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1.
In eutrophic Lake Biel, Switzerland, the qualitative and quantitative food composition of roach (Rutilus rutilus L.) was examined monthly from August 1978 to August 1979. The fish caught in the littoral zone fed on phytoplankton, periphyton, makrophytes, zooplankton and molluscs. The food composition was different from month to month as well as between the different size classes of the fishes. The fish caught in the pelagic zone fed almost exclusively on crustaceans. 相似文献
2.
Based on the stable isotope composition in 15N and 13C of different potential sources of organic matter and consumers of an intertidal Zostera marina meadow located in San Simón Bay (Ría de Vigo, NW of Spain), a simplified food web of this community was reconstructed. For this purpose, some alternatives in different steps of the most used methodology of stable isotope dietary analysis were developed that cope with some of the limitations associated to the interpretation of isotopic signals for food web analysis, those of uncertainty on the fractionation value, mathematical model to use for the diet resolution and shortage of the isotope number for discriminating many food sources. The application of this protocol to the studied community reported similar results to those from other studies based on similar trophic webs, emphasizing the importance of local primary producers, especially microphytobenthos, which could be available for several primary consumers through resuspension forced by tidal hydrodynamic. The good agreement with previous results suggests that the proposed protocol is a feasible alternative to elucidate the most plausible trophic relationships in complex trophic webs using stable isotopes analysis. 相似文献
3.
Michael J. Rubbo Lisa K. Belden Sara I. Storrs-Mendez Jonathan J. Cole Joseph M. Kiesecker 《Aquatic Sciences - Research Across Boundaries》2012,74(3):397-404
Determining the effects of species loss on ecosystems has received considerable attention given the current threats many ecosystems are facing. A significant body of research has yielded many insights to this question, but this work has been limited by a focus on ecosystems where primary production plays a significant role in energy transfer. As many ecosystems rely on energy sources that are not derived from in situ production, there is a need to better understand how species loss will affect ecosystems of varying trophic states. To examine the effects of species loss on an ecosystem that is not reliant on in situ primary production, we manipulated the larval amphibian community of temporary forest ponds. These ponds are heterotrophic systems that rely on allochthonous inputs of detritus as a basal energy source. The larvae of two amphibian species that are prone to local extinction, wood frogs (Lithobates sylvatica) and spotted salamanders (Ambystoma maculatum), were removed from ponds and net ecosystem production was monitored. We found no effects of the removal of these top consumers on ecosystem functioning or on lower trophic groups (i.e., zooplankton, algae, bacteria). While amphibians can influence food web dynamics in other systems, their influence on system processes in temporary forest ponds appears to be limited. We hypothesize that the lack of any effects is due to the microbial degradation of detritus ??swamping?? the system, providing more than enough energy to maintain the food web, and/or due to omnivory dampening species interactions. These data indicate that the functioning of heterotrophic systems may be inherently stable due to internal dynamics that minimize interaction strengths among trophic groups. 相似文献
4.
Stable isotope evidence for the environmental impact of a land-based fish farm in the western Mediterranean 总被引:1,自引:0,他引:1
Isotopic examination (delta(13)C and delta(15)N) of organic matter sources and consumers was used to assess the impact and trace the dispersal of wastewater from a land-based fish farm in western Mediterranean. The results provide evidence of the non-negligible effect of aquaculture facilities on the natural stable isotopic composition of organisms. Aquaculture waste entered the food web, altering the natural isotopic composition of organic matter sources at the base and the upper trophic levels. Nitrogen-rich fish waste mainly affected delta(15)N values, while delta(13)C showed less alteration. Waste seemed to disperse widely enough to affect the isotopic composition at the study site about 500 m from the outfall, while sites at 1 and 2 km from the outfall showed values that were similar to each other and different from those of the impacted site. The impact was detected at different ecosystem levels, although primary producers were more affected by fish farm waste taking up aquaculture-derived nutrients. 相似文献
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6.
《Marine pollution bulletin》2012,65(12):2790-2806
We used a comparative approach to investigate the impact of the disposal of gold mine tailings into the ocean near the Lihir mine (Niolam Island, Papua New Guinea). We found abundance and diversity of zooplankton, micronekton and pelagic fish to be similar or higher in the mine region compared to the reference site. We also found relatively high trace metal concentrations in lower trophic level groups, especially zooplankton, near the mine discharge, but few differences in tissue concentrations of micronekton, baitfish and pelagic fish between the two regions. Biomagnification of some trace metals by micronekton, and of mercury by fish was evident in both regions. We conclude that ocean mine waste disposal at Niolam Island has a local impact on the smaller and less mobile pelagic communities in terms of trace metal concentrations, but has little effect on the abundance and biodiversity of the local food web. 相似文献
7.
《Marine pollution bulletin》2013,70(1-2):110-115
The main aim of this study was to ascertain the biomagnification processes in a mercury-contaminated estuary, by clarifying the trophic web structure through stable isotope ratios. For this purpose, primary producers (seagrasses and macroalgae), invertebrates (detritivores and benthic predators) and fish were analysed for total and organic mercury and for stable carbon and nitrogen isotopic signatures. Trophic structure was accurately described by δ15N, while δ13C reflected the carbon source for each species. An increase of mercury levels was observed with trophic level, particularly for organic mercury. Results confirm mercury biomagnification to occur in this estuarine food web, especially in the organic form, both in absolute concentrations and fraction of total mercury load. Age can be considered an important variable in mercury biomagnification studies, and data adjustments to account for the different exposure periods may be necessary for a correct assessment of trophic magnification rates and ecological risk. 相似文献
8.
浮游生物是湖泊食物网的重要组成,其碳、氮稳定同位素能够反映元素地球化学循环和食物来源的波动,是了解水域生态系统结构变化的重要手段之一.本文选取云南4个不同类型湖泊,开展浮游生物碳、氮稳定同位素组成(δ13C、δ15N)的季节变化与湖泊对比研究.大型深水湖泊(抚仙湖和阳宗海)中,浮游植物δ13C值在夏、秋季(-20.34‰±1.98‰)显著高于冬、春季(-28.00‰±2.51‰),反映夏秋季藻类生长速率较高、HCO3-无机碳源利用增多等的影响.而小型浅水湖泊(长桥海和大屯海)中浮游植物δ13C值在夏季最高(-21.24‰±0.88‰),可能与雨季流域输入增强、陆源有机质占比增加有关.4个湖泊浮游生物δ15N值具有一致的变化特征,春季显著高于其他季节.分析表明,云南地区雨季以面源污染为主向旱季以点源污染为主的转变,导致氮素营养盐季节性来源差异,并通过生物吸收作用影响了浮游生物δ15N值的季节变化.在浮游动物与浮游植物的稳定同位素差值(即富集度)方面,营养水平高的小型浅水湖泊中δ13C富集度为1.61‰±0.90‰、δ15N富集度为2.71‰±1.22‰,显著小于营养水平低的大型深水湖泊(分别为2.60‰±0.98‰和4.19‰±1.25‰),表明随着湖泊营养水平的增加,浮游动物更多地以浮游植物为食,导致有机碳在不同营养级之间的传输过程中具有更强的耦合作用,且相邻营养级之间具有更低的δ15N富集度特征. 相似文献
9.
Applications of C and N stable isotopes to ecological and environmental studies in seagrass ecosystems 总被引:2,自引:0,他引:2
Stable isotopes of carbon and nitrogen are increasingly used in marine ecosystems, for ecological and environmental studies. Here, we examine some applications of stable isotopes as ecological integrators or tracers in seagrass ecosystem studies. We focus on both the use of natural isotope abundance as food web integrators or environmental tracers and on the use of stable isotopes as experimental tools. As ecosystem integrators, stable isotopes have helped to elucidate the general structure of trophic webs in temperate, Mediterranean and tropical seagrass ecosystems. As environmental tracers, stable isotopes have proven their utility in sewage impact measuring and mapping. However, to make such environmental studies more comprehensible, future works on understanding of basic reasons for variations of N and C stable isotopes in seagrasses should be encouraged. At least, as experimental tracers, stable isotopes allow the study of many aspects of N and C cycles at the scale of a plant or at the scale of the seagrass ecosystem. 相似文献
10.
Detlev BarthelmesUwe Brämick 《Limnologica》2003,33(1):10-28
The lake investigated (Lake Heiliger See near the town of Angermünde, North-East Germany) is small (10.2 ha) but deep (zmax = 12 m, ? = 6.5 m). During summer the thermocline is at a depth of 4-5 m, and the hypolimnion is filled with H2S already by mid-June, making 60-75% of the bottom area inaccessible to fish. The native fish fauna is dominated by planktivorous roach (Rutilus rutilus). A test stocking of silver carp (Hypophthalmichthys molitrix) together with an unplanned and erroneous stocking of common carp (Cyprinus carpio), coupled with an incorrectly calculated strong stocking of eel (Anguilla anguilla), which assumed that the total lake area yielded fish food organisms, brought about a strong depression of the food biomass available to native fish. Both silver carp and common carp showed a pattern of behaviour which only partly agreed with results obtained in experimental ponds prior to lake stocking. At least for 10 years there was a very low zooplankton biomass (mostly below 1 mg/l fresh weight) caused by silver carp and a strongly reduced benthos biomass (frequently below 1 g/m2 fresh weight) caused by common carp and eel on H2S-free bottom areas. Despite this extreme situation, which lasted for 20 years and is rarely found in lakes elsewhere, it was not possible to demonstrate negative effects on the native fish fauna comprising 16 species. Also the dominance pattern seems uninfluenced in the long run. A strong decline of the catchable roach stock was observed for some years, but the stock reappeared soon in comparable quantity. During the time of roach stock depression the individual growth of roach (and common carp) was particularly low. Nevertheless, roach succeeded in reproduction during this time in spite of the reduced zooplankton and detritus concentrations. Fry numbers per year ranged from 500-15 000 individuals/ha. The pike perch (Stizostedion lucioperca) was perhaps the most endangered species of all those living at small population numbers in the lake, since its fry is confined to the limnion where competition from silver carp and adult roach and perhaps predation by roach is highest. However the pike perch stock remained unchanged at the low level of 1950, the time prior of carp and eel stocking. All other rare species of Lake Heiliger See spawn in the littoral zone where fry survival conditions were less impacted. In summary, we present more evidence that the fish fauna of cyprinid lakes is more robust than in salmonid lakes. The regulation capacity of fish communities of eutrophic lakes seems to be able to offset even severe direct and indirect influences of fisheries management. 相似文献
11.
We investigated trophic transfer efficiency in the pelagic food chain of deep, oligotrophic Lake Stechlin (Germany) by analyses of the primary, secondary, and fish production. Primary production between April and November 2000 was estimated at 78 g C m−2, pelagic secondary production at 14 g C m−2, and production of the main planktivorous fish species [European cisco, Coregonus albula (L.)] at 0.77 g C m−2. Thus, trophic transfer efficiency between primary and pelagic secondary production was around 18%, whereas between pelagic and fish production around 6%. The high efficiency at the first step of the chain is discussed to be due to the high food quality in oligotrophic lakes due to the dominance of Bacillariophyceae and Chlorophyceae rich in essential fatty acids. In turn, the relatively low trophic transfer efficiency between the secondary and the fish production is mainly explained by the avoidance of calanoid copepods as food source by the ciscoes. Concerning the trophic transfer efficiency, results from this study support the general assumption of a 10% transfer between neighbouring trophic levels within ecosystems. 相似文献
12.
Béatrice Allard Michaël Danger Loïc Ten-Hage Gérard Lacroix 《Aquatic Sciences - Research Across Boundaries》2011,73(1):113-126
The effects of food web structure on the quantity and biochemical composition of seston, zooplankton and recently deposited
sediment in experimental freshwater mesocosms were examined. Food web structure was manipulated by addition of zooplanktivorous
fish. Biochemical characterisations were carried out using lipid biomarkers (sterols, fatty acids, chlorophyll-derived compounds
and long-chain alkanediols). Fish addition decreased zooplankton biomass and increased seston biomass and deposited sediment
through a trophic cascade. Fish presence strongly influenced the biochemical characteristics of seston and sediment. In contrast,
food web structure had a minor impact on the lipid biomarker composition of zooplankton. Although the relative abundance of
sterols in the different compartments did not differ strongly between treatments, sterol profiles in seston and sediment depended
on food web structure. The predominance of Δ7-sterols in seston and sediment in the fish treatment indicated a major contribution of Chlorophyceae. In contrast, the distribution
of sterols in seston and sediment in the fishless treatment, dominated by cholesterol, indicated a major zooplanktonic input.
The distribution of fatty acids and the relative abundance of chlorophyll-derived compounds and long-chain alkanediols agreed
with the predominant contribution of phytoplankton or zooplankton to seston and sediment in the two treatments. The relative
abundance of bacterial biomarkers suggested that the contribution of bacteria was rather low. The high relative abundance
of polyunsaturated fatty acids (PUFAs) and the absence of stanols in sediments suggested low microbial reworking of organic
matter in the recently accumulated sediments. The trophic cascade, generated by the addition of fish, increased the relative
abundance of PUFAs in deposited organic matter, thus enhancing sediment quality and potential degradability. 相似文献
13.
《Limnologica》2016
We investigated the importance of meteorological and lake physical conditions for temporal, horizontal and vertical differences in the concentration of dissolved oxygen (DO) and water temperature, and the derived daily estimates of gross primary production (GPP), ecosystem respiration (R) and net ecosystem production (NEP). Our study was conducted in a subtropical and polymictic lake in Southern Brazil, during a spring–summer transition. Metabolic rates were determined from two sites using the open water oxygen technique. At the central deep site, oxygen sondes were deployed at three depths to assess patterns in vertical variability. During 10 days, an additional DO and temperature sonde was placed near the shoreline allowing us to compare metabolic differences in the surface layers between the central pelagic and littoral site. While GPP was similar, R was significantly higher at the shallower littoral site, causing NEP to be lower, although NEP was still positive. The littoral site had less diel changes in DO and higher daily variability in all metabolic rates. Variability in GPP and R at the littoral site was related to temperature, wind speed and rainfall suggesting that short-term variability in metabolic rates in shallow areas are sensitive to resuspension of sediments caused by a less stable water column. A clear vertical gradient was furthermore found for the metabolic rates at the central deep part of the lake, related to the light extinction, with highest GPP around 0.3 m and decreasing with depth, while respiration showed the inverse pattern. Below subsurface, respiration prevailed at 5.0 m depth and was uncoupled to primary production. Under conditions with high light and temperature, and low wind speeds, the mixing depth became shallower, in turn increasing the water column stability at the deep pelagic site, which resulted in higher mean light available and higher GPP in the water column. Our results confirm that deployment of sensors in different sites and depths allows for spatially, as well as temporally more representative estimates of lake metabolism. 相似文献
14.
氮稳定同位素基准的可变性及对营养级评价的影响 总被引:10,自引:2,他引:8
稳定同位素技术已经成为生态学家研究生态系统特征与过程的重要手段之一。在利用稳定同位素研究植物-动物和动物之间的营养关系或者进行多生态系统的比较研究过程中,通常需要选择某种生物的稳定同位素作为"基准(baseline)"。同位素基准的目的是反映食物网生物最初物质来源的同位素特征。同位素基准的选择取决于具体研究问题与系统。本文综述了水域生态系统研究中初级生产者和初级消费者氮稳定同位素作为基准的应用。不同的研究都根据自身所关注的生态学问题对基准进行选择和校正。然而,找到适当的同位素基准取决于同位素基准种内、种间和时空上的同位素变化特征,同时还取决于所关注的生态学问题的时间、空间尺度。本文评估了季节性和种内的同位素变异性对消费者营养级位置的影响。质量平衡模型的计算结果说明同位素基准可变性可以显著影响对消费者营养级位置的评估。 相似文献
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16.
G. Mothes 《洁净——土壤、空气、水》1987,15(2):161-166
Macrophytes compete with planktonic algae directly for nutrients which are solved in the pelagic region and impede the planktonic algae development indirectly by increasing sedimentation in the macrophyte populations and by reducing the supply of littoral detritus into the deeper zones of the lake by whirling-up in the period of vegetation, This leads to a reduced release of nutrients from the sediment and to the promotion of the development of a coenosis in the littoral zone living on pelagic seston. Therefore, waters with an extensive macrophyte vegetation have a relatively good water quality. By the artificial removal of macrophytes the planktonic coenosis is changed as by a measure of eutrophication. 相似文献
17.
《Limnologica》2016
Freshwater gastropods, through their indiscriminate deposit feeding, provide an essential link between available benthic resources and higher trophic levels in a variety of aquatic habitats. Here we focus on the contribution of available sources to the diet of Melanoides tuberculata in different habitats within coastal subtropical lakes. Globally, this species is one of two dominant alien invasive thiarid gastropods that have established populations in diverse habitats across the New World. We assessed the dietary composition of M. tuberculata to provide insight on the ability of this species to utilize a range of resources under different environmental conditions as a factor that contributes towards its invasion success. Our results show that M. tuberculata exhibits a degree of trophic plasticity and that its diet is largely determined by the availability of resources. However, all sources were not consumed in equal proportions. Benthic microalgae and filamentous Cladophora sp. dominated the diet of snails inhabiting the shallow stream-fed habitats, with sedimentary organic matter making a significantly lower contribution. In contrast, detritus was the most important food source for individuals from the littoral zone of an oligotrophic lake. Although M. tuberculata exhibits trophic plasticity, there is evidence for specialization in diet between individuals within small spatial scales. These variations may contribute to the overall invasion success of this species, by reducing intraspecific competition for resources following introduction to new habitats. 相似文献
18.
Biotic structures and processes of the comparatively large and deep Lake Constance are dominated by pelagic water bodies. Therefore, much more attention has thus far been paid to the carbon cycle of pelagic habitats as compared to littoral areas. Nevertheless, there is also an ongoing debate on the importance of littoral areas for the carbon cycle in this lake. Although actually existing data are certainly insufficient for a realistic carbon budget, investigations made during the past decade provide at least a rough basis for a first evaluation. Accordingly, littoral areas appear to contribute overproportionally (related to surface) both to production as well as to degradation of organic carbon in the lake. However, the relative effect seems to be more pronounced for heterotrophic activities, mostly due to intense degradation processes in littoral sediments. Related to volume, littoral water bodies exhibited similar or slightly higher microbial activities as compared to epilimnetic pelagic water bodies, while microbial abundances and activities observed for littoral sediments exceeded the corresponding overlying water layers by one to three orders of magnitude. As was confirmed by in situ measurements microbial oxygen consumption frequently exceeded photosynthetic oxygen production in the investigated littoral sites. Moreover, significant qualitative differences between water and sediment were found for the degradation potentials of xenobiotics as was exemplified for phenol and nitrilo-triacetic acid (NTA). Overall, a buffer function at the landwater interface may be ascribed to littoral areas due to which the large pelagic water bodies of the lake may become additionally protected against loads of undesired organic substances due to high littoral degradation capacities. 相似文献
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20.
湖泊渔业研究:进展与展望 总被引:4,自引:3,他引:1
作为一种传统产业,渔业在我国经济社会发展中具有不可缺失的重要地位.而渔业作为湖泊最重要的功能之一,其资源变动是湖泊生态系统演变的重要影响因子,同时湖泊渔业资源的变动和退化也是对环境变化最直接的响应.自1980s以来,随着湖泊水环境的改变,湖泊渔业资源衰退趋势明显,中上层浮游生物食性鱼类在鱼类群落中占优势,鱼类资源小型化、低龄化现象严重.本文以湖泊渔业发展的历程为切入口,系统阐述人类活动及湖泊环境变化对渔业资源及生态系统的影响,厘清现阶段湖泊水环境管理、湖泊生态系统修复、湖泊渔业可持续发展等关系,展望我国湖泊渔业的发展前景及新型模式. 相似文献