南京东郊城市湿地水质多尺度空间分异

对南京市东郊的17个城市湿地进行水质监测和植物群落调查,从生态系统、集水区和景观功能区3个尺度揭示城市湿地水质的分异特征.结果表明:湿地类型和植物群落特征是生态系统尺度上影响湿地水质的主要因素;原生湿地的水质普遍优于改造湿地,而改造湿地的水质则普遍优于次生湿地;湿地植物的盖度越大,水质越好.土地利用类型是集水区尺度上影响湿地水质空间分异的主要因素,建设用地对流域湿地营养盐影响程度较大,而林地对溶解氧影响程度较大.人类活动是功能区尺度上影响湿地水质空间分异的主要因素,而其对不同水质指标的影响程度不同.     

芦苇群落水体质量与芦苇转录本的相关性

芦苇 （Phragmites australis） 是广生态幅多年生水生植物,在全球分布极广。芦苇能够适应并生长在极端环境,如盐碱地、重金属污染地等,这种巨大的环境忍耐能力使得芦苇成为研究植物环境适应性的模式物种,并逐渐成为植物学和生态学等领域的研究热点。目前,北京自然和人工湿地中大量栽植芦苇,其主要功能是净化水体、稳定水体自净能力。为深入了解水体质量对芦苇转录本的影响及二者之间的相关性,首先对北京及河北白洋淀共计32个采样点的8项水质指标进行了检测。结果表明,32个采样点的水体整体处于污染状态,主要污染物为总氮 （TN） 和生物需氧量 （BOD）,并且水质均略偏碱性,且具有高氮 （N）、高磷 （P）、高BOD和高化学需氧量 （COD） 等特征。主成分分析 （PCA） 表明8项水质指标间具有相关性,可被降至3个维度,第一维度是 BOD/COD/高锰酸盐指数 （COD_Mn）;第二维度是 TN/氨氮 （NH₃-N）/总磷 （TP）;第三维度是 pH/溶解氧 （DO）。对水质指标与芦苇叶片 RNA-seq 转录本进行皮尔森系数相关性分析,筛选出247个与水质指标相关的转录本。其中,232个基因 （93.9%） 的转录水平与水质指标呈现正相关性。经实验室单一因子或双因子验证确定了 PB.4621.1 （编码 GMP 合酶） 和 PB.12079.1 （编码 LEA14蛋白） 两个基因更适合用于监测水体中的氮和磷水平。研究为后续芦苇监测水质技术的开发与利用奠定了理论基础。     

小型城市湖泊生态系统预警技术--以武汉市汉阳地区为例

城市湖泊正面临着水体污染和生态系统退化的双重压力 ,对湖泊生态系统的状态进行预警是判定湖泊演化趋势以及制定相应控制对策的重要途径和手段。本文以武汉市汉阳地区的 6个小型城市湖泊为例 ,结合国内外的研究进展 ,从水生生态系统、湖滨生态系统和入湖沟渠生态系统 3方面入手 ,结合生物监测、生物标志物技术 ,综合考虑水文、水质和生态系统以及污染物扩散等因素 ,设计出汉阳地区湖泊生态系统的预警技术体系。该技术体系主要分 5步 :湖泊生态系统现状调研、生物标志物和关键指示因子确定、水质 -生态系统模拟、系统输出和灵敏度检验以及生态系统状态预警及对策、措施     

湖泊湿地生态服务监测指标与监测方法

湖泊湿地生态系统为人类提供了维持生存发展的多种生态系统服务,是社会经济可持续发展的重要基础。然而,全国范围内的湖泊湿地资源被大量开发利用,极大地削弱了湖泊湿地提供生态系统服务的能力,人类自身福祉也受到严重威胁。开展湖泊湿地生态系统服务动态监测能减少生态系统服务重复计算、推动生态系统服务管理实践。本文在分析湖泊湿地生态系统服务监测必要性的基础上,探讨了湖泊湿地生态系统服务监测指标选取的原则和思路,并初步构建了适宜于我国湖泊湿地生态系统服务动态评估、权衡分析和生态生产函数构建的最终服务和生态特征监测指标体系。最终服务是与人类效益有直接关联的生态功能量,生态特征指标是产生生态系统最终服务的关键指标,主要包括生态结构、生态过程和生态功能指标。供给服务和文化服务一般是最终服务,而调节服务既可以是中间服务(生态功能)又可以是最终服务,支持服务是中间服务(生态过程)。针对调节服务和文化服务评估的困难性及调节服务的重复计算问题,本研究提出通过宏观监测(3S技术监测)和典型湖泊湿地定位监测相结合的多尺度湖泊湿地生态系统服务监测方法,构建湿地监测项目开展生态系统最终服务和生态特征指标数据监测。本研究对构建生态生产函数、开展湖泊湿地生态系统服务动态评估和权衡分析具有重要意义,是生态系统服务从认知走向管理实践的重要基础。     

太湖流域河流与湖泊间主要水质指标的空间关联特征

基于2006—2012年太湖流域主要观测断面水质监测资料,应用冗余分析法,研究分析了流域上游入湖河流、下游出湖河流与太湖湖体间水质在5、10、20、40和80 km等不同观测尺度上的关联性。研究表明,2006—2012年,太湖流域水质总体较差,但不同观测尺度内主要水质指标超标率存在较大差异,太湖湖体水质好于上游入湖河流,上游入湖河流水质总体好于下游出湖河流;上游入湖河流是太湖湖体营养盐输入的主要来源,其溶解氧、总磷和氨氮对太湖湖体相应指标超标率的累计方差贡献率均超过50%,分别达到75.9%、67.4%和57.4%;在单尺度上,太湖湖体水质主要对上游0~5 km内环湖河流水质变化的响应较显著,而对其他尺度河流水质无明显响应。在下游出流区,太湖湖体主要水质指标对出湖河流相应水质指标超标率的累计尺度和单尺度方差贡献率均低于7%,河流水质受太湖湖体水质的影响总体较小,且尺度效应不明显,下游出流区河流主要水质指标的高超标率更多受陆源污染的影响。     

天津市典型湖库湿地生态完整性评价

对湖库湿地进行生态健康评价,可为湖库湿地生态系统修复和管理提供决策依据。本文以天津市为例,选取20个典型的湖库湿地采样点,基于2018年8—9月期间调查获取的物理、化学和生物群落指标(浮游动物、浮游植物、底栖动物、鱼类、水生大型植物、河岸带植物)数据,构建包含物理完整性、化学完整性和生物完整性在内的生态完整性指数(IEI)对采样点生态健康状况进行评价。根据栖息地环境质量(QHEI)、水质状况和人类活动干扰3方面选取参照点,采用标准化方法筛选候选指标,应用层次分析法计算各指标权重,最终得出天津市典型湖库湿地生态完整性评价结果。结果表明: 1)所有样点中,“健康”点位占5.0%,“较好”点位占20.0%,“一般”点位占35.0%,“较差”点位占30.0%,“差”点位占10.0%。天津市典型湖库湿地生态健康状况整体处于一般水平,呈现出西部优于东部的趋势,空间差异显著;2)基于栖息地评分、水质状况与人类活动干扰相结合选取参照点是可行的,依据水质指标可降低选择参照点时的主观性;3)适用性验证结果表明,IEI可较好表征各点位的健康状况,区分效率明显,适用于评价研究区湖库湿地生态健康状况。     

普者黑岩溶湖泊湿地湖滨带景观格局演变对水质的影响

湖滨带作为湖泊与陆地之间的过渡带,是健康湖泊生态系统的重要组成部分。湖滨带景观格局的演变会对湿地水质产生重要影响,因此探究影响岩溶湿地水质变化的湖滨带关键景观因子,对深入了解景观格局对岩溶湿地水质的影响过程与机制具有重要意义。选择普者黑岩溶湖泊湿地为研究对象,以2005、2007、2009、2011年共4年的Landsat遥感影像及水质监测数据为基础,通过划定湖泊湿地湖滨带缓冲区域,运用秩相关分析和冗余分析研究湖滨带景观格局对普者黑岩溶湖泊湿地水质的影响。结果表明,湖滨带不同缓冲区内景观结构类型比例差异较大;枯水期水质与土地利用类型和景观格局指数的影响大于丰水期;景观格局在不同缓冲区尺度对岩溶湿地的水质具有不同的效应;随着监测点缓冲距离的增加,个别景观指数可较好的揭示湖滨带景观格局演变对岩溶湿地水质的影响,其中,蔓延度指数(CONTAG)、斑块结合度指数(COHSION)、均匀度指数(SHEI)对水质参数的影响较大,边界密度(ED)、聚集度(AI)对水质参数的影响随缓冲距离的增加逐渐减弱,其他景观指数对水质影响差异并不明显,最大斑块指数(LPI)在缓冲距离≤300m的区域内与水质的关系较密切,面积加权平均斑块分维数(AWMPFD)与水质参数有显著负相关性,多样性指数(SHDI)对水质的影响具有不确定性;另外,大部分水质参数与土地利用面积比例有较好的相关性,且湿地面积比例是表征岩溶湖泊湿地水环境质量的主要指标。     

人工湿地处理造纸废水后细菌群落结构变化

人工湿地通过模拟自然湿地的生态系统,能够实现污染物的去除,是一种高效经济的污水处理手段,但是对人工湿地处理后污水中细菌群落的研究较少。采集了造纸厂排污口和人工湿地出水口的水样,检测了溶解氧、pH值和盐度等水质指标,对主要污染物的含量进行了测定和分析,并利用DGGE技术对细菌群落的变化进行了研究。结果表明:(1)造纸污水经人工湿地处理后水质有明显提高;(2)人工湿地处理后细菌群落结构发生变化,优势菌由γ变形菌和衣原体变为α变形菌,而且微生物多样性指数Shannon-Wiener's降低;(3)人工湿地处理前污水中存在着大量致病微生物和降解微生物,处理后以环境友好的固氮菌和少量致病菌为主。研究结果揭示了人工湿地不仅可以去除造纸废水中的污染物,改善水质而且可以大大减少向环境中排放的致病微生物,防止由致病微生物引起的生态灾难的发生,为将来人工湿地应用于工业污水处理和微生物生态安全评估提供有效可靠的依据。     

城市湖泊湿地温湿效应——以武汉市为例

选择武汉城市三环内主城区14块湖泊湿地为研究对象,采用小尺度定量测定的方法,研究城市湖泊湿地与温湿效应间的关系。结果表明:(1)城市湿地温度值与面积指数、距离指数呈显著负相关,与景观形状指数呈显著正相关(P0.05);湿度值与面积指数、距离指数、环境类型指数呈显著正相关,与景观形状指数呈显著负相关(P0.05)。其中面积指数的贡献值最大。(2)14块湖泊湿地的降温增湿效应排序为湖泊11—14湖泊6—10湖泊1—5。当湖泊湿地面积为9.2—12.2 hm2时,其降温增湿效应明显;当湖泊湿地面积为308.4hm2左右时,降温效应显著且趋于稳定,湖泊湿地面积为67.6hm2左右时,增湿效应显著且趋于稳定(P0.05)。当湖泊湿地面积达到临界值之后,多斑块离散型(Dispersive)湖泊湿地布局对整个城市环境的降温增湿效应更为显著。     

黄河流域大型天然湖泊面积与岸线形态的时空动态

天然湖泊对黄河流域的河道流量具有重要的调蓄功能，对区域生态环境、生态系统服务具有重要作用，是黄河流域生态保护和高质量发展的重要保障。本研究采用Landsat TM/OLI遥感影像，研究了1990—2020年黄河流域内东平湖、扎陵湖、鄂陵湖3个具有代表性的大型天然湖泊的面积变化，并采用景观生态学方法，分析岸线、岸带的形态特征变化，以及各景观指标间的关系。结果表明：扎陵湖和鄂陵湖的湖泊主体面积主要呈扩张趋势，而东平湖主体面积在1990—2000、2010—2020年间明显收缩，3个湖泊的面积变化均主要位于河流入湖口附近。东平湖岸线形态较复杂，其湖岸带景观的破碎程度和聚集程度发生显著变化；扎陵湖的岸线近圆率随着湖泊面积的扩张呈逐渐下降趋势，其湖岸带斑块数量变化明显；鄂陵湖的湖岸带景观分维数均值相对较高，其湖岸带景观的复杂性较强，并且2000—2010年间的湖岸斑块数量显著增长。同时，存在某些湖泊岸线及岸带景观指数显著相关的现象，湖泊近圆率、岸线发育系数的变化显著引起了岸带斑块密度的变化。     

Structure and dynamics of phytoplankton in an Amazon lake, Brazil

Natural lake systems represent important reservoirs for residential water supply, fish production, recreational activities and enjoyment of their natural beauty. Nevertheless, human impacts may affect their health status resulting in degradation and loss of biodiversity. The aim of the present study was to obtain data on the health status of a natural lake located in an indigenous reservation in the Brazilian Amazon, using the phytoplankton community changes along the rainy (June) and dry (November) seasons of 2006. We collected water (temperature, pH, Secchi depth and conductivity) and phytoplankton samples from the subsurface, middle of the water column, and approximately 30 cm above the bottom, over 24-hour sampling periods, from a central station in the lake. Samples taken from biotic and abiotic variables were correlated using canonical correspondence analysis (CCA). Results showed that the lake exhibited high temperatures in both seasons, and showed thermal stratification only during the rainy season. Dissolved oxygen exhibited a clinograde pattern in the rainy season and high oxygen in the hypolimnion in the dry season. In the rainy season, the water near the bottom was acidic, turbid and had a greater concentration of phosphorus. Dissolved oxygen, conductivity, pH, nitrite, total phosphorus and total dissolved phosphorus exhibited diel variations in the rainy season, whereas water temperature, dissolved oxygen, total nitrogen and total dissolved phosphorus exhibited significant differences between hours of the day in the dry season. The phytoplankton was represented by 39 taxa, and Chlorophyta showed the greatest species richness, totaling 25 taxa. Among Chlorophyta, desmids were the most diverse, accounting 52%. Bacillariophyta (nine species) was the second most diverse group. Cyanophyta was represented by three species, including Merismopedia tenuissima, the most abundant taxon. Despite the occurrence of taxa that indicate organic pollution, their biomass and frequency indicate that the system is not currently threatened. Lake Caracaran? is an oligotrophic system, with low algal density and isolated blooming episodes due to its shallow depth.     

Epilimnetic nutrient loading by metalimnetic erosion and resultant algal responses in Lake Waramaug,Connecticut

Phosphorus regeneration from lake sediments, and subsequent migration to trophogenic surface water, significantly contributes to the lake nutrient budgets and algal bloom conditions in some lake types. Decomposition of organic matter in deep water and sediments results in the accumulation of regenerated nutrients, alternate electron acceptors (reduced products of anaerobic respiration = COD), carbon dioxide, and depletion of dissolved oxygen (electron acceptor in aerobic respiration). Thermal stratification creates spatial segregation of trophogenic and tropholytic environments in the lake, resulting in gradients between sediments, hypolimnion, and the epilimnion. Exchange of oxygen, nutrients, and reduced alternate electron acceptors between the hypolimnion and epilimnion affects the productivity of a lake. Secchi depth, temperature, and dissolved oxygen profiles were determined twice each week from May 1980 to October 1980 at each of five lake stations. Nutrient concentration profiles, including total soluble and total phosphorus, ammonium-N, nitrate, soluble Kjeldahl, and total Kjeldahl nitrogen were determined twice each month. Epilimnetic algal samples were collected twice each week using Kemmerer and water column ‘straw’ amplers. Cell counts of total, green, bluegreen, and diatom algae groups were made. Three methods were used to describe hypolimnetic-epilimnetic exchange, including coefficients of eddy diffusion (based on lake heat budget), a graphical method of defining thermocline location, and relative thermal resistance to mixing (RTRM, based on density differences). All three methods yeilded comparable estimates of net seasonal transport. The graphical and RTRM methods described events occurring at shorter intervals (greater resolution). We find general agreement between the three methods of describing hypolimnetic-epilimnetic transport. The frequency of sampling resulted in increased resolution of thermal profiles (in time), allowing accurate estimation of short-term nutrient flux into epilimnetic waters. An algal bloom event occurred 5 to 12 days following erosion of the top of the metalimnion to below the aerobic-anaerobic interface. The lag time to peak algal concentration, following such events, decreased through the summer (June = 12 days, September = 5 days)     

鲥鯸淀浮游动物群落特征及水质评价

为掌握白洋淀典型湖泊鲥鯸淀浮游动物群落结构及水体营养状况, 于2018年秋季、2019年春季和夏季对该淀的浮游动物群落组成、密度、生物量和多样性进行调查研究, 分析了主要水质理化指标, 运用多变量统计方法分析浮游动群落结构与主要环境因子关系。共鉴定浮游动物3类52种, 其中轮虫类种类数最多, 为33种, 占64.46%。共鉴定优势种23种, 其中15个优势种为轮虫; 浮游动物密度秋季最高, 生物量夏季最高。冗余分析表明, 氨氮、COD和总磷是轮虫群落分布的主要影响因子。综合多样性指数与水质指标评估鲥鯸淀水域处于中度污染状态。研究可为白洋淀生境保护和渔业资源的可持续利用提供科学依据。     

Temporal and spatial variations of chemical oxygen demand in Lake Taihu,China, from 2005 to 2009

We undertook a study in Lake Taihu, China, from 2005 to 2009 including a total of 639 samples to determine: (i) the seasonal dynamics and spatial distribution of the chemical oxygen demand (COD) and (ii) the relationships between the COD concentration and the biochemical oxygen demand (BOD), phytoplankton pigment, total dissolved nitrogen (TDN), and total dissolved phosphorus (TDP) concentrations, as well as the chromophoric dissolved organic matter (CDOM) absorption coefficient. There were significant spatial differences in the COD concentration, which gradually decreased from Zhushan Bay in the northwest, to the north, the lake center, and the southeast of the lake. The COD concentration was significantly higher at near-shore sites than that at open water sites. The mean COD concentrations were significantly higher in the spring and summer than in the winter and autumn. The lowest annual mean COD concentration appeared in 2009, which could be attributed to improvements in water quality management and high rainfall. The COD concentrations in all four seasons were strongly correlated with phytoplankton pigment, suggesting that extracellular release of COD from phytoplankton was an important COD source. The correlation coefficients between the COD and phytoplankton pigment concentrations were higher in the spring, summer, and autumn than in the winter, showing a more important contribution of phytoplankton degradation to COD in the algal bloom season than in the non-algal bloom season. These new data on the temporal and spatial characteristics of the COD in Lake Taihu will be crucial for developing future strategies for water quality management.     

Impacts of cage culture on physico-chemical and bacteriological water quality in Lake Volta,Ghana

The effects of cage fish farming on physico-chemical and bacteriological water quality in Lake Volta, Ghana, were investigated in 2013–2014. Farmed and unfarmed (control) areas of the lake were selected for monitoring. Nutrients, temperature, dissolved oxygen, conductivity, turbidity, pH, total coliforms, Pseudomonas and Vibrio spp. in the water were monitored monthly. Analyses of the water samples were carried out according to standard procedures. Physico-chemical quality of the water in both farm and control sites were within ranges typical of minimally impacted water and did not vary significantly between the two contrasting sites. The bacteriological analysis, however, revealed contamination of the lake water by fish farming. The bacterial counts at the farmed sites were significantly higher (p < 0.05) than those of the control sites, with figures at the farmed sites ranging from 132 to 1 708 cfu 100 ml?1 for total coliforms, 514 to 5 170 cfu 100 ml?1 Pseudomonas spp. and 14 to 516 cfu 100 ml?1 for Vibrio spp. The results suggested that cage fish farming has increased bacterial loads in the lake water, but has had minimal impact on its physico-chemical quality.     

Characterization of the water quality of dam lakes on Shikoku Island, Japan

This study clarifies the distribution and variation of bioelements in dam lakes of the Shikoku region, Japan. The survey was carried out from 2002 to 2003 on three dam lakes in the Shikoku Mountains with high precipitation levels and on three dam lakes in the Sanuki mountain range with low precipitation levels. By the conventional classification for eutrophication, the dam lakes in the Shikoku Mountains were classified as oligotrophic to mesotrophic, whereas those in the Sanuki mountain range were classified as mesotrophic to eutrophic. Furthermore, for the dam lakes in the Sanuki mountain range, it was indicated that the amount of precipitation directly and indirectly affected lake water quality, such as high nitrogen concentration, low dissolved oxygen concentration, and increase in primary production. Especially, in a hypertrophic dam lake, during the period of low precipitation the surface water flowed out and the water under the thermocline, with no dissolved oxygen, appeared on the lake surface. As a result, the anaerobic environment extended across all the layers. Because a compulsory water-level operation was carried out in the dam lake, it was considered that the effect of the hydrological environment in the catchment area on the dam lake was relatively large in comparison with that in natural lakes.     

Quantifying uncertainties in biologically-based water quality assessment: A pan-European analysis of lake phytoplankton community metrics

Lake phytoplankton are adopted world-wide as a sensitive indicator of water quality. European environmental legislation, the EU Water Framework Directive (WFD), formalises this, requiring the use of phytoplankton to assess the ecological status of lakes and coastal waters. Here we provide a rigorous assessment of a number of proposed phytoplankton metrics for assessing the ecological quality of European lakes, specifically in response to nutrient enrichment, or eutrophication, the most widespread pressure affecting lakes. To be useful indicators, metrics must have a small measurement error relative to the eutrophication signal we want them to represent among lakes of different nutrient status. An understanding of variability in metric scores among different locations around a lake, or due to sampling and analytical variability can also identify how best this measurement error is minimised.To quantify metric variability, we analyse data from a multi-scale field campaign of 32 European lakes, resolving the extent to which seven phytoplankton metrics (including chlorophyll a, the most widely used metric of lake quality) vary among lakes, among sampling locations within a lake and through sample replication and processing. We also relate these metrics to environmental variables, including total phosphorus concentration as an indicator of eutrophication.For all seven metrics, 65–96% of the variance in metric scores was among lakes, much higher than variability occurring due to sampling/sample processing. Using multi-model inference, there was strong support for relationships between among-lake variation in three metrics and differences in total phosphorus concentrations. Three of the metrics were also related to mean lake depth. Variability among locations within a lake was minimal (<4%), with sub-samples and analysts accounting for much of the within-lake metric variance. This indicates that a single sampling location is representative and suggests that sub-sample replication and standardisation of analyst procedures should result in increased precision of ecological assessments based upon these metrics.For three phytoplankton metrics being used in the WFD: chlorophyll a concentration, the Phytoplankton Trophic Index (PTI) and cyanobacterial biovolume, >85% of the variance in metric scores was among-lakes and total phosphorus concentration was well supported as a predictor of this variation. Based upon this study, we can recommend that these three proposed metrics can be considered sufficiently robust for the ecological status assessment of European lakes in WFD monitoring schemes.     

阳宗海和滇池中紫色非硫细菌数量和种群结构的比较

在2002年平水期对高原湖泊阳宗海和滇池中的紫色非硫细菌(PNSB)数量和种群结构进行了比较研究。对两湖中的各因子进行t检验,发现各因子和PNSB数量都有极显著差异,富营养化湖泊滇池中的PNSB数量远远多于贫营养化湖泊阳宗海;两湖中PNSB的优势种是红假单胞菌属,也有少数的红螺菌属。两湖种群结构的区别是滇池有红微菌,而阳宗海有大量红细菌。     

玄武湖菹草种群的发生原因及人工收割对水环境的影响

利用以沉水植物为主的水生植物进行水体生态修复是目前研究的热点问题, 为研究南京玄武湖2005-2006年的菹草(Potamogeton crispus)种群发生的原因及人工收割对水体的影响, 对玄武湖不同湖区定期监测其透明度、溶解氧、pH、TN、TP等水质指标, 并进行分析, 结果表明: 对湖泊蓝藻水华的应急处理, 使水体透明度提高179.5%, DO含量增高24.1%, TN、TP分别降低54.1%、74.5%, pH由9.1降至8.7, 水质改善是菹草种群萌发并能大规模生长的主要原因。而菹草生长阶段短期内对菹草进行大规模收割使水体DO含量降低42.1%, 透明度下降51.5%(P0.05), 收割虽从水体中携带走部分氮、磷营养盐, 但差异不显著(P0.05), 且收割后TP出现升高现象。故在对草藻型湖泊生态修复过程中, 可先期通过物理或化学手段改善水体透明度、调节pH、降低营养盐, 使其满足水生植物萌发及幼苗生长的需求, 为水生植物后期存活并生长打下基础, 在后期生态管理过程中, 应逐步收割植株, 缓慢从水体携带营养盐, 以达到改善水质, 恢复及重建水生生态系统的目的。       

Bacterioplankton community structure in a eutrophic lake in relation to water chemistry

Bacteria are thought to be closely involved in the biogeochemical cycling of the nutrient elements in freshwater ecosystems. In contrast, little is known about the relationship between the bacterial community structure and the environmental factors. In order to investigate the spatial variety of bacteriplankton community structure in Lake Xuanwu (Nanjing, China) and the effects of water quality on the microbial community composition, denaturing gradient gel electrophoresis (DGGE) and multivariate statistical analysis were carried out. Eight major factors of water quality such as total organic carbon, ammonium, nitrate, nitrite, total nitrogen, total phosphorus, dissolved oxygen and pH were measured in eight different samples. The significant differences of water characteristics among different sites were revealed by principal component analysis. Results of multidimensional scaling analysis demonstrated that lake water quality played a crucial role in bacterioplankton community composition. Canonical correspondence analysis was carried out to infer the relationship between environmental variables and bacterial community structure. An influence of total nitrogen, ammonium and pH on the bacterial community was observed. The sequencing analysis results of excised DGGE bands revealed that Bacteroidetes and Proteobacteria were the dominant bacterial groups in Lake Xuanwu.