基于大型底栖动物群落的上海市河道水质生物学评价

2011年夏秋季,在上海市全境83个河道断面开展了河道底栖动物采样,共获取底栖动物20个分类单位（种）。9个极严重污染断面未采集到活体生物,生境基本丧失。其余74个有活体生物断面,采用三种常用生物指数：Shannon-Wiener多样性指数、Hilsenhoff耐污指数、Goodnight修正指数分别进行计算及评价。Shannon-Wiener多样性指数判别为25个严重污染和49个重污染断面;Hilsenhoff耐污指数划分38个重污染、5个中污染和31个轻污染断面;Goodnight修正指数划分33个重污染、2个中污染和39个轻污染断面。与典型河道断面的水质理化指标监测值进行对照,Shannon-Weiner多样性指数对河道水质评价的准确度较低,Hilsenhoff生物指数和Goodnight修正指数的水质评价效率及准确度均较高,断面污染等级与水质理化指标基本对应。     

基于大型底栖无脊椎动物群落的上海市河道水质生物学评价

2011年夏秋季,在上海市全境83个河道断面开展了大型底栖无脊椎动物采样,共获取底栖动物20个分类单位(种).9个极严重污染断面未采集到活体大型底栖生物,生境基本丧失.其余74个有活体生物断面,采用三种常用生物指数:Shannon-Wiener多样性指数、Hilsenhoff耐污指数、Goodnight修正指数分别进行计算及评价.Shannon-Wiener多样性指数判别为25个严重污染和49个重污染断面;Hilsenhoff耐污指数划分38个重污染、5个中污染和31个轻污染断面;Goodnight修正指数划分33个重污染、2个中污染和39个轻污染断面.与典型河道断面的水质理化指标监测值进行对照,Shannon-Weiner多样性指数对河道水质评价的准确度较低,Hilsenhoff生物指数和Goodnight修正指数的水质评价效率及准确度均较高,断面污染等级与水质理化指标基本对应.     

太湖水质评价中底栖动物综合生物指数的筛选及生物基准的确立

对太湖8个区域共60样点进行底栖大型无脊椎动物采样,共获得底栖动物24种,其中软体动物14种,节肢动物5种,甲壳动物5种.根据Hilsenhoff 生物指数确定了15个相对清洁的样点和45个污染样点,然后进行21种生物指数的综合评估,结果表明,总分类单元数、(甲壳动物 软体动物)分类单元数、%(甲壳动物 软体动物)、%腹足纲、Goodnight-Whitley指数、Hilsenhoff 生物指数和%直接收集者等7个底栖动物生物指数可以用作判别太湖水质的敏感生物指数.通过5, 3, 1记分法对6种生物指数统一量纲后,获得变化范围为7～35的综合生物指数,运用四分法划分了太湖水质判别的生物基准:7～14很差,15～21差,22～28一般,29～35好,并对60个样点进行重新记分,获得了太湖水质的基本生态分区现状,太湖的东南区属水质较好的区域,而西北区属水质较差的区域.该水质生物基准基本适合评价太湖不同区域的水质状况.     

东莞市东部工业园水生态环境质量评价

对东莞市东部工业园水系的浮游藻类、浮游动物、底栖生物和水质物理化学指标进行调查和评价.3个断面共监测到浮游藻类6门56属71种;浮游动物3个门共14种;底栖动物5种.利用叶绿素a、藻类数量单项指标、生物多样性指数和水质的理化指标对水系各断面水质进行综合评价,结果显示:东引运河横沥断面和企石排污口断面水体属于中度污染,而常平排污口断面污染严重且存在较强的非营养型污染:河流沉积物污染较水体污染严重;对水体的理化污染监测分析结果与生态评价相吻合,生态评价具有较好的准确性和灵敏性.因此,工业园区的建设与运营应严格做好废水的处理工作,有效保护工业园区水系的生态环境.     

松花江流域大型底栖动物群落结构与水质评价

【目的】松花江流域是中国最早的工业基地之一,其水生态环境遭到严重破坏,环境保护工作面临巨大挑战。开展松花江流域水质评价及典型生物类群多样性状况调查,可为松花江流域生态系统的保护和修复提供依据。【方法】于2016年7月调查整个松花江流域近岸的大型底栖动物群落组成和测定水质理化指标,开展其水质理化特征评价和生物指数评价,并探讨底栖动物群落分布与水环境因子间的关系。【结果】理化指标评价结果显示,南源松花江水质状况最差,处于中度污染;北源松花江处于轻度污染;梧桐河水质最好,处于良好状态。松花江流域3个河段的底栖动物群落结构存在空间差异性。另外,梧桐河的物种多样性最高,北源松花江次之,南源松花江最低。溶解氧和营养元素K的浓度是驱动底栖动物群落组成发生显著性差异的主要环境因子。生物指数评价结果显示,3个河段水质均处于轻度污染状态。【结论】松花江流域水质处于轻度到中度污染状态。有机污染是松花江流域面临的主要水质环境问题,对松花江流域底栖动物群落结构产生了显著影响。因此,控制有机质的输入是维持松花江流域水生态系统平衡的重要举措之一。     

基于B-IBI指数的温榆河生态健康评价

基于温榆河底栖动物和水质采样数据,采用底栖动物完整性指数(B-IBI)方法,进行温榆河生态健康评价,并探求河流水质与B-IBI指数的相关性。通过分布范围、判别能力以及相关性分析等,确定研究区B-IBI指标体系,包括总分类单元数、总生物量、优势分类单元个体相对丰度、敏感类群分类单元数、生物指数和粘附者个体丰度6个指标。根据参照点25%分位数确定温榆河底栖动物完整性评价标准,即B-IBI>1.821为健康,1.366—1.821为亚健康,0.910—1.366为一般,0.455—0.910为较差,0—0.455为极差。结果表明,温榆河27.3%河段处于健康状态,9.1%河段处于亚健康状态,13.6%河段处于一般状态,50%河段处于较差和极差状态。河流水质与B-IBI指数的相关系数为-0.549,表明生物指标作为水体评价的补充指标十分必要。     

四川杂谷脑河底栖动物初步调查

于2004年5月对四川杂谷脑河流域9个断面的底栖动物进行了调查。共采集到底栖动物11种,其中水生昆虫8种,软体动物2种和扁形动物1种。应用Beck生物指数对其水质状况进行评价,结果表明杂谷脑河流域除个别断面(红叶减水河段)清洁外,大部分河段有一定程度的污染。     

松花江干流大型底栖动物群落结构与水质生物评价

于2010年春季（4-5月）、夏季（7-8月）和秋季（9-11月）,对松花江干流大型底栖动物群落结构进行调查研究,并利用生物指数对松花江干流水质进行评价.共采集到大型底栖动物16目36科116种,其中水生昆虫种类最多,为74种,属6目21科,占总数63.8%,年平均密度为66.80 ind·m^-2、生物量为24.30 g·m^-2.春、夏、秋季的平均密度以春季最高 (90.52 ind·m^-2),秋季(61.26 ind·m^-2)次之,夏季(48.63 ind·m^-2)最低;平均生物量以秋季最高(35.35 g·m^-2),夏季(23.12 g·m^-2)次之,春季(14.41 g·m^-2)最低.Shannon指数、Pielou均匀度指数、Simpson指数均以春季最高,夏季与秋季相近.各断面微生境共有种不多, 物种相似性不高,最大仅为60%;功能摄食群种类数相近,共有撕食者26种,收集者32种,刮食者28种,捕食者30种.采用BI生物指数和FBI生物指数对松花江干流水质的评价结果基本一致,并与化学监测结果基本吻合.松花江干流哈尔滨断面以上水质一般,哈尔滨以下断面水质在不同时期处于污染或严重污染状态.推测大顶子山航电枢纽的修建已对大型底栖动物的物种组成、群落结构造成了较大影响.     

深圳大鹏半岛主要河流底栖动物群落结构及水质生物学评价

2013年5月对深圳大鹏半岛4条主要河流(葵涌河、王母河、鹏城河和东涌河)的大型底栖动物群落结构进行了调查,并利用香农-维纳多样性指数和生物指数(BI)对河流水质进行了生物学评价。在大鹏半岛主要河流的15个样点共采获大型底栖动物35种,隶属3门7纲21科,其中水生昆虫26种,约占底栖动物种类数的74%。但底栖动物的种类组成与分布极不均匀,EPT(蜉蝣目+襀翅目+毛翅目)等对水质变化较敏感的类群主要分布于葵涌河的源头及受人为干扰活动较少的东涌河,而耐污能力较强的摇蚊科幼虫、霍甫水丝蚓和颤蚓等则为葵涌河中、下游样点、王母河和鹏城河的优势物种。生物指数(BI)相较于香农-维纳多样性指数,更适用于水质评价。结果显示,除葵涌河源头、鹏城河和东涌河样点的水质处于清洁至轻污染外,其余大部分样点处于中污染至重污染状态。推测大鹏半岛的王母河及葵涌河中、下游河段的生活污水及工业废水已对底栖动物的群落结构与河流水质造成了一定的影响。     

巢湖流域水质生物学评价——以大型底栖动物为例

由于长期暴露在自然环境中,底栖动物可整合不同时间尺度的物理、化学及生物信息,能反映污染物质对其造成的协同危害特征,因而被广泛应用于水体健康评价。为了弄清巢湖流域水体污染状况,于2009年4月对巢湖流域大型底栖动物进行采样调查。59个采样点中,鉴定出大型底栖动物共23种,其中:环节动物门6种,占26.1%;节肢动物门8种,占34.8%;软体动物门9种,占39.1%。尽管不同栖息环境中底栖动物的优势种有较大变化,但霍甫水丝蚓(Limnodrilus hoffmeisteri)、苏氏尾鳃蚓(Branchiura sowerbyi)和铜锈环棱螺(Bellamya aeruginosa)为整个巢湖流域优势物种。河流综合生物污染指数评价结果表明,巢湖流域水体均已受到不同程度的污染,南淝河的污染程度>白石山河>派河>巢湖湖体>柘皋河>杭埠河>裕溪河>丰乐河,这一结果与水质指标评价结果基本一致。     

Selection of benthic macroinvertebrate-based multimetrics and preliminary establishment of biocriteria for the bioassessment of the water quality of Taihu Lake, China

To develop benthic macroinvertebrate-based multimetrics for the bioassessment of the water quality of Taihu Lake, benthic macroinvertebrate assemblages were sampled at 60 sites in 8 subareas of Taihu Lake. A total of 24 species of benthic macroinvertebrates were obtained: 14 species of Mollusca, 5 species of Arthropoda and 5 species of Annelida. A comprehensive evaluation of the metrics was carried out. The results showed that 7 metrics (i.e., total number of taxa, the number of Mollusca & Crustacea taxa, % Mollusca & Crustacea, % Gastropoda, Goodnight-Whitley index, Hilsenhoff biotic index and % Collector-gatherers) were sensitive. A score of 5, 3 or 1 was assigned to every metric for standardization of the metrics, and a multimetric on a scale ranging from 7 to 35 for bioassessment was developed. Four-level discriminatory biocriteria for water quality were eventually proposed by quartation: 7–14, very poor; 15–21, poor; 22–28, fair; 29–35, good. The re-scored results from the 60 sites showed that the water quality of southeastern Taihu Lake was relatively good, whereas that of northwestern Taihu Lake was relatively poor. Basically, the discriminatory biocriteria are suitable for the assessment of the water quality of Taihu Lake.     

用河流生物指数评价秦淮河上游水质的研究

1999～2001年用D-形网半定量法采集了南京秦淮河上游21个样点的大型底栖无脊椎动物。12个底栖生物指数值的频数分布分析、Pearson相关分析和敏感性检测表明,总分类单元数、ET分类单元数、香农多样性指数、水生昆虫分类单元数和优势分类单元％最适合于秦淮河上游水质生物评价。采用5、3、1生物指数记分法统一量纲。提出了河流生物指数(RBI)概念,其值即为累加上述5个指数后的总分值,建立了河流生物指数评价秦淮河水质的标准,并对21个样点的水质进行重新评价,效果较单项生物指数如香农多样性指数评价结果更接近实际情况。     

A multimetric index based on benthic macroinvertebrates for evaluation of Atlantic Forest streams at Rio de Janeiro State, Brazil

This study describes the application of a protocol for biological assessment of water quality at first to third order streams at Serra dos órg?os, an area covered by Atlantic Forest in Rio de Janeiro State, Brazil. Major impacts in the region are domestic effluents and deforestation. Our main objective is to establish biocriteria for the establishment of the Serra dos órg?os Multimetric Index (SOMI) based on benthic macroinvertebrates. We used data from previous studies, sampled by experienced biologists, from 1999 through 2002. The benthic macroinvertebrate community was sampled in 12 reference sites and seven impaired sites in three river basins: Guapimirim, Macaé and Grande, all from the same bioregion. From the 22 tested metrics, 6 were included in the SOMI (% Diptera, % Coleoptera, Family Taxa, EPT Taxa, BMWP-CETEC and % Shredders). Scores (5, 3 or 1) were developed for these metrics to allow for aggregation into the index. Seven intermediately impaired sites were used for evaluating the applicability of the multimetric index. We concluded that the SOMI is a robust easy-to-apply tool for biomonitoring programs in the Serra dos órg?os region, south-east Brazil. Electronic Supplementary Material Supplementary material is available for this article at and is accessible for authorised users. Handling editor: D. Dudgeon     

Development of a regional macroinvertebrate index for large river bioassessment

Large river bioassessment protocols lag far behind those of wadeable streams and often rely on fish assemblages of individual rivers. We developed a regional macroinvertebrate index and assessed relative condition of six large river tributaries to the upper Mississippi and Ohio rivers, Midwest USA. In 2004 and 2005, benthic macroinvertebrates, water chemistry, and habitat data were collected from randomly selected sites on each of the St. Croix, Wisconsin, Minnesota, Scioto, Wabash, and Illinois rivers. We first identified the human disturbance gradient using principal components analysis (PCA) of abiotic data. From the PCA, least disturbed sites showed strong separation from stressed sites along a gradient contrasting high water clarity, canopy cover, habitat scores, and plant-based substrates at one end and higher conductivity and nutrient concentrations at the other. Evaluation of 97 benthic metrics identified those with good range, responsiveness, and relative scope of impairment, as well as redundancies with other metrics. The final index was composed of Diptera taxa richness, EPT taxa richness, Coleoptera taxa richness, percent oligochaete and leech taxa, percent collector-filterer individuals, predator taxa richness, percent burrower taxa, tolerant taxa richness, and percent facultative individuals. Each of the selected metrics was scored using upper and lower thresholds based on all sites, and averaging across the nine metric scores, we obtained the Non-wadeable Macroinvertebrate Assemblage Condition Index (NMACI). The NMACI showed a strong response to disturbance using a validation data set and was highly correlated with non-metric multidimensional scaling (NMDS) ordination axes of benthic taxa. The cumulative distribution function of index scores for each river showed qualitative differences in condition among rivers. NMACI scores were highest for the federally protected St. Croix River and lowest for the Illinois River. Other rivers were intermediate and generally reflected the mixture of land use types within individual basins. Use of regional reference sites, though setting a high level of expectation, provides a valuable frame of reference for the potential of large river benthic communities that will aid management and restoration efforts.     

The invertebrate fauna of a physically modified urban river

The typical urban river is affected by various factors relating to water quality problems, physical habitat modification (for flood prevention) and flashy flows. These restrict macroinvertebrate biodiversity such that a few tolerant taxa may dominate and more sensitive organisms may be completely absent. This paper presents the findings of a year long, macroinvertebrate survey of an urban river catchment and investigates the effects of physical habitat modification on macroinvertebrates using various analytical tools. It is demonstrated that considerable variation in invertebrate species, abundance, diversity and tolerance exists between different urban rivers, sites on the same river and individual sites at different sampling times. Analysis of paired sites with similar water quality, but contrasting physical habitat, indicates that less modified sites support a slightly higher quality macroinvertebrate fauna (defined by biotic score and beta diversity) than heavily engineered sites. It is concluded that water quality is the primary limiting factor of invertebrate biodiversity in the heavily urbanized River Tame catchment. The removal of heavy engineering structures may facilitate improvements to invertebrate fauna in urban rivers only in conjunction with improvements to water quality.     

The use of benthic macroinvertebrate families for river quality assessment in Lithuania

The aim of this study was to evaluate the influence of environmental factors on the distribution of macroinvertebrate taxa in different sized lowland Lithuanian rivers. A secondary aim was to assess ecological river quality and to determine the most suitable biotic index. A final aim was to determine the most appropriate macroinvertebrate families for river quality assessment in Lithuania. Species composition and quantitative characteristics of benthic macroinvertebrate communities have been investigated using standard kick-sampling method by a standard hand net in 24 different river sites in spring. Physical and chemical environmental parameters were measured in the same study site as the macroinvertebrate sampling. A total of 186 taxa representing 66 families or higher taxonomic ranks of benthic macroinvertebrates have been identified. Water temperature and current velocity influenced the highest number of ivestigated families. Seven of the most tolerant and eleven of the most sensitive macroinvertebrate taxa for hydrochemical parameters related with organic pollution were determined. The DSFI method was founded to be the best index for assessment of ecological status for Lithuanian rivers until more accurate estimation method will be created.     

Effect of alien riparian vegetation and its removal on a highly endemic river macroinvertebrate community

Invasive alien trees along river banks can reduce indigenous biodiversity, while their removal can restore it. We assessed here family- and species-level responses of river benthic macroinvertebrate assemblages to three riparian vegetation types (natural, alien trees, cleared of alien trees) in the Cape Floristic Region biodiversity hotspot. High species beta diversity of this highly endemic fauna meant that between-river, as well as seasonal effects, dominated assemblage patterns. SASS5, a qualitative, rapid bioassessment technique, based on the sensitivity of the families present, was used as a measure of river health and, indirectly, of water quality. SASS indicated a decline in water quality conditions after alien clearing, a likely response to the greater insolation and apparent erosion of cleared banks, resulting in elevated temperatures and suspended solids and lowered oxygen levels. Overall, cleared and natural sites were more similar to each other than to alien sites, suggesting some post-clearing recovery. However, many sensitive, endemic taxa survived in alien-invaded sites, and more than in the natural sites. These endemic species made use of shady, cool, high-oxygen levels under the alien tree canopy. However, endemics declined in overall abundance in sites cleared of aliens, being replaced by more tolerant, widespread taxa. Clearance of the alien trees opened up the rivers to sunny conditions, which had a major impact on community composition. Vegetation types, oxygen levels and river width were important environmental variables affecting these macroinvertebrate responses. Re-establishment of invertebrate biodiversity matched that of indigenous vegetation, with the most sensitive endemic taxa only recovering after establishment of bushy indigenous and shade-producing fynbos. Therefore, for biodiversity conservation objectives to be achieved, it is essential that indigenous plants are maintained and encouraged during and after clearing to ensure the recovery of endemic and sensitive taxa.