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Standing stock and production rate of phytoplankton and a red tide outbreak in a heavily eutrophic embayment, Dokai Bay, Japan. 总被引:4,自引:0,他引:4
The seasonal variation of phytoplankton biomass and primary productivity in a heavily eutrophic embayment, Dokai Bay, Japan, was determined. Dokai Bay was characterized by high phytoplankton biomass and productivity during summer and low phytoplankton biomass and productivity during other seasons. The results suggested that phytoplankton growth was limited by only irradiance and water temperature under the high nutrient concentrations available for phytoplankton growth in the entire year. Moreover, in spite of sufficient nutrient for phytoplankton growth in the entire year, a red tide occurred only in the summer period in this bay. Our results suggested that a red tide occurred by the high phytoplankton growth rate in the summer season, but in other periods surface phytoplankton was flushed out of the bay before forming the red tide, because phytoplankton growth rate was low and could not form the red tide due to low irradiance and low water temperature. 相似文献
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山东某新建水库浮游藻类的群落结构特征及其环境驱动因子 总被引:2,自引:1,他引:1
基于山东某新建水库中2014年4月-2017年12月的浮游藻类和水质监测结果,研究了藻类群落结构特征,采用非度量多维尺度分析了各年份不同季节藻类群落结构的相似性,利用冗余分析探究了藻类群落结构和环境因子的关系.结果表明:尖针杆藻(Synedra acus)、湖泊伪鱼腥藻(Pseudanabaena limnetica)和小球藻(Chlorella vulgaris)为此水库的主要优势藻种.水库藻类群落结构的季节演替不稳定,冬、春季多以硅藻和绿藻占优势,不同年份夏、秋季藻类结构差异较大,蓝藻和硅藻在夏、秋季存在一定的竞争优势.该水库于2013年底开始启用,由于水体环境的波动,藻类群落结构有所变化,整体上是由蓝藻-绿藻-硅藻向硅藻-绿藻-蓝藻变化.水库浮游藻类生长主要受到氮盐和高锰酸盐指数影响,但不同年份的主要环境影响因子存在一定差异. 相似文献
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广东长潭水库富营养化与浮游植物分布特征 总被引:2,自引:1,他引:1
为掌握梅州市长潭水库富营养化状态与浮游植物分布特征,为控制藻类水华暴发提供科学依据,2011年10月至2012年7月,在长潭水库关键断面选取10个监测点,测定水体理化特征、浮游植物种类、丰度等指标,采用营养状态指数(TLI)和Shannon-Wiener多样性指数法对水质污染现状进行评价,并分析浮游植物类群分布特征.结果表明:长潭水库水体富营养状态在4、10和12月处于中营养级,7月份处于富营养级,营养指数从库区中游上游逐渐降低;观测期间共检出浮游植物4门11科16属,通过丰度比较,发现长潭水库以蓝绿藻为优势种,并且季节变化明显,总体表现为7月 >4月 >10月 >12月;藻类多样性指数分析显示,水库水体污染水平为中度,中游和库区(除7月)为轻度污染,与综合营养指数结果一致;长潭水库污染源调查分析结果表明,该水库主要为氮、磷污染,污染源主要为上游禽畜养殖废水. 相似文献
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一座新建水库——广东剑潭水库浮游植物动态特征 总被引:3,自引:1,他引:2
剑潭水库是珠江水系东江下游新建水库,2006年10月开始蓄水,2007年6月蓄水完毕.该水库属直流型水库,2008年水力滞留时间为0.46-3.62d.2006-2008年调查了该水库浮游植物的动态特征.结果表明,调查期间浮游植物丰度为182-6267cells/ml,从空间变化看,在调查期间,浮游植物丰度由上游向下游呈上升趋势.从年间变化看,蓄水后第一年坝区浮游植物丰度不仅明显高于蓄水前和蓄水期间,并且浮游植物最高丰度出现在蓄水后第一年的枯水期(12月).与此同时,在蓄水过程中,浮游植物群落结构也逐渐发生了变化,蓝藻相对丰度明显上升,绿藻相对丰度呈下降趋势.水力滞留时间、透明度和总磷是影响剑潭水库浮游植物时空变化的重要因素.高的平流损失率和低的透明度使得浮游植物现存量与水库氮、磷水平并不相符.相对较长的水力滞留时间、较高的透明度和总磷导致了浮游植物在蓄水后第一年(2008年)的枯水期出现一个峰值. 相似文献
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The seasonal productivity cycle of phytoplankton and controlling factors in Lake Constance 总被引:8,自引:1,他引:8
Annual phytoplankton productivity in Lake Constance is about 300 g C m−2, a value typical for mesoeutrophic lakes. Seasonal variations in phytoplankton biomass and productivity are exceptionally
great because of a sequence of factors controlling the production process. During winter productivity is controlled by low
energy inputs and high respiratory losses due to deep water column mixing. Biomass is low and water transparancy high. The
spring phytoplankton growth is triggered by the thermal stabilization of the water column. The summer phytoplankton biomass
maximum mainly depends on phosphorus availability. However, biomass yields comprise only 15–20% of values to be expected from
the Redfield ratio because large proportions of POM are detritus and non-algal biota. Moreover, sedimentation during the second
half of the year removes biomass from the euphotic zone. Water transparency and thus vertical distribution of algal photosynthesis
is highly dependent on phytoplankton biomass. Self-shading causes considerably smaller seasonal variations in areal biomass
and photosynthetic rates than in volume-based values. By light-shade adaptation effects of seasonal fluctuations in mean daily
surface radiance fluxes on algal photosynthesis can to a significant extent be compensated for. At any given level of biomass
daylength is the major determinant of daily production rates.
Dedicated to Professor Elster on his 80th birthday. 相似文献
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Yaoyang Xu Qinghua Cai Meiling Shao Xinqin Han 《Aquatic Sciences - Research Across Boundaries》2012,74(2):287-300
Seasonal fluctuations of phytoplankton have often been regarded as one of the important cyclic events in aquatic ecosystems,
and have even been emphasized as an important sign of regional climatic variability in limnology. However, few attempts have
been made to examine synchrony for phytoplankton fluctuations among different habitats in a single reservoir system. The present
study employed Spearman rank correlation analysis and the Mantel test to assess levels of synchrony for phytoplankton abundance
and taxonomic composition from reservoir mainstream to a tributary bay (Xiangxi Bay) in a giant dendritic reservoir, China
(Three Gorges Reservoir, TGR). At the selected scale, asynchronous patterns of phytoplankton were found when looking at total
abundance and taxonomic composition, suggesting that regional drivers were not strong enough to synchronize phytoplankton
fluctuations, and local regulators were predominant. As a riverine system, the mainstream of TGR had high levels of algal
synchrony, while asynchronous patterns of phytoplankton were detected within Xiangxi Bay, which is characterized as a lacustrine
system. The present study further confirmed that external hydrological disturbances strongly homogenize habitat conditions
and synchronize phytoplankton fluctuations within the mainstream, while spatial divergence of phytoplankton succession depend
on local habitat conditions within Xiangxi Bay. Moreover, low synchrony of phytoplankton between the mainstream and Xiangxi
Bay is probably caused by spatial divergence of phytoplankton succession within Xiangxi Bay and the lack of succession in
the rapidly flushed mainstream. Independently of these mechanisms possibly explaining phytoplankton fluctuations, the present
study has also an applied perspective to the improvement of a long-term observation program in which phytoplankton trends
at the mainstream scale could be compiled from the data set in a single site, while a set of sampling sites should be required
at the Xiangxi Bay scale. 相似文献
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Impact of stress and disturbance factors on the phytoplankton communities in Northeastern Brazil reservoir 总被引:1,自引:1,他引:0
Naithirithi T. Chellappa Thiago Chellappa Fabiana R.A. Cmara Odete Rocha Sathyabama Chellappa 《Limnologica》2009,39(4):273-282
The ecology of phytoplankton reservoir communities plays a pivotal role in their management and in the development of inland fisheries in the water scarce semi-arid regions of Rio Grande do Norte State, Brazil. The hydrological conditions characterizing these reservoirs include infrequent rainfall and high evaporative loses. The phytoplankton assemblages in tropical climate are structured primarily on dry and wet cycles, not the annual temperature and light regime. The purpose of the current study was to investigate the ecological aspects of phytoplankton communities from three reservoirs during the period of July 2003–June 2004, which include atypical summer rainfall and reservoir overflow. The environmental data broadly divided into two categories, stress factors and disturbance factors. The stress factors deals with the impact of high particulate organic matter and low dissolved oxygen concentrations and disturbance factors, linked to water level fluctuation through flushing and reservoir drawdown, and these events are associated with the phytoplankton assemblages. Results indicated that the three distinct hydroperiods determined the structure of phytoplankton and chlorophyll levels and limited the presence and relative abundance of cyanobacterial species. Phytoplankton succession accompanied changes in clear and turbid water phase represented by the alternate dominance between diatoms and chlorophytes. Inundation and complete filling of reservoir stimulated “s” and “r” strategists species (<20 um) of unicellular and some colonial members of chlorophytes and cryptomonads in highly turbid water environment, and “c” strategist species in rest of the wet period following disturbance gradients. Statistical analysis elicited a significant relationship between particulate organic matter and relative abundance of smaller chlorophytes, which was deemed as stress factor. The flushing and reservoir drawdown indicate disturbance gradient and as a consequence high diversity. Furthermore, a substantial reduction in chlorophyll levels was registered in turbid water phase is related to the reduction of light penetration and re-suspension of sediments. Considering these results, it can be suggested that the well-managed reservoir drawdown can possibly maintain an environment free of eutrophication and cyanobacterial dominance. 相似文献
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James E. Cloern 《Continental Shelf Research》1987,7(11-12)
In many coastal plain estuaries light attenuation by suspended sediments confines the photic zone to a small fraction of the water column, such that light limitation is a major control on phytoplankon production and turnover rate. For a variety of estuarine systems (e.g. San Francisco Bay, Puget Sound, Delaware Bay, Hudson River plume), photic-zone productivity can be estimated as a function of phytoplankton biomass times mean irradiance of the photic zone. Net water column productivity also varies with light availability, and in San Francisco Bay net productivity is zero (estimated respiratory loss of phytoplankton balances photosynthesis) when the ratio of photic depth (Zp) to mixed depth (Zm) is less than about 0.2. Thus whenever Zp: Zm < 0.2, the water column is a sink for phytoplankton production.Much of the spatial and temporal variability of phytoplankton biomass or productivity in estuaries is explained by variations in the ratio of photic depth to mixed depth. For example, phytoplankton blooms often coincide with stratification events that reduce the depth of the surface mixed layer (increase Zp: Zm). Shallow estuarine embayments (high Zp: Zm) are often characterized by high phytoplankton biomass relative to adjacent channels (low Zp: Zm). Many estuaries have longitudinal gradients in productivity that mirror the distribution of suspended sediments: productivity is low near the riverine source of sediments (low Zp: Zm) and increases toward the estuary mouth where turbidity decreases. Some of these generalizations are qualitative in nature, and detailed understanding of the interaction between turbidity and estuarine phytoplankton dynamics requires improved understanding of vertical mixing rates and phytoplankton respiration. 相似文献
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Data on the distribution of vegetable pigments in bottom deposits and water mass is presented to characterize the ecological zones of the reservoir. The concentrations of pigments in the channel deposits are shown to increase from the reservoir head toward the dam in accordance with the difference in phytoplankton production in the zone of backwater pinching out, transient zone, and near-dam zone. It is shown that the space heterogeneity of the pigment characteristics of deposits is controlled by the soil properties and the pigments content of the top 2.5-cm layer of bottom deposits of the reservoir correspond to the average productivity level. 相似文献
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丹江口水库是南水北调中线工程水源地,库湾是水库型湖泊水质安全敏感区,动态调水过程库湾水质直接关系到调水安全.为探究动态调水过程中丹江口水库库湾浮游植物季节变化规律和驱动因子,2018年7月—2019年7月,从丹库入库口到渠首调水口,按季节对18个样点进行水质和浮游植物群落组成分析.从整个丹库来看,浮游植物全年总丰度变化范围为0.43×10~3~4.7× 10~6 cells/L,夏季最高,秋季最低;Shannon-Wiener指数春季最高,秋季最低.春季群落为硅藻—绿藻型,夏季为绿藻—硅藻型,秋季为蓝藻型,冬季为蓝藻—绿藻—硅藻型,秋季蓝藻相对丰度最高.位于丹库准保护区内的库湾胡寨,秋季水体电导率、总氮、总磷和叶绿素a浓度最大,蓝藻丰度最高.从入库口经库湾到调水口,浮游植物群落组成存在明显演替.从水文因子来看,秋季水库水位较高,调水流速和流量增加,线性回归分析表明,水位对ShannonWiener指数的影响最为明显,水位越高则多样性指数越低;流量和流速与Shannon-Wiener指数也呈负相关,但相关性较低.方差分解分析发现,水文因子和理化因子共同影响了浮游植物群落组成;偏Mantel分析显示3个库湾浮游植物群落组成与水温、氧化还原电位、化学需氧量、总氮和总磷浓度相关;典范对应分析也表明,总氮是影响库湾浮游植物群落组成最显著的环境因子.人类干扰活动改变了库湾水质理化性质,强干扰提高了蓝藻门丰度.因此,控制库湾人类干扰强度,尤其在水位和调水量较高的秋季,对于改善水体藻类组成、保护整个丹江口水库水质具有重要意义. 相似文献
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Maria Carolina S. Soares Marcelo M. MarinhoSandra M.O.F. Azevedo Christina W.C. BrancoVera L.M. Huszar 《Limnologica》2012,42(3):197-203
Longitudinal heterogeneity in reservoirs is especially related to increase in sedimentation and water transparency along the river/dam axis. Consequently, primary production tends to reach higher values in intermediate regions where there is a balance between the availability of the main resources (light and nutrients) suitable for phytoplankton growth. Many factors such as reservoir morphometry, retention time, thermal stratification and geographical location can affect the boundaries between these regions. The tropical Funil Reservoir (Brazil), despite a low retention time, has experienced severe eutrophication in recent decades, with persistent cyanobacteria blooms. During the course of 1 year, samples were collected at four stations along the reservoir (fluvial, intermediate and lentic compartments) to evaluate if spatial heterogeneity could affect the occurrence and distribution of these blooms along the reservoir. Although the reservoir has a short annual retention time (mean 41.5 days), the typical zonation pattern was observed for the main abiotic variables and phytoplankton abundance. However, higher biomass occurred in the lentic compartment rather than in the intermediate zone. Despite the peculiar heterogeneity in total biomass, the phytoplankton composition and seasonal variability were very similar along the entire reservoir, with a few marked differences only in the fluvial zone. Phytoplankton total biomass in Funil Reservoir was high, even in periods of lower seasonal retention time (around 15 days), and was especially related to high input of nutrients. Moreover, retention time directly affects the spatial heterogeneity of phytoplankton biomass, since strong variability was only observed during the cold-dry season, corresponding to periods of longer retention time (around 80 days). While high availability of nutrients promoted high cyanobacterial biomass in the entire system, the few periods of heterogeneous spatiality seemed to be related to changes in retention time. 相似文献
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研究丹江口水库在完成高水位蓄水期间浮游植物群落的时空动态特征可为丹江口水库的水质保护与生态系统结构优化及健康管理提供一定科学依据。本研究基于2018—2020年的水库浮游植物监测数据,结合同期水库水体的理化参数,分析了丹江口水库浮游植物在不同年度、季度及空间的变化特征,以及影响浮游植物群落结构变化的主要环境因子。结果显示该区域共检测出浮游植物7个门类,其中蓝藻门、硅藻门、绿藻门、隐藻门为优势类群。2018—2020年浮游植物年均密度分别为1.96×106、2.55×106和5.07×106 cells/L,呈现出逐年增高趋势。浮游植物季度密度表现为秋季>夏季>春季>冬季,在夏秋季节蓝藻门和绿藻门占优势,春冬季节硅藻门和隐藻门占优势,同时硅藻门在四季中均占据生长优势。空间上库区浮游植物密度明显高于支流,且汉江库区浮游植物密度高于丹江库区,其中蓝藻门和绿藻门主要在库区大量出现,而支流则以硅藻门和隐藻门为主。RDA分析显示,影响丹江口水库浮游植物的主要环境因子是水温,其次为化学需氧量、氨氮和总磷。在不同季节和... 相似文献
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天目湖沙河水库水质对流域开发与保护的响应 总被引:4,自引:1,他引:3
利用长期水质监测资料,对苏南地区天目湖沙河水库十多年来的开发与保护工作的水库水质影响情况进行了分析.结果发现:大规模放养鳙鱼等不合理的渔业开发对水库硅藻、蓝藻等浮游植物异常增殖有较大的促进作用;在营养盐处于中富营养水平下,利用不同食性鱼类的组合调控,能够较快地抑制浮游植物的异常增殖,但当浮游植物生物量下降到一定程度以后,其控制能力下降,营养盐和气候因子的影响变得更为重要;流域的旅游开发和农业开发都对水库营养盐、透明度等水质指标产生较大影响,特别是坡地大规模茶叶种植等农业开发对水库氮的影响十分明显;春季少雨等气候变化因子对水库氮等营养盐浓度影响较大,但影响是短时段的.研究表明,合理调控水库渔业养殖,控制流域农业、旅游等开发活动强度,减少农业化肥施用量,恢复和扩大湿地等流域营养盐削减途径,是沙河水库水质保护的关键,也对同类水库水质保护具有示范价值. 相似文献
17.
Many biotic and abiotic processes contribute to variability in phytoplankton diversity in aquatic ecosystems. Depending on their intensity and on their frequency, these may drive non-equilibrium dynamics and enhance the species diversity. Different studies propose that biodiversity buffers ecosystem functioning against environmental fluctuations leading to more predictable aggregate community or ecosystem properties. Salto Grande reservoir is polymictic and eutrophic with recurrent summer cyanobacterial blooms. The aim of this study was to determine the key variable(s) related with phytoplankton diversity in order to predict the possible occurrence of an algal bloom at the ecosystem. A preliminary analysis of the data matrix suggested non-linear relationships between diversity and the selected variables: phytoplankton abundance and the vertical attenuation coefficient (Kd). The best function fitting of the scatter plot of phytoplankton diversity versus phytoplankton abundance was a rational function. The inflection point of phytoplankton diversity estimated by the second derivate of this function was 2.7 bit cell−1 which corresponded to an abundance of 3000 cells ml−1. The relationship of phytoplankton diversity and vertical attenuation coefficient values also show a humped distribution pattern (Gauss function). The inflection point of this function corresponded to a diversity value of 1.9 bit cell−1 and 2.5 m−1 for Kd. These inflection points were, respectively, related with the resource competition among the present species and the light limitation conditions. The showed patterns of diversity and the estimated threshold values could be integrated to construct a predictive model for the reservoir based on phytoplankton diversity and the probable ambient conditions of the reservoir. 相似文献
18.
The man made reservoir, G. B. Pant Sagar at the dam site (24° 15′ N Lat) in the South Mirzapur district of eastern U. P. was investigated in terms of water quality, phytoplankton diversity and production at monthly intervals between January 1987 and December 1987. The reservoir water showed low to moderate dissolved oxygen (4.3 … 7.5 mg/l) and quite low nutrient contents (0.01-0.2 mg l?1). Phytoplankton diversity narrowly fluctuated (3.17-3.74) and mean annual production (149.7 g/m3 · aC) showed a meso- to eutrophic condition. A significant positive correlation was obtained between gross production and phytoplankton density (r = 0.79; P < 0.001) Multiple regression equation (GPP = 11.292 + 0.043 BAC + 0.075 CHL + 0.073 CYN) indicates that Chlorophyta contributed more to gross production due to the presence of a higher number of individuals. 相似文献
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垂向归纳模型下鄱阳湖丰、枯水期初级生产力特征及与环境因子相关性分析 总被引:2,自引:2,他引:0
于2014年1月(枯水期)、7月(丰水期)对鄱阳湖湖水进行采集,测定相应的理化参数、叶绿素a浓度和光合有效辐射,结合初级生产力垂向归纳模型估算浮游植物初级生产力,分析湖区初级生产力特征及与环境因子的相关性.结果表明,鄱阳湖枯水期浮游植物初级生产力波动范围为83.50~355.43 mg C/(m~3·d),平均值为193.33 mg C/(m~3·d),初级生产力空间分布特征主要受水体类型的影响,枯水期初级生产力与氮、磷营养盐浓度呈负相关,其中与铵态氮浓度呈显著负相关,枯水期不会出现营养盐限制现象;丰水期浮游植物初级生产力波动范围为113.80~1134.06 mg C/(m~3·d),平均值为412.12 mg C/(m~3·d),初级生产力空间分布主要受河流注入的影响,丰水期浮游植物初级生产力与总磷及悬浮物浓度呈显著正相关,由于悬浮物对浮游植物生长的促进作用大于抑制作用,鄱阳湖丰水期会出现磷营养盐的限制;鄱阳湖整体平均流速约为0.28 m/s,易于浮游植物的生长,南鄱阳湖平均流速约为0.21 m/s,而北鄱阳湖平均流速约为0.35 m/s,所以南鄱阳湖比北鄱阳湖更容易发生水体富营养化并暴发水华. 相似文献
20.
Ammonium,nitrate and phytoplankton interactions in a freshwater tidal estuarine zone: potential effects of cultural eutrophication 总被引:2,自引:0,他引:2
Rita B. Domingues Ana B. Barbosa Ulrich Sommer Helena M. Galvão 《Aquatic Sciences - Research Across Boundaries》2011,73(3):331-343
Nitrate and ammonium are the most important nitrogen sources for phytoplankton growth. Differential utilization of inorganic
nitrogenous compounds by phytoplankton has been observed and may have significant impacts on primary productivity at local
scales. We used enrichment experiments with natural phytoplankton populations from the freshwater tidal zone of the Guadiana
estuary, a coastal ecosystem increasingly subjected to anthropogenic influences, to study the effects of nitrate and ammonium
on N-consumption and phytoplankton growth. In addition, we used combined additions of nitrate and ammonium to understand the
inhibitory effect of ammonium over nitrate uptake. Ammonium concentrations in the freshwater tidal reaches of the Guadiana
estuary throughout the sampling period were too low to exert an inhibitory effect on nitrate uptake or a toxic effect on phytoplankton
growth. Nitrate was clearly the main nitrogen source for phytoplankton at the study site. Overall, nitrate seemed to become
limiting at concentrations lower than 20 μM and N-limitation was particularly significant during summer. A trend of decreasing
nitrate uptake with increasing ammonium concentrations and uptake suggested an overall preference for ammonium. However, preference
for ammonium was group-specific, and it was observed mainly in green algae and cyanobacteria. In fact, cyanobacteria relied
only on ammonium as their N-source. On the contrary, diatoms preferred nitrate, and did not respond to ammonium additions.
The increasing eutrophication in the Guadiana estuary and particularly increased inputs of nitrogen as ammonium due to urban
waste effluents may result in a shift in phytoplankton community composition, towards a dominance of cyanobacteria and green
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