具有极强的富集能力且培养基质种类对蚯蚓的生长繁殖具有很大的影响,牛粪和菌渣组合(干重比为1/1)是最佳的富硒蚯蚓培养基质且基质硒添加浓度≤40 mg/kg不影响蚯蚓生长繁殖.(图3表4参25)     

Effect of agrochemicals on earthworms

This review describes the toxic effects of agrochemicals on earthworms. Carbamates are described as extremely toxic to earthworms in comparison to organophosphorus insecticides. Some pesticides have drastic effect on the nervous system of the earthworm. Earthworm can accumulate heavy metals from the soil in higher levels than any other animal. Mercury is twenty times more toxic than chromium.     

A simulation model to evaluate the impacts of invasive earthworms on soil carbon dynamics

Recent studies have reported that earthworm invasions alter native communities and impact nutrient cycling in terrestrial ecosystems. We developed a simulation model to evaluate the potential impacts of earthworm invasions on carbon dynamics, taking into consideration earthworm feeding strategies and priming effects on the microorganisms through their casting activities. Responses of carbon stocks (forest litter, soil organic matter, microbial biomass and earthworm populations) and carbon fluxes (litter decomposition, earthworm consumption, and microbial respiration) were used to evaluate an earthworm invasion of a forest ecosystem. Data from a northern temperate forest (Arnot Forest, New York) were adapted for model calibration and evaluation. Simulation results suggest that the impact and outcome of earthworm invasions are affected by pre-invasion resource availability (litter and soil organic matter), invasive earthworm assemblages (particularly feeding strategy), and invasion history (associated with earthworm population dynamics). The abovementioned factors may also determine invasion progress of earthworm species. The accuracy of the model could be improved by the addition of environmental modules (e.g., soil water regimes), precise parameters accounting for individual species attributes under different environmental conditions (e.g. utilization ability of different types of food resources), as well as earthworm population dynamics (size and structure) and interactions with predators and other invasive/indigenous species during the invasion progress. Such an earthworm invasion model could provide valuable evaluation of the complicated responses of carbon dynamics to earthworm invasions in a range of forest ecosystems, particularly under global change scenarios.     

Accumulation and regulation of heavy metals by the intertidal snail Polinices sordidus

The gastropod Polinices sordidus was collected from an uncontaminated area in Quibray Bay, New South Wales, Australia, in 1990. The snails were exposed for 2 wk to polluted sediments collected from Port Kembla Harbour, Blackwattle Bay, Lake Illawarra, Lake Macquarie in New South Wales, Australia, and the Derwent River in Tasmania, Australia. Metal accumulation and regulation by this species were evaluated. Metal concentrations in snail tissues and total, EDTA and HCl-extractable metals in the sediments were compared. Copper concentrations were extremely varied in snails exposed to the same sediment. This was not the case for other matals tested. No accumulation of copper was found in snails exposed to different sediments. There was no zinc accumulation from sediments containing less then 10 mg Zn/g. P. sordidus could accumulate lead, manganese and iron from some of the sediments. Manganese concentrations in the snail tissues correlated with total, HCl-extractable and, more significantly, EDTA-extractable Mn in the sediments. P. sordidus was not considered to be a good bioindicator of copper and zinc contaimination in sediments; however, this species could be used as an indicator of lead and manganese contamination.     

施垃圾堆肥拌CaCO3对蔬菜中重金属的累积影响

垃圾堆肥拌施ＣａＣＯ３对蔬菜中重金属的累积效应试验结果显示：单施垃圾肥会增加蔬菜中重金属的累积量，但若施垃圾堆肥同时拌施ＣａＣＯ３（按施垃圾堆肥量的０．５％或１％），则可有效地降低蔬菜中重金属的累积水平．与单施垃圾堆肥相比，拌施ＣａＣＯ３能使番茄中Ｐｂ含量下降２９％－４１％；Ｃｒ下降５％－４６％，Ｃｄ下降９％－４２％；Ｃｕ下降２％－２４％；ＡＳ下降４％－６０％；有的元素如Ｐｂ和Ｃｄ甚至能降到本底值（即不施垃圾肥者）以下。青菜中Ｐｂ、Ｃｕ、Ａｓ的含量下降较明显。试验还显示：施垃圾堆肥拌施ＣａＣＯ３，土壤中重金属可提取总量低于单施垃圾堆肥者。     

Impact of soil types and petroleum effluents on the earthworm, Eudrilus eugeniae

Earthworm, Eudrilus eugeniae, exposed to different concentrations of dump-site soil and petroleum effluents exhibited different morbidity and mortality responses. Lake sediments caused varied fluctuations in weight over a 20 day exposure period. Colour changes and mortality up to 15% were observed in earthworms cultured in 100% lake sediment, while weight loss, coiling and sluggish movement were observed in 50% lake water. The effects of 100% dump-site soils were more pronounced as 40% death, swelling, body lesions, stiffening, coiling and low reproduction were recorded. Earthworms were useful as an organism in testing the toxicity of dump-site soils and effluent from a petroleum industry. Dump-site soils and soils polluted with petroleum effluent reduced populations of earthworms and this could subsequently affect other components of the ecosystems associated with earthworm activities.     

Untersuchungen zum ökotoxikologischen Schädigungspotenzial und Erosionsrisiko von kontaminierten Sedimenten in staugeregelten Flüssen

Particle-bound pollutants accumulate in river-bottom sediments, a process which results in a significant decrease in the ecotoxicological availability of toxicants for the majority of aquatic organisms. Under normal hydrologic conditions, the release of contaminants from bottom sediments is usually of minor importance. In contrast, flood events may remobilize highly contaminated sediments via in-stream erosion. The objective of this study was to develop a combined ecotoxicological and hydraulic approach to elucidate the ecotoxicological implications associated with the risk of erosion of contaminated sediments. This integrated strategy was applied to the lock-regulated Neckar river in Southern Germany. Both the bottom-sediment cores and suspended matter from two intensive flood events were investigated. Sediment samples below an erosional unconformity showed a sharp increase in the ecotoxicological load. Moreover, it was found that major flood events (HQ₅ and higher) could possibly erode even very old, well-consolidated and highlycontaminated sediments. The suspended matter of the high discharge events investigated (return periods of 15 to 20 years) exerted significantly higher cytotoxicity and mutagenicity than a moderate flood with a 1-year return period. These findings support the conclusion that the observed ecotoxicological effects during major floods may at least in part be due to the in-stream erosion of highly contaminated bottom sediments.     

环毛蚓在高羊茅修复土壤菲污染过程中的作用

为了解土壤动物在植物修复多环芳烃类化合物过程中的作用,采用盆栽试验法,对比研究了蚯蚓（Pheretima sp．）活动对高羊茅（Festuca arundinacea）修复土壤菲污染的影响效应以及各种生物、非生物因子在植物修复菲污染过程中的作用。结果显示,在20．05-322．06mg·kg^-1菲污染水平范围内,与相同污染水平下无蚯蚓作用的菲污染土壤中生长的植株相比,蚯蚓活动促进修复植物高羊茅的生长：试验期间（72d）,修复植物的单株生物量增加9．74％～21．53％,根冠比增加17．26％～21．44％。添加蚯蚓72d后,种植高羊茅的菲污染土壤中,菲的去除率高达61．70％～88．78％,其平均去除率（77．38％）比无蚯蚓活动的土壤-植物系统中的（68．36％）提高了9．02％,比无植物生长的对照组土壤（22．57％）提高54．81％。各种生物（如植物代谢、植物积累、动物积累、微生物降解、植物．微生物交互作用等）、非生物（如渗滤、吸附、光解、挥发等）因子中,植物．微生物交互作用对菲去除的平均贡献率（47．81％）最为突出,比无蚯蚓活动时（42．08％）提高5．73％。说明蚯蚓活动可强化土壤．植物系统对土壤菲污染的修复作用。     

沉积物中2,2',4,4'-四溴联苯醚(BDE-47)在铜锈环棱螺体内的毒代动力学及其繁殖毒性

多溴联苯醚(PBDEs)是一种全球性的新型持久性有毒污染物,沉积物中高浓度的PBDEs是水生态系统的巨大风险源,2,2’,4,4’-四溴联苯醚(BDE-47)在PBDEs同系物中,目前分布最广,生物毒性最强。为评价沉积物中BDE-47向底栖动物体内转移的潜力及其对底栖动物的潜在繁殖毒性,将实验室培养的铜锈环棱螺(Bellamya aeruginosa)暴露于BDE-47加标沉积物中,研究了BDE-47在铜锈环棱螺体内的毒代动力学特性及其对铜锈环棱螺潜在繁殖力的影响。结果表明,铜锈环棱螺对沉积物中BDE-47吸收较快,代谢速度相对较慢,BDE-47在铜锈环棱螺体内具有较强的生物积累性。生物积累达理论平衡时,铜锈环棱螺体内BDE-47浓度为1440.67ng·g-1(以样品干质量计)。BDE-47在铜锈环棱螺体内的生物积累和生物净化过程较好地符合一级动力学模型,摄入速率常数、清除速率常数和生物-沉积物累积因子分别为0.10、0.038和2.75,生物半衰期为18d。铜锈环棱螺体内BDE-47达到90%稳定状态所需的理论时间约为60d。低浓度BDE-47(160ng·g-1)暴露对铜锈环棱螺的潜在繁殖力没有影响,但当浓度≥640ng·g-1时,铜锈环棱螺的繁殖力下降50%,这表明BDE-47对铜锈环棱螺具有繁殖毒性。铜锈环棱螺可作为指示沉积物中底栖生物长期暴露于BDE-47的良好检测模型。     

秸秆不同还田方式下蚯蚓对旱作稻田土壤碳、氮的影响

通过两年的田间小区试验，研究了在秸秆的不同施用方式下，蚯蚓(Pheretima sp)对旱作水稻土壤中碳、氮的影响。设置5个处理：秸秆混施，秸秆深施 蚯蚓，秸秆表施，秸秆表施 蚯蚓，对照。2001年夏季播种旱稻，在4个主要生育期采集(0-20cm)土样。2002年再次播种该品种旱稻，采集成熟期(0-20cm)土壤。测定土壤碳、氮以及微生物量碳、氮。结果表明，不论采用何种秸秆还田方式，蚯蚓并不造成土壤有机碳和全氮显著耗减。蚯蚓活动对土壤氨态氮及硝态氮的影响较大；从总体上看，它促进了土壤氮的矿化。不同秸秆施用方式都影响蚯蚓对土壤微生物的作用，在表施秸秆情况下，蚯蚓对微生物量提高最显著。