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1.
兴凯湖与小兴凯湖地处我国东北边陲,仅一岗之隔,但二者的生态环境差别很大,在小兴凯湖移植大银鱼Protosalanx hyalocraniu进行人工增殖没有取得很好效果的情况下,随泄洪水流入到兴凯湖中的大银鱼则很好地发展了自己的种群。为探讨兴凯湖与小兴凯湖鱼类组成的差异及其与大银鱼种群发展的关系,于2010年1月-12月...  相似文献   

2.
兴凯湖与小兴凯湖地处我国东北边陲,仅一岗之隔,但二者的生态环境差别很大,在小兴凯湖移植大银鱼Protosalanx hyalocraniu进行人工增殖没有取得很好效果的情况下,随泄洪水流入到兴凯湖中的大银鱼则很好地发展了自己的种群。为探讨兴凯湖与小兴凯湖鱼类组成的差异及其与大银鱼种群发展的关系,于2010年1月-12月对兴凯湖和小兴凯湖鱼类组成进行了调查。调查结果表明二者在鱼类种类组成上相似性仍较高,但在鱼类生物量组成上有明显差别。本次调查兴凯湖有鱼类56种,与历史数据比较基本没有减少,但新纪录3种:大麻哈鱼Oncorhynchus keta、梭鲈Lucioperca lucioperca和黑龙江泥鳅Misgurnus moloity(Dybowski)。小兴凯湖现有鱼类33种,比历史记载减少10种,东北Sarcocheilichthys lacustris、怀头鲶Silurus soldatovi和大银鱼为3个新纪录种;两湖的Sorenson指数为0.72。作为亚寒带的大型湖泊兴凯湖有着独特的水文和生态特点,大多数喜草生境种类在兴凯湖中的生物量都很低。本文探讨了兴凯湖与小兴凯湖鱼类组成差异与大银鱼种群发展的关系。  相似文献   

3.
湖泊鱼类群落结构与物理生境特征密切相关。为了探究鱼类群落结构与物理生境特征之间的关系,在鄱阳湖设立17个采样点,通过采集鱼类样本研究其群落结构,并利用遥感技术分析样点物理生境特征(包括岸线分形维数、距离指数和高程值)及其空间区域差异。结果表明,依据17个采样位点的物理生境特征,鄱阳湖丰水期物理生境空间上可以划分为3个区域,分别为北方区、南方区和主湖区,但枯水期鄱阳湖生境没有显著的区域划分规律。丰水期鄱阳湖鱼类可以分为北方群、南方群和主湖区群3个类群,而枯水期鱼类组成没有明显规律。从功能类群上看,鄱阳湖鱼类以杂食性、湖泊定居性和偏好于底层以及中下层栖息的中小型鱼类为主。不同区域的鱼类功能群之间存在时间和空间上的变化,北方区和南方区鱼类功能群组成相似,主湖区与北方区和南方区存在差异。总体上,鱼类群落结构的时空变化和差异与物理生境特征具有良好的一致性;未来鄱阳湖鱼类的保护工作需要关注湖泊物理生境特征,不同区域应制定不同的保护措施。  相似文献   

4.
牛山湖小型鱼类群落结构特征及生物量估算   总被引:1,自引:0,他引:1  
于2002年9月至2003年7月使用围网作为采样工具,对长江中游典型浅水草型湖泊牛山湖的小型鱼类进行了季度定量采样,研究其群落结构特征并估算优势种类在全湖的密度和生物量。依据水生植被状况将该湖划分成黄丝草聚草生境、黄丝草生境和裸地聚草生境,鱼类采样在这3种类型生境中进行。研究期间围网共捕获27种、12 636尾鱼,其中20种属于小型鱼类,体全长分布在19 mm和239 mm之间;以相对重要性指数计,鳑鳑高体(Rhodeus ocllatus)、红鳍原鲌(Cultrichthys erythropterus)、彩副(Paracheilognathus imberbis)、麦穗鱼(Pseudorasboraparva)、小黄黝鱼(Micropercops swinhonis)、似(Toxabramis swinhonis)、兴凯(Acheilognathus chankaensis)和子陵吻虾虎鱼(Rhinogobius giurinus)被视为优势小型鱼类,它们占围网渔获物总数量的91.1%。Zippin法估算结果显示,8种优势小型鱼类的密度和生物量具有明显的季节性波动,它们的年均总密度为3.992 ind/m2,年均总生物量为6.073 g/m2。作者认为合理放养食鱼性鱼类、优化鱼类群落结构是开发利用长江流域湖泊小型鱼类资源并提高渔业产值的有效途径。  相似文献   

5.
Abstract –  Invasive macrophytes are usually associated with negative impacts on habitat quality and a threat to native biodiversity. However, they might provide the same beneficial functions of native macrophytes, i.e., the provision of food and shelter for fish, in the absence of native macrophytes. To assess the value of the invasive macrophyte Lagarosiphon major as a fish habitat, we investigated the spatio–temporal variation in the distribution of a small littoral fish species (common bully) in the littoral of Lake Dunstan, a New Zealand hydro lake. Large- and fine-scale common bully distribution could partly be explained by the occurrence of dense L. major stands. Additionally, variability in catch per unit effort was partly explained by season and recruitment. Diet analysis indicated that common bullies in the Lagarosiphon-dominated littoral fed on invertebrates (Mollusca, Trichoptera, Chironomidae) found on exotic L. major , therefore suggesting its role as a food provider in the system. These results indicated that invasive macrophytes can provide important ecosystem functions in disturbed habitats that are otherwise devoid of native macrophytes. Any macrophyte management strategy should therefore carefully consider the costs and benefits associated with macrophyte control.  相似文献   

6.
The Yangtze River and its watershed have undergone vast changes resulting from centuries of human impacts, yet ecological knowledge of the system is limited. The seasonal variation and spatial variation of three sub‐lakes of Poyang Lake, a huge wetland in the middle Yangtze Basin, were investigated to examine how fish assemblages respond to seasonal hydrology and associated environmental conditions. In all three sub‐lakes, fish assemblage structure revealed strong variations associated with seasonal water level fluctuation. Fish species richness in all sub‐lakes was highest during the middle of the monsoon season and lowest during the dry season. Fish numerical abundance and biomass varied significantly, with several of the most common species having inconsistent patterns of seasonal variation among sub‐lakes. Fish assemblage structure was significantly associated with environmental gradients defined by water level, aquatic macrophyte coverage, conductivity and dissolved oxygen concentration. Assemblage composition in all three sub‐lakes underwent strongest shifts between December and April, the period when water levels were lowest and fishing has the greatest impact on fish stocks. Future impacts that change the hydrology of the middle Yangtze would alter the dynamics of habitat connectivity and affect environmental conditions and fish assemblages of the Poyang Lake wetland system.  相似文献   

7.
Seasonal variation in habitat use by marsh fishes   总被引:1,自引:0,他引:1  
Abstract— We used I-m2 throw traps to examine habitat use by smallsized fishes within a mosaic of wet prairies and sloughs in the headwaters of the St. Johns River, Florida between August 1992 and November 1995. Estimates of total fish density and biomass varied temporally, but did not differ significantly between habitats. Patterns of habitat use, however, differed among the five numerically dominant species. Bluefin killifish, mosquitofish, and golden topminnows were more abundant in sloughs than in wet prairies. In contrast, Everglades pygmy sunfish were more abundant in wet prairies than in sloughs. Finally, the abundance of least killifish did not differ between habitats. Fish densities were positively correlated with plant biomass (i. e., habitat complexity) and negatively correlated with water depth (i. e., hydrology). Species richness and composition were similar among habitats. However, consistent differences in the relative abundance of numerically dominant species between habitats indicated some degree of habitat-specific assemblage structure. Most species were concentrated into deeper sloughs during drying events. This assemblage of small-sized fishes appears to respond relatively rapidly to changes in habitat structure and hydrologic conditions. We therefore recommend that resource managers consider using fishes as indicator taxa to evaluate the efficacy of ongoing restoration and management efforts in wetland systems.  相似文献   

8.
Fish associations with different types of littoral habitats were studied in four canyon‐shaped reservoirs in the Czech Republic in years 2010 and 2011 by gillnets. Two to three habitats per reservoir–beaches (former meadows), stump fields (former forest) and rubble slopes–were defined and sampled along the longitudinal axis of reservoirs. Effects of reservoir, habitat and locality (position along longitudinal axis) on fish biomass, abundance and species structure were tested for juvenile and adult fish separately. Hierarchical analysis of variance revealed that habitats differed significantly in fish biomass and abundance. Redundancy analysis showed that analysed environmental variables had significant influence on fish community structure. Most variability in community structure was explained by reservoir and then by combination of habitat and slope steepness. Locality position had the smallest influence on community structure. For both adult and juvenile fish total abundance and biomass, the most inhabited habitat was beaches; rubble slopes were the least inhabited. Habitat associations differed among species. Among adults, bream Abramis brama, white bream Blicca bjoerkna and roach Rutilus rutilus were associated with beaches and stump fields, whereas perch Perca fluviatilis, ruffe Gymnocephalus cernuus, asp Aspius aspius and pike Esox lucius were associated with rubble slopes. Bream, white bream, bleak Alburnus alburnus, roach, ruffe and pikeperch Sander lucioperca were associated with beaches among juveniles, whereas the only juvenile associated with rubble slopes was perch. We showed that most common species are associated with distinct habitats and also that utilisation of various littoral habitats differs in general.  相似文献   

9.
Abstract –  Many freshwater lakes have been invaded by non-native aquatic plants. Although managing the invasions is necessary to restore native macrophytes, little is known about the effects of invasive macrophyte eradication on fish foraging. This study was designed to determine whether fish feeding was affected by large-scale changes in plant composition after selective control of invasive Eurasian watermilfoil, Myriophyllum spicatum , and whether feeding was correlated with habitat complexity or abundance of invasive plants on a smaller scale. Popnets were used to collect plants, invertebrates and fishes in the littoral zone of four Minnesota lakes twice a year for 4 years. The degree of stomach fullness in fishes was not correlated with the proportion of invasive plants or habitat complexity. Bluegills, the most abundant fish species, exhibited high selectivity for Diptera and their preferences varied little in different plant habitats. Changes in niche width of bluegills were not consistent with invasive plant control. Overall, invasive macrophyte control with timely restoration of the native plant community did not affect the characteristics of fish feeding we investigated. This study also contributes to our understanding of fish–macroinvertebrate interactions as a function of habitat complexity.  相似文献   

10.
Structural habitat complexity provided by macrophytes is expected to increase richness and abundance of fish species. However, this topic is rarely investigated simultaneously at different periods of fish development. We sampled fish within macrophyte stands and in non-vegetated areas at floodplain lakes and tested the hypothesis that the presence of macrophytes increases abundance and species richness of fish, in addition to changes in species composition, at different periods of fish development. Our findings demonstrated that, in different period of fish development, the highest values of fish species richness and abundance were found at sites colonised by macrophytes. Similarly, changes in fish species composition were observed between habitats colonised by macrophytes and non-vegetated areas. Therefore, the results demonstrate that macrophyte presence plays an important role in regulating fish community structure at different periods of fish development.  相似文献   

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