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城市河-湖连通使不同水文特征的水体连通构成多样化水环境,环境异质性为提高浮游动物多样性提供了多样性生境条件.为了解湖南常德柳叶湖及其邻近水体轮虫群落结构变化对不同水体连通性和异质性的响应,于2018年对柳叶湖、穿紫河和沅江常德市区河段共15个站点进行了每季度1次的轮虫群落结构和环境特征调查分析.调查期间,不同水体的营养水平呈现:穿紫河柳叶湖沅江,穿紫河和柳叶湖呈富营养化状态,沅江呈中营养状态.本研究共检出轮虫88种(包括亚种8种和变种1种),其中,长肢多肢轮虫(Polyarthra dolichoptera)为水系第一优势种.轮虫最高丰度为2535ind./L,全年平均丰度空间分布呈现:柳叶湖穿紫河沅江;季节分布呈现:6月 9月 3月 12月.轮虫群落对水体连通性的响应表现为:柳叶湖、穿紫河和沅江3个水体轮虫种类组成具有一定的相似性且第一优势种相同.对异质性的响应表现为:不同水体轮虫群落年平均丰度和多样性指数存在空间差异.典范对应分析表明水温是影响轮虫群落结构变化的主要环境因子. 相似文献
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应用16S rRNA基因末端限制性片段长度多态性技术和多元统计方法,探究了南京玄武湖浮游细菌群落结构的季节性变化,并找出了浮游细菌群落组成分布的主要影响因子.结果表明,玄武湖4个季节中夏季Invsimpson指数、Shannon-Wiener指数和Pielou指数最高,而春季最低.非度量多维尺度分析结果显示浮游细菌群落结构存在着明显的季节性变化.Mantel检验、典范对应分析、变量分割分析表明影响玄武湖细菌群落结构最显著的环境因子为温度,其次为pH.营养盐浓度对玄武湖细菌群落结构的影响不显著.总的来说,本研究将有助于更好地理解富营养化水体中的浮游细菌群落组成的季节变化规律. 相似文献
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洱海硅藻群落结构的时空分布及其与环境因子间的关系 总被引:4,自引:2,他引:2
于2004-2005年间对洱海水体的硅藻群落进行逐月监测及研究,共发现71个种,分属于18个属.硅藻群落结构的季节变化显著,主要优势种为耐营养的属种.不同季节的硅藻优势种类有明显区别,冬季的主要优势种为Fragilaria crotonensis,春季Aulacoseira ambigua与F.crotonensis的组合占优势地位,夏季以Cyclotella ocellata为主,秋季则A.ambigua与Cyclostephanos dubius组合为优势种.空间上除1#点外,硅藻分布虽然在相对丰度上存在一定的南北差异,但优势属种在全湖具有较好的一致性.说明洱海全湖的水质都已处于中富营养状态.对除1#点外的11个采样点的硅藻及水化学数据进行平均,得到逐月数据,通过数理统计分析的手段,探讨硅藻群落变化与环境因子之间的关系,结果表明影响季节尺度硅藻群落发生变化的最主要因子是气象条件,其次是营养盐. 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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黑河流域胡杨适宜生境分布模拟 总被引:1,自引:0,他引:1
胡杨(Populus euphratica)是中国干旱区内陆河流域河岸林的主要树种,是干旱内陆河流域绿洲生存和发展的天然屏障.胡杨潜在分布信息对于内陆河流域绿洲环境保护与恢复起关键作用,但是目前很少有研究尝试利用精确可靠的物种分布模型(Species distribution model, SDM)预测胡杨地在此类地区的潜在空间分布.文章基于胡杨的分布点位数据及29个环境因子并利用MaxEnt模型预测胡杨在黑河流域的潜在地理分布.结果表明:在黑河流域,胡杨潜在的适宜生境面积为820km2,主要集中在流域下游的河岸带地区.同时,为了证明本研究中使用方法的优越性,我们分别构建了其他两组对照模型,包括基于不同的环境因子的MaxEnt模型及基于相同的胡杨点位分布数据和29种环境因子数据构建的其他8种不同算法的胡杨分布模型.结果表明:在文章构建的所有模型中,基于29种环境因子的MaxEnt模型建模效果最好,该模型能够精确地描绘胡杨林在黑河流域的基本分布特征.同时,模型比较结果表明:在充足可靠的环境因子数据的基础上, MaxEnt模型能够更加合理地模拟极端干旱区的物种分布.本研究结果表明,黑河流域胡杨的适宜生境面积远大于现有分布区面积,因此对胡杨的生态保护及管理应优先考虑其适宜生境分布区.本研究可以为不断退化的胡杨河岸森林带的保护和管理提供参考. 相似文献
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基于2013年3月-2014年2月的长寿湖浮游藻类以及水质的监测结果,分析浮游藻类物种组成、密度以及多样性指数的季节动态,利用非度量多维尺度和相似性分析检验不同季节浮游藻类群落差异,同时利用典范对应分析法确定影响不同季节浮游藻类群落结构的关键环境因子.结果表明:泽丝藻(Limnothrix sp.)、小尖头藻(Raphidiopsis sp.)、汉斯冠盘藻(Stephanodiscus hantzschii)、具尾逗隐藻(Komma caudata)、鞘丝藻(Lyngbya sp.)和马索隐藻(Cryptomonas marssonii)为长寿湖优势种群,不同季节间浮游藻类群落组成结构存在较大差异.浮游藻类群落结构以春季最为简单,夏季次之,秋、冬季最为复杂.不同季节影响浮游藻类群落结构的环境因子差异较大,水温和营养盐是影响浮游藻类群落结构最重要的环境因子,光照强度、高锰酸盐指数、氧化还原电位、溶解有机碳在秋、冬季节同样成为影响浮游藻类群落结构的关键环境因子. 相似文献
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太湖流域河流鱼类群落的时空分布 总被引:2,自引:1,他引:1
确定河流鱼类群落的时空分布格局及其形成机制是开展鱼类物种多样性保护与管理的科学基础.基于2013年10月和2014年5月共2次对太湖流域57个河道样点的调查数据,初步研究太湖流域河流鱼类群落结构及其多样性的季节动态和空间分布特点.共采集鱼类5051尾,计46种,其中鲤科鱼类26种,占全部物种数的57%.10月份的鱼类多样性显著高于5月份,且2个季度的鱼类群落结构存在显著性差异.5个主要水系间的鱼类多样性差异显著,总体上,沿江水系和洮滆水系鱼类多样性较低,黄浦江水系居中,而南河水系和苕溪水系较高;鱼类群落结构也随水系而显著变化,主要表现为黄浦江水系与洮滆、苕溪和沿江水系呈显著差异.在2个一级生态分区之间,鱼类多样性无显著差异但群落结构显著不同,主要因、鲫、似鳊等优势种及宽鳍鱲、尖头鱥、中华青鳉、食蚊鱼等偶见种的空间分布差异所引起;在4个二级生态分区之间,鱼类多样性和群落结构均存在显著的空间变化. 相似文献
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淮南迪沟采煤沉陷区湖泊后生浮游动物群落结构及其影响因子 总被引:1,自引:0,他引:1
2015年8月-2016年6月对安徽省迪沟采煤沉陷区湖泊后生浮游动物群落结构及环境因子进行了调查,研究了其群落结构及与环境因子的关系.共发现后生浮游动物16科27属53种,其中轮虫38种,枝角类9种,桡足类6种,优势种为萼花臂尾轮虫(Brachionus calyciflorus)、角突臂尾轮虫(B.angularis)、蒲达臂尾轮虫(B.budapestiensis)、针簇多肢轮虫(Polyarthra trigla)、曲腿龟甲轮虫(Keratella valga)、螺形龟甲轮虫(K.cochlearis)、长额象鼻溞(Bosmina longirostris)和透明温剑水蚤(Thermocyclops hyalinus).密度和生物量平均值分别为965.00±541.91 ind./L和3.42±2.17 mg/L.密度峰值出现在2015年2月,而生物量峰值出现在10月,最低值均出现在12月.后生浮游动物密度的空间分布呈现西低东高的趋势,而生物量空间分布呈现西高东低的趋势.Shannon-Wiener多样性指数、Margalef丰富度指数和Pielou均匀度指数分别为2.07~3.22、0.83~1.72和0.67~0.80.冗余分析及Pearson相关性分析结果表明,浮游植物生物量、水温、营养盐等是影响后生浮游动物群落结构的主要因子.综合理化指标、营养状态指数、后生浮游动物优势种及生物多样性指数结果表明,迪沟采煤沉陷区湖泊已处于轻度富营养状态. 相似文献
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Based on a large data set from the national Danish monitoring program, spatial and temporal variability in total algal cover and in the fraction of opportunistic macroalgae was analysed in relation to environmental variables. Variations in water clarity and salinity combined with information on geographical location of sampling areas were found to explain almost 80% of the large-scale variation in algal cover between areas. As water clarity was largely regulated by concentrations of total-nitrogen (TN), and TN-concentrations by TN-input from land, total algal cover at given water depths was partly related to TN-input from land. The fraction of opportunistic algae responded predominantly to differences in salinity, the highest fractions being found in the most brackish areas. Temporal variability in algal cover and fraction of opportunists over the 14-year investigation period was much smaller than the variability between areas and could not be predicted from variations in environmental variables. In order for macroalgal cover to become a more sensitive indicator of water quality it would be necessary to either increase the sensitivity of the method or identify and include supplementary regulating factors in the model. 相似文献
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Since the early 1980s excessive discharges of organic waste into Tolo Harbour have created serious problems through nutrient enrichment. A number of eutrophication related problems have been reported which incurred financial losses of billions of dollars and serious ecological imbalance. This work addresses the development, verification and application of a water quality model to synthesize the available large database of water quality and to study water quality management issues of Tolo Harbour. Since detrimental water quality problems usually occur during summer when there is stratification and the water temperature is high, the tidally-averaged hydrodynamics and the relative contribution of gravitational circulation and tidal exchanges in Tolo Harbour have been studied. Gravitational circulation is found to be the dominant mixing process for most of the year, accounting for 70 percent of the mixing. A simple and tractable predictive two-layer mass transport and diagenetic dynamic eutrophication model has been developed. The model computes daily variation of key water quality variables in the water column: algal biomass, dissolved oxygen, organic-nitrogen, ammonium-nitrogen, nitrate-nitrogen, and carboneous oxygen demand. In addition, to study the response and impact of the seabed to the overall eutrophication process a sediment sub-model is developed. The diagenetic sediment sub-model computes explicitly the amount of nutrient recycled and the sediment oxygen demand exerted on the water column. The calibrated model has been validated against a 20 year water quality data base under a wide range of hydro-meteorological and environmental conditions. Both spatial and seasonal variation of observed water quality variables are reproduced. The verified model shows that a significant reduction of total nitrogen loading would be required to meet the water quality objectives, with a recovery time of three months for water column and more than two years for sediment. 相似文献
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Eutrophication Dynamics of Tolo Harbour, Hong Kong 总被引:8,自引:0,他引:8
The time and spatial variation of water quality in Tolo Harbour, a eutrophic landlocked semi-enclosed bay frequented by algal blooms, is studied using a dynamic eutrophication model. Hourly changes of tide levels and currents are computed by a link-node model assuming M2 tidal forcing. Phytoplankton growth is assumed to be limited by solar radiation, nitrogen and temperature. The model incorporates light acclimation by algae, self-shading, photosynthetic production, nutrient uptake, and a dynamic determination of the carbon to chlorophyll ratio. In particular, sediment-water-pollutant interactions are modelled via an anaerobic benthic layer segment. Using recorded pollution loads and environmental forcing as input, the model predictions of daily-averaged water quality are compared with the extensive water quality monitoring data of the Environmental Protection Department (EPD). The predicted spatial distribution and trends of algal biomass, inorganic nitrogen, dissolved oxygen (DO), as well as sediment oxygen demand (SOD), are in general agreement with field observations. 相似文献
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《Marine pollution bulletin》2012,64(5-12):237-242
Terrigenous loading into enclosed water bodies has been blamed for eutrophic conditions marked by massive algal growth and subsequent hypoxia due to decomposition of dead algal cells. This study aims to describe the eutrophication and hypoxia processes in a semi-enclosed water body lying near a big metropolis. Phosphorus mass balance in a small inlet, Ohko Inlet, located at the head of Hiroshima Bay, Japan, was quantified using a numerical model. Dissolved inorganic phosphorous inflow from Kaita Bay next to the inlet was five times higher than that from terrigenous load, which may cause an enhancement of primary production. Therefore, it was concluded that not only the reduction of material load from the land and the suppression of benthic flux are needed, but also reducing the inflow of high phosphorus and oxygen depleted water from Kaita Bay will form a collective alternative measure to remediate the environmental condition of the inlet. 相似文献
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Terrigenous loading into enclosed water bodies has been blamed for eutrophic conditions marked by massive algal growth and subsequent hypoxia due to decomposition of dead algal cells. This study aims to describe the eutrophication and hypoxia processes in a semi-enclosed water body lying near a big metropolis. Phosphorus mass balance in a small inlet, Ohko Inlet, located at the head of Hiroshima Bay, Japan, was quantified using a numerical model. Dissolved inorganic phosphorous inflow from Kaita Bay next to the inlet was five times higher than that from terrigenous load, which may cause an enhancement of primary production. Therefore, it was concluded that not only the reduction of material load from the land and the suppression of benthic flux are needed, but also reducing the inflow of high phosphorus and oxygen depleted water from Kaita Bay will form a collective alternative measure to remediate the environmental condition of the inlet. 相似文献
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Periodical algal blooms result in deposition and release of phosphorus (P) from the sediment into the water. Therefore, during seasonal changes when algal particles begin to settle to the bottom, understanding the behavior and distribution characteristics of the P in sediment is the most important key to manage the water quality of the Saemangeum Reservoir. In this study, the variation of water quality and sediment composition including chlorophyll-a (Chl-a) and P was investigated to determine the interaction between water and sediment. The study focused primarily on algal particle sedimentation that affects the P release and mineralization of sediment. The Chl-a concentration in water showed a sharp decline in October when the algae began to die in the fall, and afterward the concentration of chemical oxygen demand (COD) and total P (TP) in the sediment increased due to the sedimentation of decaying algal particles in November. During the same period of time, the readily bio-available P (RAP) in the sediment showed a drastic increase in the upper region where the Chl-a concentration of water was high. In sequence, the high RAP zone shifted from the upper region to the lower region in the early winter. The RAP shift was considered to be derived from the physical flow of the overlying water from which the decomposing algae settled on the surface of the sediment. The Saemangeum Reservoir was constructed recently; therefore, all the types of inorganic P fractions except soluble reactive phosphorus (SRP) that exist on the bottom surface of the lake and the marsh's sediment layer were not sufficient to significantly influence the overlying water. On the other hand, the released P from the algae was distinct and sensitive to the seasonal change. In conclusion, the algal particle sedimentation was important to control eutrophication rather than P release from the mineralized inorganic P of the sediment surface layer in the Seamangeum Reservoir. 相似文献
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利用MODIS高光谱遥感数据动态监测太湖地区蓝藻水华发展过程,并结合水温环境因子,探讨蓝藻爆发的环境条件.首先,通过简单的比值植被指数,实现蓝藻生物量的遥感估算;根据六期遥感估算结果,监测太湖蓝藻动态发展过程.然后,利用MODIS热红外波段(31和32),采用分裂窗算法,同步反演出的太湖表面水体温度,探讨蓝藻爆发的水温条件,及蓝藻生长与水-温度之间的关系.研究结果表明,在水体富营养化前提下,水体温度是影响蓝藻生长的重要环境因子;合适的水体温度(24-30℃)是蓝藻爆发的必要条件;大于30℃的高温,对蓝藻的生长有明显的抑制作用. 相似文献
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为探明稻虾轮作模式面源污染排放特征并合理评价该模式的环境可持续性,通过对江汉平原稻虾轮作模式小龙虾养殖排放尾水中总氮(TN)、总磷(TP)、COD和氨氮(NH3-N)浓度进行监测,对稻虾轮作模式稻田养殖小龙虾的排污系数进行了估算,并采用等标污染负荷法进行了主要污染物解析。运用能值分析方法对稻虾轮作模式进行了包含面源污染的能值评估,对比单季稻模式,对其可持续发展能力进行了定量评价。结果表明:江汉平原稻虾轮作模式小龙虾养殖排放尾水中TN、TP、COD和NH3-N的浓度范围分别为0.53~5.36、0.12~0.70、6.60~78.39和0.34~1.75 mg/L,TN、TP和COD平均排放浓度高于《地表水环境质量标准》(GB 3838-2002)Ⅲ类水质标准。等标污染负荷法分析结果表明TN的等标负荷比最高,是稻虾轮作模式面源污染控制的关键污染物。稻虾轮作模式小龙虾养殖排放尾水中TN、TP、COD和NH3-N的排污系数分别为2.994、0.458、35.132和1.405 kg/t,表明稻虾轮作模式面源污染排放系数较低,对... 相似文献
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Jianhua Wang Yuyan Zhou Weihua Xiao Yaohuan Huang Yanjie Bi Liting Wang Zefan Yang 《Water Resources》2016,43(4):690-698
The spatial and temporal variations of algae within a large drinking water reservoir with mesotrophy (Panjiakou Reservoir, Northern China) were investigated in relation to variations in environmental factors over a 6-month period (May to October) in 2013 and 2014. The analysis based on in-situ samples upstream to downstream (Puhekou, Jiajia’an, Yanziyu Panjiakou and Baqian) showed that three harmful algae species of Cyanophyta, Chlorophyta and Bacillariophyta prevail in the reservoir. The variations in algal concentrations presented a seasonal cycle with high values in the flood season and low values in the drought season and a spatial concentration in main water storage area of the reservoir. Compared with the environmental factors of pH value, permanganate index, ammonia nitrogen and total nitrogen, water temperature, dissolved oxygen content and total phosphorus were significant related to algae concentrations with correlation coefficients of 0.76, 0.62 and 0.85, respectively. The impact analysis of three factors on prevailing algae species indicated that Chlorophyta was the main contributor to the algal photosynthesis of the Panjiakou Reservoir. An extremely high value of algal concentrations with little variety in August 2013 revealed that pollution carried by tremendous runoff may induce algae blooms later. 相似文献
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Most existing studies on the algal communities of acid lakes are based on environments that have been caused by anthropogenic disturbances. Such lakes have a different origin compared to the natural acidic lakes and could be expected to differ also in the mechanisms controlling phytoplankton and trophic status. Planktonic community in Lake Caviahue is somewhat diverse in spite of the low pH of the water. Algae have a distinctive vertical distribution: the values of phytoplankton biomass remain constant throughout the water column and at times were highest in the upper end of the hypolimnion, forming a maximum or a layer of chlorophyll a at depth. The goal of this work was to investigate the factors influencing the seasonal and vertical distribution of phytoplankton. The lake was sampled between the years 2004 and 2006. Physical, chemical and biological parameters at different depths throughout the water column were determined. The interrelationships between environmental variables at different sampling dates were analyzed using an integration of multivariate matrices, multiple factor analysis, to analyze any joint partnerships in the samples. We found that phytoplankton biomass is dominated by Keratococcus rhaphidioides. With regard to zooplankton, we found a single species of rotifers (Philodina sp.). The two arms of the lake and the depths have different behaviours showing differences in the arms' conductivity, dissolved oxygen and pH. The more superficial layers were characterized by high values of phytoplankton and zooplankton biomass, organic and inorganic carbon, dissolved oxygen and pH. The deeper layers showed high values of chlorophyll a, ammonium and phosphorus (dissolved and particulate). From the multivariate analysis the relationships of the each algal species with pH, as a possible indicator of the degree of “acidophilia”, could be extracted. 相似文献