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。     

三峡库区大宁河2010年春季水华特征

以大宁河春季水华期间调查数据为基础,运用数理统计分析手段,通过描述大宁河春季水华期藻类及主要理化因子分布特征,揭示出影响藻类生长的主要因子。结果表明:大宁河春季水华期水华河段水体氮、磷含量较高,总氮浓度为1.2～4.11mg/L,平均值为1.748mg/L,总磷浓度为0.027～0.615mg/L,氮磷比均值为17.5。春季水华藻类适宜的光照强度为1400～3800lx,水温为13.0～14.0℃时叶绿素a含量有最大增长,平均水温为13.4℃,藻密度与总氮、总磷、水温、DO、pH、浊度、高锰酸盐指数呈显著正相关关系,与透明度呈负相关关系。回水河段流速小于0.05m/s,流速是藻类生长最主要的限制因子。大宁河回水河段春季水华藻类分布较广,主要有甲藻门、绿藻门、硅藻门、隐藻门、蓝藻门、裸藻门和黄藻门7门28属,其中甲藻门分布最广,其次是绿藻门。春季水华优势种主要有甲藻门的拟多甲藻,绿藻门的衣藻、小球藻,硅藻门的直链藻,蓝藻门的色球藻等。     

水源水除藻研究中藻类监测方法的选用

对显微计数和叶绿素α测定两种主要藻类的监测方法进行了简要评述，提出在水源水除藻研究中应针对不同的除藻机制，采取不同的藻类监测方法。化学氧化除藻大都使用强氧化剂，将它们投入含藻的水体后，能穿透藻类细胞壁，扩散至细胞内部氧化叶绿素，使藻类代谢终止、死亡，故宜采用叶绿素α法。生物法除藻是利用生物对藻类的吸附、捕食和分解等作用去除藻类，则应采用计数法。     

南京南湖底泥疏浚后水质演化规律调查

对疏浚后的南京南湖底泥的TP、TN和COD释放规律、补水后的水质状况以及藻类演替规律进行了调查。结果表明,上覆水中TP平均质量浓度基本不随自来水补入量的增加而发生变化,TN和COD质量浓度随自来水补入量的增加而增大;水体中的TP、TN和COD含量总体呈上升趋势;从2005年3月中旬起,出现藻类的大量繁殖,在2005年7月发生水华,藻类优势种由裸藻、隐藻和小环藻演替为裸藻、栅藻和韦斯藻,藻类总量由2005年3月的3.7×106L-1上升到2006年4月的1.5×107L-1。     

典型湖泊水华特征及相关影响因素分析

通过2011-2015年对太湖、巢湖和滇池水华高发季节的连续监测，以藻类密度和水华面积为判据评价了3个湖体的水华情况及变化趋势，探讨了水华发生的主要影响因素。结果表明：太湖水华程度以"轻度水华"为主，巢湖水华程度以"轻微水华"为主，滇池水华程度以"中度水华"为主；太湖、巢湖和滇池水华规模均以"零星性水华"为主；太湖和巢湖藻类密度与水温、pH、溶解氧、总氮、总磷和高锰酸盐指数均呈显著正相关，与透明度呈显著负相关，与氨氮无显著相关性；滇池藻类密度与水温、总磷和高锰酸盐指数均呈显著正相关，与透明度和氨氮呈显著负相关，与pH、溶解氧和总氮无显著相关性。     

三峡175米蓄水期间春季嘉陵江出口段藻类变化

为认识三峡大坝175m蓄水对春季嘉陵江藻类的影响,开展了春季嘉陵江出口段藻类活动频繁时期的现场调研。结果表明,与2007年春季相比,三峡大坝175m实验性蓄水期间,2009年春季嘉陵江出口段水位上涨、流速减缓、水体容量增大,营养盐受到一定程度稀释;硅藻为嘉陵江出口段绝对优势藻种,其中星肋小环藻与极小冠盘藻为水华藻种,星肋小环藻具有快速增长性,流速变缓不利于硅藻繁殖,致使总藻密度降低,总藻种数增加,其中绿、蓝、硅藻增加百分比较大,藻类多样性增大。     

基于BP神经网络的藻类水华预测模型研究

以宁波大学校内池塘2009年3—10月间30周的监测数据为基础,运用BP人工神经网络方法构建预测模型,探求颤藻生物量与总氮、总磷、透明度等6项环境因子之间的关系,选出最佳预测模型,并对模型进行敏感度分析。结果显示:①BP神经网络模型对颤藻生物量预测值与实测值之间拟合程度良好,相关系数达到了0.984,说明BP神经网络模型可以用于水体中藻类水华的短期预测。②通过对构建的BP神经网络模型进行敏感度分析,阐明了宁波大学校内池塘藻类水华的主要驱动因素,并指出控制水体的pH是宁波大学校内池塘藻类水华防治工作的重点。     

7种化合物对新月藻的毒性效应及敏感度差异研究

以新月藻为受试生物,研究了阿特拉津、马拉硫磷、草甘膦、甲苯4种有机化合物和HgCl₂、NaAsO₂、K₂Cr₂O₇ 3种金属化合物对新月藻的毒性效应,探讨了新月藻对这些化合物的敏感度差异与特点及其机理,为这些物质的藻类急性毒性提供基础数据。结果表明,新月藻对阿特拉津、草甘膦、HgCl₂、NaAsO₂、K₂Cr₂O₇敏感度较高,而且响应大小与化合物浓度呈正相关趋势,对马拉硫磷和甲苯有一定响应,但随浓度变化趋势不明显;基于藻类光合作用的急性毒性检测方法,适用于检测可阻碍或抑制藻类光合作用中电子迁移、氧化还原、自由基等反应的毒物。     

盐城市主要入海河流着生藻类群落特征及水生态评价

为研究盐城入海河流水生态质量状况,于2022年5月和9月对盐城主要入海河流着生藻类群落结构进行调查,并基于河流水生态环境质量综合评价指数对10条入海河流进行水生态评价。结果表明,全年水质优Ⅲ类以上断面比例为70%,高锰酸盐指数和溶解氧是影响断面水质的主要影响因子;着生藻类香农-维纳（Shannon Wienner）多样性指数（H′）为2.77～4.4,平均值为3.97,评价级别总体为优秀。调查发现,着生藻类包括硅藻、绿藻、蓝藻、裸藻、甲藻、隐藻和黄藻共7门129种,其中5月发现着生藻88种（属）,9月发现着生藻95种（属）,硅藻门为全年优势种。河流水生态环境质量综合评价指数（WEQI）评价结果为良好,良好级别占比80%,制约盐城主要入海河流生态质量综合指数的因素为水质和生境。     

微囊藻毒素-LR污染饮水的健康风险及其机制

水体富营养化导致藻类繁殖和水华暴发从而使得藻类释放大量藻毒素，已经演变成为严重的公共卫生问题之一。微囊藻毒素通过饮水严重危害动物和人类的健康安全，最主要的靶器官是肝脏，从而造成肝细胞功能缺陷，比如黄疸和磷酸化活性改变。这些毒性效应主要表现为对磷酸酶的抑制和蛋白磷酸酶活性的调节。综上，微囊藻毒素会造成组织结构损伤、凋亡，即使在低浓度下，也会影响细胞周期，导致肿瘤发生。     

巢湖水华遥感监测与年度统计分析研究

介绍了巢湖蓝藻水华的日常遥感监测方法与流程,开展了基于日常监测的年度统计分析,为水华环境管理提供了科学依据。首先分析了蓝藻水华与正常水体的光谱差异,利用蓝藻水华在近红外波段的"陡坡效应",基于NDVI方法开展水华日常遥感监测。基于日常监测开展水华年度统计分析,获得水华最早发生日期、最晚发生日期、最大发生面积等,并以水华发生频率、水华起始日期和水华持续时间来分析巢湖一年内高发区、发展趋势及持续时间等时空分布规律。研究表明,2010年巢湖水华的高发区域在巢湖西北部水域,水华持续天数最长的区域是巢湖西北和中部部分区域,水华先在西部沿岸聚集,随时间推移向东部和中部扩散,巢湖西南、中部和东南沿岸是最后新增的水华区域。     

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。     

洋河水库蓝藻水华爆发预测影响因子研究

为了预测洋河水库富营养化变化趋势和蓝藻水华爆发的风险,对洋河水库水体进行采样,分析其环境质量.研究结果表明,近年来洋河水库叶绿素a含量处于高位,氮、磷含量不断上升,特别是总氮质量浓度在5 mg/L左右,主要以硝态氮的形式存在,富营养化程度不断加剧,具有大规模爆发蓝藻水华的风险.对洋河水库藻华爆发的环境条件进行分析,提出...     

蠡湖综合整治十年来水环境变化的研究

对蠡湖2002-2012年湖体水质、富营养化状况和浮游植物种群进行了研究.结果表明,经过十年蠡湖综合整治工程,蠡湖水环境有了显著改善.TN、TP、NH3-N、CODMn和Chl-a浓度分别下降85.2％、70.4％、96.2％、55.3％和81.6％;TLI由70.9降至52.0,水体由中度富营养好转为轻度富营养;浮游植物种群结构有所演变,近二年种群结构呈现明显季节性差异,夏季蓝藻中的微囊藻成优势种,约占整个水体藻类密度的90％以上.蠡湖水质显著改善的同时,藻类水华情况未得到本质好转,在适宜的水文气象条件下易发生藻类水华.建议提高水体透明度,增加水体流动性,为进一步改善蠡湖水环境,乃至改善湖河小流域水环境起积极作用.     

Mercury and selenium levels in lemon sharks (Negaprion brevirostris) in relation to a harmful red tide event

Tissue levels of mercury (Hg; total, organic) and selenium (Se) were assessed in juvenile lemon sharks (Negaprion brevirostris) from Florida nearshore waters collected during a harmful algal bloom (HAB, brevetoxin) event and compared with sharks not exposed to HABs. In all sharks studied, total Hg levels in the muscle were generally present in a molar excess over Se (which may protect against Hg toxicity) and mean muscle Hg levels (0.34  $\upmu $ g/g) exceed safe human consumption guidelines. While there was generally no difference in tissue Hg and Se levels following exposure of sharks to HABs, hepatic Hg levels were significantly lower (56% reduction) in the HAB-exposed sharks compared to controls. As Hg and HABs are globally increasing in scope and magnitude, further work is warranted to assess their interactions and biotic impacts within aquatic ecosystems, especially for a species such as the lemon shark that is classified as a near-threatened species by the International Union for the Conservation of Nature.     

Phytoplankton variation and its relationship with the environment in Xiangxi Bay in spring after damming of the Three-Gorges, China

Following the completion of the Three-Gorges Dam, there was a strong spring phytoplankton bloom in Xiangxi Bay of Three-Gorges Reservoir. However, our knowledge of relationship between spring phytoplankton bloom and environmental factors was still limited. In this study, phytoplankton species composition, biomass, chlorophyll a concentration and environmental factors at two sampling sites in Xiangxi Bay were investigated during 25 March to 18 May 2007. The Xiangxi Bay was eutrophic with the lowest values of total nitrogen and total phosphorus being 0.80 and 0.07?mg/L, respectively. A total of 66 algal taxa belonging to seven phyla and 45 genera were identified. Peridiniopsis niei Liu was the most abundant species which preferred standing water. Canonical correspondence analysis and correlation analysis revealed that nitrate was significantly associated with phytoplankton growth. The phytoplankton chlorophyll a concentration was correlated significantly negatively with nitrate concentration, and nitrate concentration was very low during bloom periods. Heavy rainfall was the main reason of phytoplankton chlorophyll a concentration and biomass decreasing and blooms disappearing. In addition, heavy rainfall also brought more nitrate into the Bay which provided sufficient nitrogen source for blooms occurring again.     

Monitoring of ocean surface algal blooms in coastal and oceanic waters around India

The National Aeronautics and Space Administration’s (NASA) sensor MODIS-Aqua provides an important tool for reliable observations of the changing ocean surface algal bloom paradigms in coastal and oceanic waters around India. A time series of the MODIS-Aqua-derived OSABI (ocean surface algal bloom index) and its seasonal composite images report new information and comprehensive pictures of these blooms and their evolution stages in a wide variety of events occurred at different times of the years from 2003 to 2011, providing the first large area survey of such phenomena around India. For most of the years, the results show a strong seasonal pattern of surface algal blooms elucidated by certain physical and meteorological conditions. The extent of these blooms reaches a maximum in winter (November–February) and a minimum in summer (June–September), especially in the northern Arabian Sea. Their spatial distribution and retention period are also significantly increased in the recent years. The increased spatial distribution and intensity of these blooms in the northern Arabian Sea in winter are likely caused by enhanced cooling, increased convective mixing, favorable winds, and atmospheric deposition of the mineral aerosols (from surrounding deserts) of the post-southwest monsoon period. The southward Oman coastal current and southwestward winds become apparently responsible for their extension up to the central Arabian Sea. Strong upwelling along this coast further triggers their initiation and growth. Though there is a warming condition associated with increased sea surface height anomalies along the coasts of India and Sri Lanka in winter, surface algal bloom patches are still persistent along these coasts due to northeast monsoonal winds, enhanced precipitation, and subsequent nutrient enrichment in these areas. The occurrence of the surface algal blooms in the northern Bay of Bengal coincides with a region of the well-known Ganges–Brahmaputra Estuarine Frontal (GBEF) system, which increases supply of nutrients in addition to the land-derived inputs triggering surface algal blooms in this region. Low density (initiation stage) of such blooms observed in clear oceanic waters southeast and northeast of Sri Lanka may be caused by the vertical mixing processes (strong monsoonal winds) and the occurrence of Indian Ocean Dipole events. Findings based on the analyses of time series satellite data indicate that the new information on surface algal blooms will have important bearing on regional fisheries, ecosystem and environmental studies, and implications of climate change scenarios.     

贵州黔东南州三板溪水库春季拟多甲藻水华特征

2011年3月13日对贵州省黔东南州三板溪水库进行春季浮游植物调查的结果表明,三板溪水库Ⅱ号采样点(下革东)发生以佩纳形拟多甲藻为优势种的拟多甲藻水华,细胞密度高达1.15×10⁷cell/L;板溪水库总氮的最低值为2.09 mg/L,总磷的最低值为0.95 mg/L,三板溪水库的总氮、总磷含量较丰富,不存在总氮或总磷是限制性因子;通过SPSS16.0统计软件分别进行Pearson 积距相关系数分析表明,氮磷比是三板溪水库发生拟多甲藻水华的主要影响原因。     

Arsenic accumulation in native plants of West Bengal, India: prospects for phytoremediation but concerns with the use of medicinal plants

Arsenic (As) is a widespread environmental and food chain contaminant and class I, non-threshold carcinogen. Plants accumulate As due to ionic mimicry that is of importance as a measure of phytoremediation but of concern due to the use of plants in alternative medicine. The present study investigated As accumulation in native plants including some medicinal plants, from three districts [Chinsurah (Hoogly), Porbosthali (Bardhman), and Birnagar (Nadia)] of West Bengal, India, having a history of As pollution. A site-specific response was observed for Specific Arsenic Uptake (SAU; mg kg(-1) dw) in total number of 13 (8 aquatic and 5 terrestrial) collected plants. SAU was higher in aquatic plants (5-60 mg kg(-1) dw) than in terrestrial species (4-19 mg kg(-1) dw). The level of As was lower in medicinal plants (MPs) than in non-medicinal plants, however it was still beyond the WHO permissible limit (1 mg kg(-1) dw). The concentration of other elements (Cu, Zn, Se, and Pb) was found to be within prescribed limits in medicinal plants (MP). Among the aquatic plants, Marsilea showed the highest SAU (avg. 45 mg kg(-1) dw), however, transfer factor (TF) of As was the maximum in Centella asiatica (MP, avg. 1). Among the terrestrial plants, the maximum SAU and TF were demonstrated by Alternanthera ficoidea (avg. 15) and Phyllanthus amarus (MP, avg. 1.27), respectively. In conclusion, the direct use of MP or their by products for humans should not be practiced without proper regulation. In other way, one fern species (Marsilea) and some aquatic plants (Eichhornia crassipes and Cyperus difformis) might be suitable candidates for As phytoremediation of paddy fields.     

基于气象条件的太湖湖泛预警研究

2007年5月与2008年5月太湖水域产生的湖泛主要是由蓝藻水华引发的,但是蓝藻水华单纯地在湖湾或岸边浅水区大量堆积并不一定引发湖泛。研究发现,2007年5月与2008年5月的湖泛现象存在相同的触发机制:3d以上时间维持高温(平均气温大于20℃),微风(平均风速小于4m/s),风向基本一致(风向平均绝对偏差小于20°);其后,冷空气过境使得风速短时增大,风向调转180°左右,气温迅速降低,并且这种气象条件持续1d以上。在此研究基础上,给出了切实可行的太湖湖泛预警方案。