以底栖动物评价湘江污染的研究

湘江底栖动物种类较丰富,而上游种类尤多,生物多样性明显。中、下游某些江段因污染等因素影响,多样性有差异。shannon多样性指数反映出了这些变化。上游江段属于清洁水体,中、下游多数江段属于轻污染,少数江段为中污染,而霞湾港江段为重污染。进行了水和底泥中化学毒物的含量与生物主要种类的数量变化的相关分析。     

汉江水生植物多样性研究

对汉江沿途 1 3个地区的所在江段进行了水生植物种类组成、分布、生物多样性调查。结果表明 ,在汉江共有水生植物 2 6科 3 6属 5 4种 ;物种α多样性在丹江口最高 ,H、D和R指数由上游汉中江段至下游汉口段表现出上升—下降—上升的三折线及四折线变化趋势 ;β多样性在水深梯度及距离梯度上表现为 β下 >β上 >β中 ,说明下游江段的生境异质性程度高 ;γ多样性是γ上 >γ中 >γ下 ,对各个江段而言以中游老河口江段γ多样性最大为 2 9种 ,丹江口和襄樊江段次之 ,汉口段最小。中游地区水生环境和生态因子更适合于水生植物的生长 ,而下游人类活动导致水环境趋于恶化限制了水生植物的生长和分布     

基于鱼类多样性与生物完整性的海南岛南渡江河流健康评价

根据2016—2017年南渡江鱼类资源调查数据,通过分析渔获生物量、相对重要性指数IRI、Pielou均匀性指数、Margalef丰富度指数和Shannon多样性指数评估了南渡江的鱼类生物多样性。基于鱼类生物完整性指数IBI构建了两套评价体系,分别评价了南渡江的局部健康状况及其与历史的差异。鱼类多样性研究结果表明:群落中存在尼罗罗非鱼(Oreochromis niloticu)、鳙(Aristichthys nobilis)、海南似鱎(Toxabramis houdemeri)、(Hemiculter leucisulus)等16种优势种;Margalef丰富度指数和Shannon多样性指数均显示,以南渡江源头及河口采样点的数值较高,中部采样点数值较低;Pielou均匀性指数则表现为南渡江中部采样点数值高,两端采样点的低。鱼类生物完整性评价结果表明:南渡江保存了历史的大部分鱼类,各项百分比指标与历史的变化幅度在0.2%~10.5%,而种类指标变化范围在0~4种;从南渡江局部江段来看,中游江段评价得分仅为19分,远低于其他江段的36~46分。研究表明:南渡江鱼类生物多样性和生物完整性保存完好,河流健康状况好;在河流内部,源头和河口生物多样性高且完整性好,而河流中游健康状况差。     

江汉水生植物群落的结构与数量特征

汉江是长江的第一大支流,是我国实施南水北调工程的重要对象。目前,有关汉江水生植物群落方面的研究尚未见报道。因此,在1998-2000年,运用植物群落学研究的理论和方法,对汉江沿途6个江段水生植物群落的结构和数量特征进行了定位研究。在汉江上游与下游各江段,群落水平分布格局为斑块状,不象湖泊或池塘系统那样表现出明显的均匀分布或带状分布特征,而在中游局部江段中表现为小范围的带状分布。群落垂直分布格局,在上游江段,以沉水层为主,浮叶层和挺水层不发达或缺乏;在中游各江段,群落表现出完整的垂直结构层次：挺水层、漂浮层、浮叶层和沉水层;在下游江段群落结构常为两层或一层结构,以浮叶层和挺水层为主,而沉水层在下游江段发育不充分且生物量很小。另上,对汉江上、中、下游的典型植物群落的数量特征进行了分析。研究表明,在汉江的不同江段,群落的组成、结构和数量特征等都不同,而水位、流速、基质状况、人为干扰是影响汉江水生植物群落生长和分布格局的主要因子。     

汉江水生植物群落的结构与数量特征

汉江是长江的第一大支流,是我国实施南水北调工程的重要对象。目前,有关汉江水生植物群落方面的研究尚未见报道。因此,在1998～2000年,运用植物群落学研究的理论和方法,对汉江沿途6个江段水生植物群落的结构与数量特征进行了定位研究。在汉江上游与下游各江段,群落水平分布格局为斑块状,不象湖泊或池塘系统那样表现出明显的均匀分布或带状分布特征,而在中游局部江段中表现为小范围的带状分布。群落垂直分布格局,在上游江段,以沉水层为主,浮叶层和挺水层不发达或缺乏;在中游各江段,群落表现出完整的垂直结构层次：挺水层、漂浮层、浮叶层和沉水层;在下游江段群落结构常为两层或一层结构,以浮叶层和挺水层为主,而沉水层在下游江段发育不充分且生物量很小。另外,对汉江上、中、下游的典型植物群落的数量特征进行了分析。研究表明,在汉江的不同江段,群落组成、结构和数量特征等都不同,而水位、流速、基质状况、人为干扰是影响汉江水生植物群落生长和分布格局的主要因子。     

用藻类监测和评价图们江的水污染

在图们江上、中游进行了人工基质着生藻类调查和室内栅藻检测,以监测和评价水污染状况。在所采用的野外监测指标中,以着生藻类总数与污染程度的关系最为明显。为便于比较和综合,采用了相对藻类总数(PN) 根据调查结果,提出了可作为图们江污染的指示种类。多样性指数与污染的关系,因受到其他非污染因子的影响,并不稳定。研究结果表明:图们江的主要污染源是尾矿废水(悬浮物)和纸浆废水(悬浮物、色度和有毒物质)。最严重污染江段为菜队到图们江段,次之为南坪江段。       

广西黑水河湿地生物多样性现状与保护对策

广西黑水河湿地属于珠江水系,上游河段流经越南,系国际性河流,是中国17个生物多样性保护的关键地区之一,属于中越边境生物区,生态位保护具有跨国意义。2021年1月,采用路线法对黑水河湿地的生物多样性保护现状进行全流域实地考察,结果表明:黑水河湿地的生境类型多样,不仅汇集了繁多的生物种类,还孕育着生境交错地带特有的生物类群;湿地鱼类和鸟类物种多样性水平较高,湿地生物多样性等级属于一般水平,具有一定典型性和稀有性;黑水河湿地生物多样性保护和利用受到水质下降、生态环境污染、生物入侵及资源管理不到位等不利因素的影响,应该加强流域生境修复,健全相关法律法规,建立生物资源数据库,以湿地公园为依托,有效管理、合理开发利用湿地生物资源。     

嘉陵江不同江段蛇鮈的食性分析

2015年和2016年的10—11月,在嘉陵江上游(广元)、中游(蓬安)、下游(合川)采集210尾蛇鮈Saurogobio dabryi,采用传统镜检法对其食性进行研究。结果表明:嘉陵江蛇鮈属于杂食性鱼类,饵料生物包括5大类(79小类);聚类分析表明,出现率(F%)、数量百分比(N%)和相对重要性指数(IRI%)在衡量食物对嘉陵江蛇鮈的重要性方面表现一致,但基于质量百分比(W%)的食物重要性结果与前三者之间的差异有统计学意义。4种指数显示,上游和中游江段蛇鮈均以动物性饵料为主,为偏肉食性的杂食性鱼类,下游江段蛇鮈以藻类为主,为偏植食性的杂食性鱼类。选用W%对其食性进行不同江段之间比较,聚类分析表明中游与上游和下游存在显著差异(d> 0. 3); Schoener重叠指数比较显示,不同江段蛇鮈摄食的饵料生物存在空间差异(C_xy<0. 60)。研究认为蛇鮈的食性具有较强的地域性和可塑性,可能是对不同江段水生生态环境适应的结果。     

珠江河网典型段基础碳源对水生动物的贡献

于2015年3、8月分别采集珠江河网3个江段的潜在基础碳源及优势种水生动物,测定其δ13C和δ15N值,利用IsoSource软件分析不同江段各类群碳源对水生动物的贡献。结果表明:上游宽阔江段主贡献碳源来自C3植物,其对该站位消费者50%置信水平上的贡献率超出50%;下游水草床茂盛江段主贡献碳源为沉水水草,其对该站位消费者贡献率接近或超出50%,C3植物变为次贡献碳源;而河网分叉江段主贡献碳源为浮游植物,其对该站位消费者贡献率接近或超出40%,沉水水草和C3植物为共同次贡献碳源。珠江河网不同类型江段的主贡献碳源变化特征可能由该江段的碳源储量及消费者的生物可利用性共同决定。对多元化河流栖息生境的保护是维持珠江河网生态系统功能完整的关键环节。     

利用底栖大型无脊椎动物对湘江干流污染的生物学评价

作者于1979年7月至1982年3月使用彼得生采泥器分别对湘江干流10个断面以及株洲至湘潭重点江段12个采样站采集底栖大型无脊椎动物5次。结果表明Shannon-Wiener多样性指数公式与Goodnight-Whitley生物指数公式均适用于作湘江干流污染的生物学评价。从采集的底栖大型无脊椎动物中发现一些可以作为湘江干流中度及轻度污染的指示生物种类。     

滆湖底栖动物群落的时空变化及水质生物学评价

2009年5月-2010年2月对滆湖底栖动物群落进行了调查,并根据底栖动物群落结构对水质进行了生物学评价。结果表明:采集到底栖动物共35种,隶属于3门25属;优势种类为中国长足摇蚊(Tanypus chinensis)、霍甫水丝蚓(Limnodrilus hoffmeisteri)、苏氏尾鳃蚓(Branchiura sowerbyi)、克拉泊水丝蚓(L.claparedeianus)、中华河蚓(Rhyacodrilussinicus);滆湖底栖动物的年均密度为374.1ind·m-2,寡毛类对密度的贡献最大,占年均密度的77.4%,最大密度出现在夏季,春季最低,St14年均密度高于其他站点;滆湖底栖动物的年均生物量为17.78g·m-2,软体动物对生物量的贡献最大,占年均生物量的97.4%,夏季生物量最大,冬季最低,St14年均生物量明显高于其他各个站点;底栖动物的密度和生物量随季节变化明显,密度的季节变化表现为夏季>秋季>春季>冬季,生物量变化表现为夏季>春季>秋季>冬季;Shannon-Wiener多样性指数值(H’)、Margalef多样性指数值(D)、Pielou均匀度指数值(J)和BI指数值表明滆湖水体处于中度到重度污染状态。     

跨流域调水背景下汉江流域洋县段的鱼类多样性及资源现状

汉江是南水北调中线工程和引汉济渭等跨流域调水工程重要的水源区, 了解其鱼类多样性的现状及变化对于水生态保护尤为重要。作者于2016-2017年间对汉江洋县段干流与6条主要支流的鱼类多样性组成进行了两次调查, 以Margalef丰富度指数、Shannon-Wiener多样性指数、Pielou均匀度指数和Jaccard相似性系数对洋县境内7条河流进行评估, 同时通过相对重要性指数(index of relative importance,IRI)判定优势种, 利用鱼类丰度生物量(abundance biomass comparison, ABC)曲线分析鱼类受干扰情况。结合历史记录, 调查区域内共分布有土著鱼类76种, 隶属于6目14科57属, 以鲤形目鲤科和鲇形目鲿科鱼类为主, 分别占土著鱼类总数的57.89%和11.84%; 珍稀濒危鱼类共计5种, 包括3种国家级保护水生野生动物。鱼类多样性分析结果显示汉江干流的丰富度指数和多样性指数显著高于6条支流。7条河流的IRI指数显示优势种为宽鳍鱲(Zacco platypus)。ABC曲线显示目前调查区域内鱼类小型化现象明显、鱼类受到较严重干扰。水利水电工程建设对于调查区域鱼类多样性影响最大, 干流大型水库(大坝)通过改变原有流水生境、阻断河流纵向连通性、淹没重要鱼类产卵场等对鱼类多样性和群落组成产生不利影响; 支流引水式的中小型电站造成下游河段减、脱水而使河道发生断流以及生境破碎化, 从而威胁土著鱼类的生存。在跨流域调水过程中, 应重视不同水系鱼类引入的潜在生态风险。对引汉济渭工程的水源区鱼类多样性现状的调查, 有助于未来跨流域调水过程中鱼类变化的动态监测和外来物种的预警。     

拒马河原生动物和底栖动物初步调查及水质分析

2003年3月和4月,对拒马河(北京段)的原生动物及底栖动物群落结构和物种多样性进行了调查分析,并且就其水质现状及水生动物种类和数量变化对环境污染的指示意义加以探讨。共鉴定出原生动物125种,底栖动物17种。结果表明,拒马河水生动物种类较为丰富,物种多样性高,水质生物指标综合评价拒马河水体受到轻度和中度污染。此外,通过对软体动物、环节动物、水生昆虫在不同站点分布的差异分析,表明河流水体污染可导致底栖动物多样性明显降低。从水生生物指示种的变化,可预测水质的变化。     

Assessment the macrobenthic diversity and community structure in the Musi Estuary,South Sumatra,Indonesia

The macrobentic community in the Musi Estuary is very diverse. However, it has been showing a declining trend recently due to an increase in waste from human activities entering the waters. This study aimed to assess the macrobenthic diversity and community structure and correlated to the water quality parameters of the Musi Estuary, South Sumatra. The method used was a survey collecting water quality parameters at eight observation stations. The salinity is measured with a refractometer, temperature is measured with a digital thermometer, pH is measured with a pH meter. The dissolved oxygen (DO), brightness and current are measured with a DO meter, Seichii disk, and current meter, respectively. The Ekman grab was used to collect the samples, and then we used a diversity index, a similarity index, and principal components analysis (PCA) for analysis. The results show that the water quality is found in a good condition for macrobenthos growths. The salinity is ranging between 0 and 15 ppt, temperature is about 29–30.8 °C, pH is about 7.6–8.1, the dissolved oxygen is found to be 3.2–12.5 mg/L, the brightness is about 4.71–31.67% and the current speed is about 0.02–0.08 m.s⁻¹. The analysis also indicates that the microbenthic compositions consist of 18 species, which is grouped into five classes, namely Gastropods 56%, Crustacea 22%, Bivalve 11%, Actinopterygii 6%, and Polychaeta 5%, with an abundance of 0,67 to 13,33 Ind.m⁻². The diversity index is generally in low categories (H′ < 1), and the dominance index is more than 0.5. Based on the PCA analysis, it was found that the water quality parameters (e.g. dissolved oxygen and temperature) show significant correlation with similarity index at all observation stations. The macrobenthic diversity and community structure in the Musi Estuary is found to be increasing offshore and decreasing towards the river.     

Spatial variation in ciliate communities with respect to water quality in the Delhi NCR stretch of River Yamuna,India

The River Yamuna emerges from Saptarishi Kund, Yamunotri and merge with River Ganges at Allahabad, India. Anthropogenic stress has affected the water quality of the river Yamuna drastically in the stretch traversing Delhi and its satellite towns (National Capital Region, NCR). In the present study, effect of water quality on the microbial life in the River Yamuna was analyzed using ciliate communities (Protista, Ciliophora) as bio-indicators. Water samples were collected from six sampling sites chosen according to the levels of pollution along the river and water quality was analysed using standard physicochemical factors. As the river traverses Delhi NCR, water quality deteriorates considerably as indicated by the Water Quality Index at the selected sampling sites. Seventy-four ciliate species representing nine classes were recorded. Based on the Shannon diversity index, maximum species diversity was found at the point where the river enters Delhi. The saprobity index showed the river water was beta-mesosaprobic when the river enters Delhi and alpha-mesosaprobic at downstream sites after the first major drain outfall. Significant relationship between the spatial variation in ciliate communities and abiotic parameters indicate that ciliates can be used as effective bioindicators of pollution in the River Yamuna.     

Succession of bacterial community structure along the Changjiang River determined by denaturing gradient gel electrophoresis and clone library analysis

Bacterial community structure along the Changjiang River (which is more than 2,500 km long) was studied by using denaturing gradient gel electrophoresis (DGGE) and clone library analysis of PCR-amplified 16S ribosomal DNA (rDNA) with universal bacterial primer sets. DGGE profiles and principal-component analysis (PCA) demonstrated that the bacterial community gradually changed from upstream to downstream in both 1998 and 1999. Bacterial diversity, as determined by the Shannon index (H'), gradually decreased from upstream to downstream. The PCA plots revealed that the differences in the bacterial communities among riverine stations were not appreciable compared with the differences in two adjacent lakes, Lake Dongting and Lake Poyang. The relative stability of the bacterial communities at the riverine stations was probably due to the buffering action of the large amount of water flowing down the river. Clone library analysis of 16S rDNA revealed that the dominant bacterial groups changed from beta-proteobacteria and the Cytophaga-Flexibacter-Bacteroides group upstream to high-G+C-content gram-positive bacteria downstream and also that the bacterial community structure differed among the stations in the river and the lakes. The results obtained in this study should provide a reference for future changes caused by construction of the Three Gorges Dam.     

Ordination analysis and bioindices based on zoobenthos communities used to assess pollution of a lake in southern Finland

The suitability of an ordination method, detrended correspondence analysis (DCA), was tested in assessing the degree of pollution of a large lake on the basis of the zoobenthos communities. Lake Etelä-Saimaa, in southern Finland, was originally oligotrophic but is now heavily loaded by effluents from the wood-processing industry. Comparison between areas was complicated by variation in the water depths of the lake sub-basins. A horizontal pollution gradient could, however, easily be detected by means of the DCA in both the profundal and sublittoral zones. The benthic quality index (BQI) based on the composition of the profundal chironomid fauna failed at some stations because the indicator species were lacking, despite enlargement of the indicator species pool. The BQI based on the oligochaetes could be calculated at almost all the stations. This index was modified by altering the empirical constants for two species. Diversity indices and the occurrences of single species had a limited value in the water quality assessment. The study concluded that DCA ordination is a powerful tool in evaluation of pollution. The method gives the best results when the sampling network is carefully planned and the material represents all sections of the underlying environmental gradients, e. g. a gradient from oligotrophy to eutrophy or heavy pollution.     

Effect of urban and industrial wastes on species diversity of the diatom community in a tropical river,Malaysia

Monthly species diversity and other components of diversity of diatom samples collected over a period of one year at eight stations in the Linggi River Basin, Malaysia were analysed. Species diversity ranged between 0.52–3.62 bits individua^–1. Among the four stations located in the Linggi River (sensu stricto), highest diversity values were recorded at a station polluted by rubber effluent, followed by the stations unpolluted from point sources. Lowest diversity was recorded at a station polluted with urban sewage. At Kundor River, highest diversity was recorded at stations located downstream of rubber and palm oil waste discharges. On the whole, diversity values at unpolluted stations were always lower than at mildly polluted stations. Severe organic loadings caused low diversity by reducing the number of species (species richness) but did not increase the evenness (equitability) as expected when compared with unpolluted or mildly polluted stations. The changes in species diversity can be related to changes in diatom community structure and thereby changes in water quality, but cannot be used as an index of water quality.     

浙江水源地河流浮游动物多样性与环境因子的通径分析

为探明水源地河流浮游动物多样性及与水环境因子的关系, 利用浮游动物多样性参数监测水质, 2010-2014年间, 我们于每年的冬季(1月)、春季(4月)、夏季(7月)和秋季(10月), 对浙江2个水源地河流采样站(H1站和H2站)展开浮游动物种类组成、丰度和多样性指数的季节性调查, 同时测定水环境因子。结果表明, H1站和H2站浮游动物平均丰度分别为1,387.4 ind./L和873.0 ind./L, 小型浮游动物(轮虫 + 桡足类无节幼体)丰度分别占92.8% (H1站)和91.5% (H2站)。两采样站轮虫、枝角类和桡足类的优势种均为针簇多肢轮虫(Polyarthra trigla)、短尾秀体溞(Diaphanosoma brachyurum)和温剑水蚤(Thermocyclops sp.)。多元逐步回归与通径分析结果表明: 冬季氮磷比是轮虫类Shannon-Wiener多样性指数(H′)波动的限制因子, 主要通过总磷含量对轮虫类H′指数产生较大的间接正向作用; 春季氮磷比是轮虫类H′指数发展的决策因子; 秋季氮磷比可通过总氮含量对轮虫类H′指数产生较大的间接正向作用。冬季氨氮、总氮含量分别是甲壳动物体积多样性指数(Hs)的决策因子和限制因子。夏季溶解氧含量是总浮游动物物种丰富度(d)波动的限制因子, 主要通过pH值对d指数产生较大的间接正向作用, 作用机制表现为轮虫类H′指数随着夏季溶解氧含量的升高呈极显著上升(P < 0.01), 而甲壳动物Hs指数则显著下降(P < 0.05)。水源地河流环境因子与浮游动物多样性之间的相互关系为浙江水源地生态学监测提供了可能性。     

不同营养类型水库大型底栖动物的群落结构特征及其水质评价

2006～2007年对湖北省4座不同营养类型水库的大型底栖动物群落结构和多样性进行周年研究,并进行了水质评价.共采集到底栖动物39种,其中寡毛类14种、水生昆虫19种、软体动物6种.以金沙河的底栖动物种类最多,达24种,其次为徐家河19种,道观河和桃园河各10种.4座水库优势种类各异,金沙河为多毛管水蚓(Aulodrilus pluriseta)、隐摇蚊(Cryptochironomus sp.)、多足摇蚊(Polypedilum sp.);徐家河为瑞士水丝蚓(Limnodrilus helveticus)、前突摇蚊(Procladius sp.);桃园河为多毛管水蚓(Aulodrilus pluriseta)、长跗摇蚊(Tanytarsus sp.);水质污染比较严重的道观河水库优势种类为霍甫水丝蚓(Limnodrilus hoffmeisteri)、大红德永摇蚊(Tokunagayusurika akamusi).各库底栖动物年平均密度和生物量分别为:金沙河316 8ind · m-2,1294.3mg · m-2 ;道观河318.2ind · m-2,430.7mg · m-2 ;徐家河330.3ind · m-2,517.4mg · m-2;桃园河209ind · m-2,325 3mg · m-2 .TN、TP、COD平均含量变幅分别为0.392～1.018、0.011～0.042、3.505～9.166mg · L-1;采用理化分析、Goodnight-Whitley指数、Shannon-Wiener指数、Margalef指数、Simpson指数、Pielou均匀度指数对水库的水质进行了综合评价,结果表明:金沙河水库属中营养型;徐家河和桃园河属中-富营养型;道观河水库属富营养型.对水库主要的物理化学因子与寡毛类、水生昆虫、软体动物密度,以及各类底栖动物之间进行矩阵分析,发现水生昆虫与水深呈负相关关系,随着水深的增加,其密度和种类下降,水深超过10m,下降的幅度更明显;寡毛类有从属于TN和TP含量的趋势, TP变化对底栖动物的影响更大;寡毛类、水生昆虫、软体动物三者之间无相关性.