韶关市3座供水水库蓝藻种群及微囊藻毒素的季节变化

为了解供水水库的蓝藻种群和微囊藻毒素的季节变化,于2012年1—12月对韶关的苍村、瀑布和花山3座供水水库进行了采样分析。结果表明,3座水库为中营养型水库,监测蓝藻共9属(种),优势种为鱼腥藻和微囊藻,蓝藻最高丰度为5.67×107L-1;降水导致营养盐物质带入水库和水体不稳定性是蓝藻种群和优势种在夏秋两季季节变化和占优势的主要影响因子。3座水库ρ(微囊藻毒素)为0.1~0.9μg/L,最高值接近世界卫生组织对饮用水中MC-LR的指导性限制值(1μg/L)标准。微囊藻与微囊藻毒素呈显著正相关性(R=0.871,P0.01),表明产微囊藻毒素的蓝藻主要为微囊藻,当水库发生微囊藻水华时有发生微囊藻毒素的风险。     

湖泊水中微囊藻毒素与富营养化指标的相关关系及时空分布规律研究

对某湖泊某点 2 4小时 ,每隔两小时 ,按 0 .5、1.5、2 .5米水深采水样调查。结果表明 ,该点微囊藻毒素对数与时间、叶绿素、总氮、藻细胞数和化学需氧量有关 (R2 =0 .5 5 9,P=0 .0 0 7)。一天 2 4小时微囊藻毒素有三个峰 ,尤以晨曦和黄昏为高。将时间和深度相结合 ,可以发现 2 0 :0 0到 2 4:0 0点水深 2 .5米处微囊藻毒素水平较低。     

太湖梅梁湾水源水中微囊藻毒素浓度的变化

对太湖梅梁湾水源水中的总藻毒素TMC[(TMC-LR) (TMC-RR)]和胞外藻毒素EMC[(EMC-LR) (EMC-RR)]进行了跟踪检测.结果表明,水体中TMC-RR、TMC-LR、EMC-RR、EMC-LR质量浓度平均分别为1.819 μg/L、1.090 μg/L、0.491 μg/L和0.077 μg/L,无锡市的主要水源地水质已受到微囊藻毒素的污染.提出,应加强水源地水体中微囊藻毒素浓度的监测,确保饮用水的安全.     

海河流域东北部地表水水源地藻类及代谢物研究

同时对海河流域东北部6个水库型地表水水源地开展了藻类及微囊藻毒素(MC-LR和MC-RR)相关研究工作。研究结果表明:海河流域东北部6个水库型地表水水源地中水体富营养化程度有明显改善,但于桥水库、洋河水库水体仍呈富营养化状态并检出MC-LR和MC-RR。另外,富营养化程度高的水体中蓝藻占明显优势,并且微囊藻毒素浓度与其成正相关关系。虽然检出的MC-RR和MC-LR浓度均低于《生活饮用水卫生规范》标准限制,但是在蓝藻暴发期间(特别是暴发后期)应加密监测,确保微囊藻毒素浓度不会对供水人群健康造成危害。     

杭州贴沙河微囊藻毒素污染特征及健康风险评价

在2014年9月杭州贴沙河出现蓝藻异常增殖期间,利用固相萃取-液质联用法对水体中胞外微囊藻毒素(EMC)和总微囊藻毒素(TMC)进行监测。共检出以MC-LR为主的8种微囊藻毒素(MC)单体,TMC总的质量浓度为63.9 ng/L~1 090 ng/L,其中MC-LR质量浓度为31.6 ng/L~472 ng/L,毒性等效MC-LR浓度为51.8 ng/L~862 ng/L,检出的MC-LR浓度值均低于限值标准。采用USEPA推荐模型对水体中MC污染的健康风险进行评价。各批次水样中MC-LR的非致癌健康风险指数(HI)为0.03~0.39,毒性等效MC-LR的HI介于0.04和0.72之间,均低于基准值,说明贴沙河作为饮用水水源尚无明显的健康风险。     

微囊藻毒素的极谱测定法

建立了微囊藻毒素的一种新的测定方法.在Ni2 -硼砂为支持电解质的体系中,微囊藻毒素-RR在-1.55V产生一个极谱波.在此实验条件下,微囊藻毒素在1.50～8.00mg/L浓度范围内,极谱波高与微囊藻毒素浓度有良好的线性关系,线性相关系数为0.998,检测限为0.07mg/L.同时对测定条件进行了研究,并探讨了极谱电流的性质,认为该极谱波是一个催化氢波;常见无机物和有机物不干扰本法测定,具有良好的选择性.该方法用于实际水样测定,获得了满意结果.     

响应面法优化测定水体中微囊藻毒素

针对水体中低浓度微囊藻毒素(MC-RR和MC-LR)的富集、淋洗、洗脱等前处理环节,采用单因素响应面优化法探讨微囊藻毒素前处理的最佳条件。结果表明:采用体积分数为25%的甲醇水溶液能够取得最佳淋洗效果,由One Factor设计优化得到体积分数为75%的甲醇水溶液作洗脱剂,MC-RR和MC-LR最佳回收率为89.4%和90.7%。方法在0.100 mg/L~5.00 mg/L范围内线性良好,MC-RR和MC-LR的检出限分别为0.07μg/L和0.04μg/L,实际水样加标回收率分别为80.6%和84.9%,平行测定结果的RSD分别为1.6%和2.4%。     

城市空气质量管理体系的监测技术及模式

无论在任何地点的污染物浓度都是来自不同范围内不同排放源贡献的加和。一个采样点的污染物浓度是以下几种浓度的加和:自然界的背景浓度;地区的背景浓度;采样点周边的城市平均浓度;附近排放源,如街道、点源(工厂、供热厂)等的影响。1　监测网络的设计设计监测系统网络的两种方案:(1)对城市,在人为划定的固定网格的交叉点附近设置采样点。如果交叉点靠近某个排放源,则需要仔细调整采样点的位置。这种方法导致大量的采样点,并为绘制空气污染等浓度曲线提供了可能性。其空间分配率就是网络大小的尺度。(2)采样点有选择地置于最具代表性的地方。…     

2013—2020年泸沽湖溶解氧随时间变化规律及主要影响因素分析

泸沽湖坐落于川滇交界处,是中国典型高原淡水湖泊。对泸沽湖水质的客观评价对于其规划保护及保护成效评估极为重要。鉴于溶解氧常常成为决定泸沽湖水质类别的唯一关键指标,在综合分析泸沽湖2013—2020年连续8年水环境主要指标变化的基础上,着重分析了溶解氧随季节、年际等的变化情况及其主要影响因素。结果表明,溶解氧浓度及饱和率存在明显的季节和年际波动。其中:溶解氧浓度一般是在春季升至全年最高,夏季末降低,并在秋冬季维持低位;溶解氧饱和率则是夏秋季节最高,冬季最低。溶解氧浓度的季节变化与水温显著负相关,而溶解氧饱和率的季节变化和水温、pH显著正相关;溶解氧浓度及饱和率的年际变化与水质主要指标均不存在显著相关关系。受高海拔低气压影响,虽然采取了大气压和温度补偿校准,但泸沽湖溶解氧浓度仍不易达到Ⅰ类水质标准限值(7.5 mg/L);而优良的水质加之茂盛的水生植被使得其溶解氧饱和率长期处于较高水平,可以达到Ⅰ类标准限值(90%)。因此,在自然环境特征类似于泸沽湖的水质优良高原湖泊,优先以饱和率作为溶解氧的评价指标更为合理。     

氮、磷等环境因子对太湖微囊藻与水华鱼腥藻生长的影响

为探索太湖主要水华藻类（微囊藻与水华鱼腥藻）在多种环境因子作用下的生长变化机理，在实验室内对部分水华藻类（微囊藻、鱼腥藻）进行分离培养，研究氮、磷、温度等环境因子对水华藻类生长增殖的影响。研究表明，高水温（30℃）是微囊藻的最适生长温度；随着氮、磷浓度的提高，微囊藻的生长速率加快；低磷是鱼腥藻生长的限制因子。同时，通过野外测定的各项指标发现，当藻类密度较低时，其与总氮、总磷呈正相关。     

Spatial and temporal variability in the relationship between cyanobacterial biomass and microcystins

The increasing incidence of toxic cyanobacterial blooms, together with the difficulties to reliably predict cyanobacterial toxin (e.g. microcystins) concentration, has created the need to assess the predictive ability and variability of the cyanobacterial biomass–microcystin relationship, which is currently used to assess the risk to human and ecosystems health. To achieve this aim, we assessed the relationship between cyanobacterial biomass and microcystin concentration on a spatiotemporal scale by quantifying the concentration of cyanobacterial biomass and microcystin in eight lakes over 9 months. On both a temporal and spatial scale, the variability of microcystin concentration exceeded that of cyanobacterial biomass by up to four times. The relationship between cyanobacterial biomass and microcystin was weak and site specific. The variability of cyanobacterial biomass only explained 25 % of the variability in total microcystin concentration and 7 % of the variability of cellular microcystin concentration. Although a significant correlation does not always imply real cause, the results of multiple linear regression analysis suggest that the variability of cyanobacterial biomass and cellular microcystin concentration is influenced by salinity and total phosphorus, respectively. The weak cyanobacterial biomass–microcystin relationship, coupled with the fact that microcystin was present in concentrations exceeding the WHO drinking water guidelines (1 μg?L^?1) in most of the collected samples, emphasizes the high risk of error connected to the traditional indirect microcystin risk assessment method.     

水体中MC-LR的高效液相色谱检测前处理条件优化

通过正交实验设计,对水体中MC-LR前处理过程中SPE柱的选择、水样pH值、洗脱液有机相浓度、酸度和体积等关键因素进行综合分析,得出最优前处理方案。通过精密度和加标回收实验,得出该方法精密度为4.81%,加标回收率为98.96%。     

生物监测中叶绿素a浓度与藻类密度的关联性研究

通过测定叶绿素a浓度、藻类密度和藻类分类计数等,获取"水华"水体生物监测数据。统计分析结果表明,叶绿素a浓度和藻类密度在蓝藻"水华"(微囊藻为优势种)暴发期间存在显著相关,并拟合出了回归直线。且叶绿素a浓度和藻类密度的自然对数比值也与藻类发生和兴衰存在着规律性联系。     

Use of in vivo phycocyanin fluorescence to monitor potential microcystin-producing cyanobacterial biovolume in a drinking water source

The source water of a drinking water treatment plant prone to blooms, dominated by potential microcystin-producing cyanobacteria, was monitored for two seasons in 2007-2008. In the 2008 season, the median value for potential microcystin-producing cyanobacterial biovolume was 87% of the total phytoplankton biovolume in the untreated water of the plant. Depth profiles taken above the plant's intake identified three sampling days at high risk for the contamination of the plant's raw water with potentially toxic cyanobacteria. Chlorophyceae and Bacillariophyceae caused false positive values to be generated by the phycocyanin probe when cyanobacteria represented a small fraction of the total phytoplanktonic biovolume present. However, there was little interference with the phycocyanin probe readings by other algal species when potential microcystin-producing cyanobacteria dominated the phytoplankton of the plant's untreated water. A two-tiered method for source water monitoring, using in vivo phycocyanin fluorescence, is proposed based on (1) a significant relationship between in vivo phycocyanin fluorescence and cyanobacterial biovolume and (2) the calculated maximum potential microcystin concentration produced by dominant Microcystis sp. biovolume. This method monitors locally-generated threshold values for cyanobacterial biovolume and microcystin concentrations using in vivo phycocyanin fluorescence.     

Pond bank access as an approach for managing toxic cyanobacteria in beef cattle pasture drinking water ponds

Forty-one livestock drinking water ponds in Alabama beef cattle pastures during were surveyed during the late summer to generally understand water quality patterns in these important water resources. Since livestock drinking water ponds are prone to excess nutrients that typically lead to eutrophication, which can promote blooms of toxigenic phytoplankton such as cyanobacteria, we also assessed the threat of exposure to the hepatotoxin, microcystin. Eighty percent of the ponds studied contained measurable microcystin, while three of these ponds had concentrations above human drinking water thresholds set by the US Environmental Protection Agency (i.e., 0.3 μg/L). Water quality patterns in the livestock drinking water ponds contrasted sharply with patterns typically observed for temperate freshwater lakes and reservoirs. Namely, we found several non-linear relationships between phytoplankton abundance (measured as chlorophyll) and nutrients or total suspended solids. Livestock had direct access to all the study ponds. Consequently, the proportion of inorganic suspended solids (e.g., sediment) increased with higher concentrations of total suspended solids, which underlies these patterns. Unimodal relationships were also observed between microcystin and phytoplankton abundance or nutrients. Euglenoids were abundant in the four ponds with chlorophyll concentrations >?250 μg/L (and dominated three of these ponds), which could explain why ponds with high chlorophyll concentrations would have low microcystin concentrations. Based on observations made during sampling events and available water quality data, livestock-mediated bioturbation is causing elevated total suspended solids that lead to reduced phytoplankton abundance and microcystin despite high concentrations of nutrients, such as phosphorus and nitrogen. Thus, livestock could be used to manage algal blooms, including toxic secondary metabolites, in their drinking water ponds by allowing them to walk in the ponds to increase turbidity.     

Detection and quantification of major toxigenic Microcystis genotypes in Moo-Tan reservoir and associated water treatment plant

Two molecular methods, denaturing gradient gel electrophoresis (DGGE) and quantitative real-time polymerase chain reaction (qPCR) with the Universal ProbeLibrary (UPL) probe, were developed and used for the characterization and quantification of several microcystin producers in Moo-Tan Reservoir (MTR), Taiwan and its associated water treatment plant (Shih-Men Water Treatment Plant, SMWTP). Internal transcribed spacer (ITS) sequence, a highly diversified region between the 16S rRNA and 23S rRNA genes, was used to further identify the isolated strains from MTR and also used in DGGE for the detection of the specific DNA fragments and biomarkers for 11 strains observed in MTR. These ITS-DGGE biomarkers were successfully applied to monitor the community changes of potential toxigenic Microcystis sp. over a period of five years. Two highly specific primers were combined with UPL probes to measure microcystins synthesis gene (mcyB) and phycocyanin intergenic spacer region (cpcB) concentrations in water samples. The copy concentrations of UPL-mcyB and UPL-cpcB correlated well with MC-RR concentrations/water temperature and Microcystis sp. cell numbers in the water samples, respectively. For SMWTP, toxin concentrations were low, but the DGGE bands clearly demonstrated the presence of potential microcystin producers in both water treatment plants and finished water samples. It was demonstrated that toxigenic Microcystis sp. may penetrate through the treatment processes and pose a potential risk to human health in the drinking water systems.     

细菌在近海污染监测及评价中的应用研究

通过对天津渤海湾的三个河流入海口(青静黄排水河、独流减河和海河),不同季节实地采集的水样中微生物数量及理化因子如温度、盐度、溶解氧(DO)、化学需氧量(COD)、无机氮等的研究,发现细菌指标与理化指标对污染指示结果有一定的相似性,都指示青静黄排水河河口污染较严重.利用SPSS软件的相关性分析方法对实验结果进行分析,发现水环境中细菌指标与理化因子具有一定的相关性.其中异养菌数与COD呈显著正相关性(P<0.05),与DO呈负相关性(P=0.051);大肠菌群数与理化因子DO呈极显著负相关关系(P<0.01),与COD呈正相关关系(P=0.061),与NO3-N,盐度呈负相关性(P>0.05).其他细菌指标与各理化因子也存在一定的相关性,但不明显.     

Study of Geochemical Association of Some Trace Metals in the Sediments of Chilika Lake: A Multivariate Statistical Approach

In order to establish the natural processes and geochemical factors responsible for enrichment of trace metal ions (Cu, Co, Ni, Zn and Cr) with respect to textural parameters (sand, silt and clay weight percentages) along with depth, multivariate statistical approach has been carried out for sediments in different water zones of Chilika lake, the largest brackish water lagoon in Asia. The rotated varimax factor results reveal that Cobalt enrichment is controlled by both textural parameters as well as adsorption mechanism. In fresh and saline water region, textural parameters and in mixed water, adsorption phenomenon predominates. Zn in fresh water is related to clay, whereas it is in adsorbed state in mixed water. Cu in fresh water sediments is in absorbed state and in mixed water it is related to depth and Co concentration. Cr does not show any specific association in fresh water, but in both mixed and saline water it is associated with clay minerals. Although both textural parameters and adsorption mechanism play an important role for the enrichment of trace metal ions in these lagoonal sediments, their relative importance varies with specific metal ions as well as the water quality. Sequential extraction technique was used to characterize the various forms of metals in the < 63μ size sediments of Chilika lake. The concentrations determined indicated selective accumulation of the various metals in the different phases with spatial variability in different water zones. Slightly higher availability of Co and Zn near Balugaon township in exchangeable phase may be related to anthropogenic activities. Among the non-lithogenous (NL) phases, reducible phase associated with higher concentration of Ni, Cu and Cr. Organic bound Zn and Co contributed highest percentages among NL fractions. Residual fraction contributed more than 50% in most of the cases, reflected the predominance of physical weathering, high erosion rate along the drainage basin.     

Temporal variation in density and diversity of cyanobacteria and cyanotoxins in lakes at Nagpur (Maharashtra State), India

Toxic cyanobacteria (TCB) are known worldwide for the adverse impacts on humans and animals. Species composition and the seasonal variation of TCB in water bodies depend on interactions between physical and chemical factors. The present investigation delineates temporal variations in physico-chemical water quality parameters, viz. nutrients and density, diversity, and distribution of toxic cyanobacteria and cyanotoxins in Lake Ambazari (21°7′52″N, 79°2′22″E) and Lake Phutala (21°9′18″N, 79°2′37″E) at Nagpur (Maharashtra State), India. These lakes are important sources of recreational activities and fisheries. Toxic cyanobacterial diversity comprised Anabaena, Oscillatoria, Lyngbya, Phormidium, and Microcystis, a well-known toxic cyanobacterial genus, as dominant. Chlorophyll-a concentrations in the lakes ranged from 1.44 to 71.74 mg/m³. A positive correlation of Microcystis biomass existed with orthophosphate-P (p?<?0.05) and nitrate-N (p?>?0.05). Identification and quantification of microcystin variants were carried out by high performance liquid chromatography equipped with photodiode array detector. Among all the tested toxin variants, microcystin-RR (arginine–arginine) was consistently recorded and exhibited a positive correlation (p?<?0.05) with Microcystis in both the water bodies. Microcystis bloom formation was remarkable between post-monsoon and summer. Besides nutrient concentrations governing bloom formation, the allelopathic role of microcystins needs to be established.     

地表水泥沙与总磷测定值的相关性分析

为研究总磷与泥沙之间的质量浓度关系,采集了三峡库区7个断面的地表水样品,通过筛分、滤膜过滤等方式,分离了水样中不同粒径的泥沙,得到含不同泥沙质量浓度的水样,并同步分析了水样中泥沙和总磷的质量浓度.结果表明,在丰水期,总磷主要来源于泥沙中吸附的有机磷和无机磷,而溶解态磷较少.泥沙与总磷质量浓度可以用线性关系和对数关系模拟,泥沙是影响地表水中总磷测定结果的主要原因之一.