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1.
长江中游湖泊沿岸带的底栖藻类群落结构特征 总被引:3,自引:0,他引:3
测定和分析湖北省21个浅水湖泊沿岸带底柄藻类的现存量,底柄硅藻的种类组成、细胞密度、多样性指数及其群落结构特征,并结合理化指标对水质状况进行评价.结果表明:调查期间,不同湖泊底柄藻类的现存量和底柄硅藻细胞密度分别介于1.01-40.82μg/cm2和0.09×106-14.20×106cells/cm2之间,它们在所研... 相似文献
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明渠输水系统的着生藻类异常增殖会淤塞拦污栅,降低明渠输水能力,并增加清理工作压力。目前,有关着生藻类对水动力的响应研究多在天然河流、湖泊中开展野外原型观测,针对混凝土衬砌表面着生藻类的水动力研究仍然少见。由于混凝土基质与泥沙基质的显著差异,着生藻类在衬砌明渠和自然水体中对水动力的响应特性不同。为探究水动力对明渠着生藻类生长及群落结构的影响,特开展明渠中着生藻类的培养观测及水动力冲刷实验。通过分析着生藻类叶绿素a含量、群落结构、无灰干重、细胞密度等指标,以探究不同基质粗糙度、不同生长阶段的着生藻类对不同水动力条件的响应。结果表明:着生藻类建群过程具有3个明显阶段,分别为迟滞期、指数生长期、稳定期;随着流速增大,着生藻类生物量先上升后下降,当流速v>0.6 m/s时,着生藻类的生长被显著抑制;冲刷流速增大至v=0.8 m/s的2天后,着生藻类生物量显著减少,群落多样性下降。在着生藻类建群迟滞期(实验中约3周),该阶段提高流速对着生藻类生物量的冲刷剥离效果最明显;基质粗糙度越小,着生藻类建群迟滞期越长,通过水力冲刷的除藻效果越明显。本研究探索了不同水动力条件下明渠着生藻类的响应规律,有... 相似文献
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长江中下游湖泊大型底栖动物群落结构及多样性 总被引:4,自引:1,他引:3
2007年10月至2008年4月,对长江中下游地区四种不同类型(草型、天然养殖、施肥养殖以及城市湖泊)的10个湖泊的大型底栖动物群落结构和多样性进行研究,并分析其与水体营养状态之间的关系.研究结果表明,不同类型湖泊底栖动物的密度、生物量、多样性及特征种类均存在显著差异.草型湖泊具有最高的生物量和多样性,但密度最低,其特征种类为腹足纲动物.天然养殖湖泊生物量也较高,物种多样性处于中间水平,特征种类为河蚬、寡鳃齿吻沙蚕及苏氏尾鳃蚓.施肥养殖湖泊和城市湖泊底栖动物密度较高,并呈现出最低的物种多样性,特征种类主要是耐污能力较强的颤蚓类和摇蚊科幼虫.相关性分析表明湖泊营养状态指数与底栖动物密度呈显著正相关,而与生物量呈显著负相关,说明随着营养水平的增加,底栖动物群落逐渐被小个体的耐污种类所主导.Margalef丰富度指数及Pielou均匀度指数与营养状态指数亦呈显著负相关,反映目前长江中下游湖泊随营养水平增加底栖动物群落趋于简单化的演替趋势. 相似文献
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草型湖泊和藻型湖泊中大型底栖动物群落结构的比较 总被引:12,自引:6,他引:6
系统地比较了草型湖泊扁担塘与藻型湖泊后湖大型底栖动物的群落结构.结果表明,草型湖泊扁担塘的物种种类、物种多样性、密度和生物量均较藻型湖泊后湖的为高.两湖在物种组成和功能摄食群上存在极大差异,相似性系数为0.3左右,草型湖泊的大型底栖动物主要以刮食者数量为多,而藻型湖泊主要以收集者的为多.这说明水生高等植物对于维持湖泊生态系统中大型底栖动物多样性方面起着非常重要的作用,也是维持湖泊生态系统结构复杂性、空间异质性和功能稳定性的重要因素. 相似文献
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崇明岛"闸控型"河网水体富营养化特征及其影响因素 总被引:3,自引:1,他引:2
为研究崇明岛"闸控型"河网水体富营养化特征及其与环境因子的相互作用,以2010年各季节崇明岛河网水质数据为基础,探讨了环境因子与藻类的变化规律及其相互作用机制.结果表明:崇明岛河网水环境中营养盐水平较高,氮污染尤为严重.长江引水进入岛内河网水环境后,营养盐(除SiO3-Si)、Chl.a含量和营养状态都出现了明显的升高.与长江引水相比,河网内藻类群落Chl.a贡献比例的变化主要表现为硅藻比例的下降以及蓝藻和绿藻比例的上升.尽管水温、pH、浊度以及营养盐中的TN、TP、NO3--N、DOC的变化均与Chl.a含量显著相关,但藻类群落对环境因子的响应关系存在较大差异.蓝藻的增加主要与水温和TP含量的升高有关;绿藻与TN、NO3--N的关系最为密切;硅藻的变化只与浊度存在明显正相关,营养盐并不是硅藻生长的促进因子. 相似文献
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湖北浮桥河水库底栖动物的群落结构及生物多样性 总被引:9,自引:3,他引:6
1997年 4月至 1998年 1月 ,在浮桥河水库 14个采样点调查底栖动物 ,共获 4 7种 .其优势种类为霍甫水丝蚓 (Limnodrilushoffmeisteri)、中国长足摇蚊 (Tanypuschinensis)、前突摇蚊属 (Procladiussp .)和摇蚊属 (Chironomussp .) .水库底栖动物的Shannon指数和Margalef指数偏低 ,上游的指数值最高 .从种类相似性来看 ,底栖动物的季节变化不明显 ;在水平分布上 ,上游与库汊的种类相似性最低 ,库汊与下游的种类相似性最高 .浮桥河水库底栖动物的平均密度为5 2 9.1ind/m2 ,平均生物量为 35 34.1mg/m2 ,均以水生昆虫占优 ,其时空变化主要受水生昆虫控制 .能量估算法估算出浮桥河水库底栖动物的渔产潜力为 1.5× 10 4 kg/a . 相似文献
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着生藻类一般生长位置相对稳定,其群落分布主要受环境因素的影响,同时,着生藻类还是重要的水环境指示生物.本研究对鄱阳湖丰水期5个典型湖区(主航道、西部湿地、南矶湿地、撮箕湖和东南湖汊)着生藻类的群落结构特征进行调查,包括生物量、优势种及生物多样性,分析影响着生藻类群落区域分布的环境因子,以期为鄱阳湖水环境保护和水资源合理利用提供基础资料.结果表明:鄱阳湖着生藻类群落以硅藻、绿藻和蓝藻为主;鄱阳湖着生藻类总生物量有着明显的区域差异:主航道区域的生物量相对最高,平均为419 mg/m^2;其次是东南湖汊,平均为322 mg/m^2;南矶湿地和西部湿地分别为172和52 mg/m^2;而撮箕湖的总生物量相对最低,为9 mg/m^2.主航道的着生藻类优势种群为绿藻和硅藻,西部湿地、南矶湿地、撮箕湖和东南湖汊4个区域的优势种群为硅藻.冗余分析结果显示鄱阳湖丰水期着生藻类群落分布与总磷、电导率、pH值、总氮、硝态氮和悬浮物等理化因子关系较为密切.鄱阳湖主航道与长江连通,水体流速高;西部湿地、南矶湿地、撮箕湖和东南湖汊为季节性连通湖泊,丰水季节与主湖区水体连为一体,枯水季节独立蓄水.5个湖区的区域差异是导致其着生藻类群落结构差异的重要原因之一.着生藻类的多样性指数分析表明鄱阳湖水体处于中度污染状态. 相似文献
8.
江西柘林水库是长江中游的大型峡谷型旅游性水库,库容79.2×10~8m~3,长115 km.2015年4月在56 km的中心库区走航和定点测量了水库表层水体浮游藻类、叶绿素a(Chl.a)浓度与溶解无机氮(DIN)浓度、溶解无机磷(DIP)浓度、溶解硅(DSi)浓度、水温、浊度和溶解氧浓度等环境因子的分布特征.结果表明:1)水库属于中营养水体,表层主要浮游藻类(细胞丰度1000 cells/L)有34种,平均生物量为0.41 mg/L.主要优势藻类(优势度≥0.02)为硅藻和蓝藻,藻类组成与DIN浓度、DIP浓度、DSi浓度和水温等环境因子关系密切,4种因子对藻类结构的解释水平达60%以上.2)水库水体Chl.a浓度具有显著的次表层叶绿素最大值(SCM)现象,SCM层深度为3~8 m,厚度为2~7 m,SCM层占整个水体的25.2%~74.1%.SCM层的藻类对营养盐吸收消耗致使DIN、DIP和DSi浓度下降,同时藻类的产氧使溶解氧浓度增加.3)水库对DSi具有显著的生物过滤器效应,中、上层约有11%~12%的DSi被生物吸收利用,从上游至下游,累积约有21%的DSi被藻类吸收沉降于库底.4)人类氮、磷排放对水库生态和水质有严重影响,毗邻县城区域水体的Chl.a和DIP浓度分别是自然河段的2.9倍和3倍左右. 相似文献
9.
丹江口水库大型底栖动物群落结构及其水质生物学评价 总被引:11,自引:1,他引:10
2007年7月至2008年5月,按季度对丹江口水库4个区域(丹江库区、汉江库区、取水口、五青入库区)14个采样点进行大型底栖动物调查.共采集到底栖动物61种,主要由寡毛类(颤蚓科、仙女虫科)和摇蚊科组成.其中,寡毛类密度在全年中占优势地位,占底栖动物总密度的90%以上;生物量的优势种则主要为软体动物.空间分布上,底栖动物密度以汉江库区最高(大坝前:33792ind./m~2),丹江库区次之,取水口和五青入库区的密度相对较低,且五青入库区偶尔出现0密度的样品;生物量则由于丹江库区和取水口经常有软体动物出现而导致该区域内生物量相对较高.季节变化上,密度分布为夏季春季秋季冬季;生物量也呈现出类似的分布,但秋季和冬季差别较小.采用Shannon-Wiener多样性指数、Goodnight-Whitley生物指数、Wright生物指数及Carlander生物量法对丹江口水库水质进行评价,比较而言,Goodnight-Whitley指数不适宜用于丹江口水库的水质评价;而综合利用其它三种方法进行评价的结果表明:取水口为轻污染状态,丹江库区为轻-中污染,汉江库区为中-重污染;五青入库区由于水深太浅,底栖动物生境易受外界影响导致群落波动较大,因此不宜采用底栖动物作为评价指标. 相似文献
10.
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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12.
蓝藻水华暴发前,浮游植物群类结构的变化可通过其指示型色素的浓度变化来反映.为了同时反演叶绿素a、叶绿素b(绿藻门指示型色素)、叶绿素c(硅藻门指示型色素)和藻蓝素(蓝藻门的指示型色素)的浓度,利用偏最小二乘回归构建线性模型,通过2011年太湖实测吸收数据,较为准确地反演了叶绿素a和藻蓝素的浓度;针对无明显优势藻的春季数据集较为准确地反演了叶绿素b和叶绿素c的浓度.相对于经典最小二乘算法,偏最小二乘法在多色素混合的吸收光谱分析上更为有效.通过反演指示性色素浓度来反映藻类的分布,为富营养化湖泊主要藻类时空分布变化的遥感监测提供了一定的理论与技术支持. 相似文献
13.
微囊藻水华期间水体及藻体上细菌的动态 总被引:1,自引:1,他引:0
通过对水体中及附着在藻类上的细荫数量、代谢活性细菌、Chl.a浓度等的研究,探讨了藻类与细菌之间的代谢耦联关系,结果表明:1)水体中细菌的丰度随着Chl.a浓度的增加而逐渐增大(r2=0.466,P<0.05),但其峰值滞后于Chl.a;附在藻体表面上的细菌也呈现出相似的变化规律;2)水体中代谢活性细菌数量与总细菌数量显著相关(r2=0.678,P<0.05);附着在藻体上的代谢活性细菌虽然总数量低于水体中的代谢活性细菌,但二者之间亦存在显著的相关性(r2=0.836,P<0.05).3)藻类表面附着细菌的数量取决与藻类的生长状况,附着在藻类体上的代谢活性细菌的比率均高于水体中代谢活性细菌的比率,且在水华盛行期间呈逐渐增加的趋势. 相似文献
14.
混合藻类高光谱特征及其叶绿素a分离定量模型 总被引:1,自引:1,他引:0
利用地物高光谱遥感技术,在室内进行小球藻、聚球藻及其混合藻高光谱测量.得到这3组藻的反射光谱特征,同时进行叶绿素a(Chl.a)浓度测量.利用Matlab软件中的神经网络工具箱对得到的高光谱数据进行了曲线拟合.并用拟合结果和光谱测量实际结果分别建立了两种单一藻类的定量模型单一小球藻Chl.a最优的定量模型为用反射率实际值建立的小球藻单波段反射率模型Chl.a=1×10~7(R_(687))~2-37016R_(687)+53.64.单一聚球藻Chl.a最优的定量模型为利用反射率实际值建立的聚球藻两波段模型Chl.a=853 15×[R~(-1)(669)-R~(-1)(730)]×R(730)+505.78.在对两种单一藻类定量模型研究的基础上分别用单波段反射率分离模型、三波段分离模型和两波段分离模型对由小球藻和聚球藻组成的混合藻进行了Chl.a浓度分离.其中单波段反射率分离模型和两波段分离模型得到了较好的分离结果,单波段反射率分离模型结果要优于两波段分离模型结果.利用神经网络模型拟合值构建的模型要优于直接用反射率测量值构建的模型,而三波段分离模型的分离结果不理想,不适用于本研究. 相似文献
15.
Xisca Timoner Teresa Buchaca Vicenç Acuña Sergi Sabater 《Aquatic Sciences - Research Across Boundaries》2014,76(4):565-578
Among the environmental factors affecting benthic algae and cyanobacteria in streams, the one often producing the largest effects is flow intermittency. This study aimed to characterize the responses of algal assemblages to flow intermittency in a Mediterranean intermittent stream during the drying, non-flow (112 days), and rewetting phases. Algae growing in the epilithic, epipsammic and hyporheic streambed compartments were analyzed for pigment composition, and for the existence of structural changes in cells. Chlorophyll-a concentrations decreased between 60 to 90 % during the non-flow phase, indicating low resistance of algal assemblages to desiccation. In contrast, fast recoveries of Chlorophyll-a when flow resumed indicated high resilience. Pigment composition revealed that the epilithic algal assemblage was considerably different than the epipsammic and hyporheic ones. These differences were mainly attributed to the physical conditions prevailing on each streambed compartment that allowed the growth of different algal assemblages. During the non-flow phase, the synthesis of protective carotenoids (i.e. echinenone and scytonemin) and the occurrence of cell resistance structures (i.e. enlarged membrane thickness and resistant spores) enhanced resistance of the epilithic biofilm. The resistance observed in the epilithic biofilm might also be related to the tightly adhered growth-form of algae on this substratum. Main results suggest that algal assemblages in the epilithic compartment, which were the most exposed to desiccation, were structurally and functionally better adapted to flow interruption than those colonizing other streambed compartments, and that this compartment plays a crucial role in maintaining ecosystem functions under varying flow periods. 相似文献
16.
《Limnologica》2015
Excessive biomass development of benthic algae is often considered undesirable, but understanding the causes is confounded by complex interactions among driving factors. Pristine rivers allow a benchmark where human interference should be limited to climate change. In this study a time series comprising >20 years of annual benthic algae surveys from two pristine, soft water, boreal stream sites is used to determine whether year-to-year variations in benthic algal assemblages and cover were related to climate (temperature, precipitation, North Atlantic Oscillation) or hydrological regime. Total benthic algal cover ranged from 6 to 100% at Atna (the outflow of the Atna River from Lake Atnasjø), and from 3 to 50% at the headwater stream Li. Climate and hydrological regime explained 18 - 74% of the variability in benthic algal assemblages and cover. Generally, more variance was explained at Li than at Atna, possibly because (i) aquatic bryophytes blurred nutrient-mediated effects of climate and hydrology at Atna, and (ii) the upstream lake buffered hydrological variation. Temperature was more important for explaining benthic algal assemblages and cover at Atna, while hydrology was more important at Li. Climate and hydrological regime had no major impact on benthic algal taxon richness. High temperatures were associated with high benthic algal cover, particularly at Atna, while high suspended particle concentrations were associated with reduced benthic algal cover at Li, possibly due to scouring. Cover of the cyanobacterium Phormidium sp. increased at Li with increasing temperature, and decreased with prolonged periods of high discharge. Current predictions of climate change would lead to a “greener” Atna (increased cover of benthic algae), while Li would become more “bluegreen” (more Phormidium sp. but less filamentous green algae). It would also lead to a slightly more “eutrophic” algal assemblage at Atna (as indicated by the PIT-index for ecological status assessment), while a possible drift of the PIT-index is less clear at Li. The differences between Atna and Li likely reflect differences among river types, and it seems possible to make some generalizations: climate will likely affect benthic algae in lake outlets primarily via temperature, while headwater streams will primarily be affected via altered hydrology and particle concentrations. 相似文献
17.
Thierry Rolland Stéphanie Fayolle Arlette Cazaubon Stéphane Pagnetti 《Aquatic Sciences - Research Across Boundaries》1997,59(1):57-73
In a sub-alpine river, the Asse, with an unpredictable discharge regime, chlorophyll, density and taxonomic diversity of both
drifting and periphytic communities were studied from a methodical approach. The investigations based on stamping two close
cross-sections to know their spatial distributions in a heterogeneous bed substrate showed a heterogeneous pattern of colonization
mainly influenced by hydrological variables as the current velocity, the size of the substrata (gravel-pebble-boulder). For
the drifting algae, mainly composed with benthic species temporarily unhooked to the substrata, the heterogeneity of the distribution
was reduced in fast flow which induced a mixing of the whole mass of water.
For the periphyton, some results indicated that the greatest diversity and the highest chlorophyll concentration were found
on pebble substratum where the current velocity was moderate. These results have also shown that the classical methods used
to day for investigations were inadequate for most Mediterranean rivers.
It was really difficult to estimate the water quality from classical index created for use in regular large plain rivers. 相似文献
18.
M. A. Khan 《洁净——土壤、空气、水》1994,22(1):28-31
Libya occupies a large part of the Sahara Desert, and is a predominantly arid country with extremely scarce freshwaters. Despite aridity, a distinct higher rainfall zone exists along its mediterranean coastal belt. A lotic environment (perennial stream) in Ain-Scersciara, Tarhunãh in northwest Libya was studied for the species composition of diatom communities and their ecological characteristics. The waters are generally alkaline (pH = 7.5) and of hard-water (conductivity = 2008 μS/cm) type. The epiphytic diatom growth on benthic filamentous algae was high (32 taxa) with Amphora veneta as a very common taxon. Gomphonema parvulum var. micropus was an important taxon found in scrapings from the leaves of macrophytes and stony substratum. Nitzschia and Navicula showed high species richness (9 taxa in each) followed by Gomphonema (6 taxa). The ecological attributes of the majority of taxa show an oligohalobe status and alkaliphilous indicator. 相似文献
19.
Susanne C. Schneider A.E. LawniczakJ. Picińska-Faltynowicz K. Szoszkiewicz 《Limnologica》2012,42(3):204-211
We analyzed species composition and abundance of macrophytes, diatoms and non-diatom benthic algae, water chemistry and habitat structure of 24 river sites in Poland, in order to better understand which parameters structure macrophyte and benthic algae communities. Community patterns for macrophytes and diatoms are most closely related, while macrophytes and non-diatom benthic algae have the weakest relationship. Environmental parameters best explaining community patterns are channel substrate parameters for non-diatom benthic algae, and a combination of channel substrate and river bank characteristics for submerged macrophytes, emergent macrophytes and diatoms. Among the organism groups investigated, the diatom community pattern is best correlated to the environmental data similarity matrix. We hypothesize that the results can be explained by the shorter generation time of diatoms compared to macrophytes, and by a higher dispersal rate of diatoms compared to macrophytes and non-diatom benthic algae. This has several practical consequences for bioindication: (1) Diatoms are usually the organism group most closely following environmental parameters, for both increasing and decreasing impact. (2) Since the biotic indices developed for the Water Framework Directive are meant to primarily indicate ecological changes, not water chemistry, the nature of diatoms to closely reflect water chemistry is not necessarily advantageous. (3) The applicability of macrophyte and probably also non-diatom benthic algae indices is more locally restricted, while diatom indices are applicable to greater areas. (4) In ecosystems which are subject to changing environmental conditions, differences in biotic indices between macrophytes, diatoms and non-diatom benthic algae are to be expected. These differences could provide information relating to ecosystem stability. (5) In stable ecosystems, analyzing one of the three organism groups “diatoms”, “non-diatom benthic algae” and “macrophytes” will be sufficient to characterize the quality element “macrophytes and phytobenthos”, as required by the Water Framework Directive. However, in ecosystems subject to increasing pressure, macrophytes likely will have a tendency to indicate “too good”, while in ecosystems subject to decreasing pressure, diatoms will have a tendency to indicate “too good”. 相似文献
20.
Jian Cao LiZeng Bian Kai Hu YunTian Liu LiQun Wang ShaoYong Yang Yan Chen XiaoQun Peng 《中国科学D辑(英文版)》2009,52(5):647-654
Whether benthic macroalga can be an important type of bio-precursor of source rocks is a contentious issue in source-rock
studies, and has not been well understood. This paper represents a case study of Jurassic mudstone source rocks from the northern
Qaidam Basin, northwestern China, in which the benthic macro red algae were recognized for the first time based on combined
organic petrological and biomarker works. We found not only cystocarps in the algae, representative of rhodophyta, but also
diahopanes, which are diagnostic biomarkers of such algae. Thus, as many reservoired oils in the northern Qaidam Basin contain
abundant diahopanes, it may indicate that the red algae have contributed to hydrocarbon accumulation. This was confirmed by
integrated geological and geochemical analyses. Hence, this study provides new evidence for macroalga-generated hydrocarbons.
Supported by National Natural Science Foundation of China (Grant Nos. 40602014, 40872086, 40638042) 相似文献