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Viktor R. Tóth 《Aquatic Sciences - Research Across Boundaries》2013,75(4):523-534
Light within the littoral zone affects the productivity and interaction between periphyton and its macrophyte substrate. The effect of periphyton on macrophyte photosynthesis, seasonal variation and vertical distribution of periphyton on artificial substrates (plastic strips), and the effect of periphyton on the light environment was studied in Lake Balaton. Data showed that an average of 4.1 ± 0.4 mg (dry weight) cm?2 of periphyton had accumulated on the plastic strips after 8.8 ± 0.4 days. This biomass corresponded to 294 ± 30 μg m?2 chl-a of epiphytic algae and blocked 92.3 ± 0.8 % of the depth specific radiation. Seasonal variation and specific vertical distribution of periphyton were observed. The most active time of periphyton accumulation corresponded to spring up until mid-June. Later in the year, the amount of periphyton significantly decreased. The optimal conditions for periphyton accumulation were at 30–40 cm depth. Most of the light reaching the adaxial leaf surface was attenuated by periphyton, decreasing the production of Potamogeton perfoliatus by 60–80 %. This increased the importance of backscattered light that corresponded to 10–15 % of the macrophyte production. A smaller part of the periphyton consisted of precipitated inorganic material, while epiphytic algae, making up the majority of the periphyton, were connected to both benthic (dominantly benthic penales) and pelagic (very close seasonal dynamics of pelagic and epiphytic biomass) algae. Periphyton affects macrophyte production especially in spring and in the upper water layers even in a mesotrophic water body. This increases the importance of the light absorbed through the abaxial side of the leaf and confirm the role of periphyton in transition from clear to turbid water states. 相似文献
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The relationship between the macrophyte vegetation and the nutrient concentration of the water and the sediment of a stream was studied. The small stream is fed by calcareous groundwater. The alteration in the macrophyte vegetation of the stream Rotbach from oligotrophic community towards more eutrophic species is associated with an increasing concentration of nutrients in the sediment. Particularly the concentration of SRP-P in the interstitial water changes significantly.
In terms of the macrophyte vegetation the stream can be divided into 4 floristic zones, A-D. The zones are labelled in a sequence according to their sediment's nutrient content. The chemical analyses of the water and the sediment show the highest concentrations in zone D. It is characterized by the presence of Zannichellia palustris. The zones A-C have almost the same very low nutrient concentration in the water but show a different content of nutrients in the sediment, particularly of the SRP-P in the interstitial water. Zone A which is dominated by Chara hispida shows the lowest SRP-P in the interstitial water. Within zone B which is characterized by Mentha aquatica and Nasturtium officinale and even more in zone C where Chara hispida is less abundant and Elodea canadensis occurs, the SRP-P content is elevated.
The nutrient concentration in the sediment is clearly associated with changes in the macrophyte vegetation of the stream Rotbach. 相似文献
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南京玄武湖浮游甲壳动物的水平分布及其与环境的关系 总被引:1,自引:1,他引:0
于2010年7月对玄武湖三个区域(荷花区、湖岸区、敞水区)的浮游甲壳动物水平分布进行了分析,并探讨了浮游甲壳动物种类、丰度分布与环境因子的关系.结果显示:荷花区、湖岸区、敞水区的氮磷营养盐浓度无显著差异,三个区域pH逐渐变高.相比其他区域,荷花区叶绿素a浓度最高而总悬浮质浓度最低.荷花区浮游甲壳动物丰度显著高于敞水区和湖岸区.全湖枝角类优势种为模糊秀体溞、微型裸腹溞、尖额溞以及壳纹船卵溞.桡足类的优势种为北碚中剑水蚤和台湾温剑水蚤.与其他湖区相比,荷花区浮游甲壳动物种类最多,且检出缺刺新秀体溞等稀有枝角类.冗余分析(RDA)表明与玄武湖浮游甲壳动物优势种分布相关的重要环境因子为总悬浮质、叶绿素a和总溶解磷浓度.结合浮游甲壳动物种类、丰度分布及环境因子分析得出,模糊秀体溞更倾向于分布在敞水区,而荷花区为其余大部分浮游甲壳动物种类提供了合适的生存条件. 相似文献
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太湖北部风浪波高计算模式观测分析 总被引:10,自引:7,他引:3
通过用无量纲分析和线性回归方法对2002-2003年太湖4测点1000多组波浪资料的分析,给出了太湖不同时段风浪平均波高(H)与风区长度(F)、水深(d)、风速(v)6个关系模式.在此基础上,开展了模式的误差分析及与前人模式对比.结果表明,太湖北部不同区域风浪平均波高的计算应选用不同计算模式,但是可用如下形式表示:其中,a1-a8为和地形及水生植物覆盖度等相关的参数.误差分析结果显示:离岸距离大于1km区域的参数a1-a8的取值分别为0.217456、1、0.15、0.6、0.09、0.6、1.0、0.0052,模式估算平均波高的误差小于24%;近岸区参数a7大于1,a8取0,a4取值介于0.6-0.72,a5介于0.00131-0.00168,模式估算平均波高的误差较大,表明近岸区波浪还需进行进一步的观测研究. 相似文献
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Melita Mihaljevi? Dubravka Špoljari? Filip Stevi? Vanda Cvijanovi? Branimir Hackenberger Kutuzovi? 《Limnologica》2010,40(3):260-268
The influence of extreme floods from the River Danube in 2006 on the species composition and vertical distributions of phytoplankton was studied in a shallow floodplain lake, Lake Sakadaš (Kopa?ki Rit Nature Park, Croatia) which in the last few decades was in a turbid state characterised by high phytoplankton concentrations. As a consequence of extremely high floods, the whole floodplain area (approximately 16 km2) became one lentic habitat with well developed macrophyte vegetation. Seasonal dynamics of chlorophyll a (Chl a) concentration in the lake had a characteristic pattern for the shallow lakes with dense macrophyte vegetation. Extremely low mean phytoplankton abundance and biomass were found in the conditions of very high nutrient concentrations. Dominant phytoplankton species were diatoms and chlorococcal green algae from the functional groups characteristic for a mixed environment. The canonical correspondence analysis (CCA) demonstrated that nutrients and temperature were significant environmental variables for their development. The sequence of phytoplankton seasonality, vertical distribution of phytoplankton, as well as the domination of rapidly acclimating phytoplankton forms (R-strategists) indicated clear, well-mixed conditions and a highly disturbed environment. Our results suggest that the occurrence of extreme flooding can be a stressor high enough for the transition from a turbid to a clear state of the floodplain lake. Possibly, cyclic shifts between alternative stable states in floodplain ecosystems can be expected as a consequence of the impact of extreme hydrological events induced by a climate change. 相似文献
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自1960s以来,抚仙湖沿岸带沉水植物群落发展迅速,而监测频率相对不足.为了解抚仙湖沉水植物群落现状及过去60年内的变化趋势,于2016年7月,对抚仙湖全湖沉水植物进行调查,并结合以往多次调查数据进行趋势分析.本次调查设置了36条样带共41个样点.在实测数据验证后,使用卫星多光谱相机数据基于归一化植被指数(NDVI)计算全湖沉水植物分布面积.此外,计算了物种在沿岸带植被区的平均生物量、优势度和群落多样性指数.结果表明:抚仙湖沉水植物2016年夏季分布面积为5.14 km2,平均生物量(鲜重)密度为9.8 kg/m2,最高48.7 kg/m2,全湖总现存量(鲜重)5.02×104t;共采集到沉水植物13种(类),隶属于5科6属.其中,生物量最高的物种是金鱼藻(Ceratophyllum demersum),其次是黑藻(Hydrilla verticillata)和穗花狐尾藻(Myriophyllum spicatum);出现频度最高的物种是穗花狐尾藻,其次是苦草(Vallisneria natans)和篦齿眼子菜(Potamogeton pectinatus);物种优势度最大的物种是穗花狐尾藻,其次是金鱼藻和黑藻;抚仙湖各样点沉水植物香农-威纳多样性指数介于0.05~1.28之间,全湖平均值为0.75;除轮藻类外,沉水植物群丛的冠层在1.5~4 m之间,其中金鱼藻群丛冠层最高.丝状附着藻大量出现,附着在高大的沉水植物冠层上的生物量远远多于附着在基质上的;丝状附着藻主要附着在群落上层沉水植物100 cm以内的植冠上.在过去的60年来,抚仙湖沉水植物分布面积、全湖总生物量和物种丰富度呈增加的趋势;低矮的草甸型物种如轮藻类、苦草等优势度下降,高大的冠层型沉水植物如穗花狐尾藻、金鱼藻等成为优势种;外来物种伊乐藻在最近几年出现并成为次优势种;丝状附着藻生物量增加.以上结果表明,目前抚仙湖沉水植物群落处于生物量、分布面积和多样性最高的阶段,是维持和保护的关键时期.但相比于国外类似湖泊,抚仙湖沉水植物丰富度一直较低,目前冠层型植物占优势、外来物种快速发展和丝状附着藻增殖的态势,将会引起群落结构不稳定,如果不加以保护和管理,可能会朝着富营养化湖泊的群落结构方向发展,进而对沿岸带水质产生不利影响.除了进一步控制抚仙湖入湖营养负荷外,我们建议对群落上层高大的冠层型沉水植物进行收割,收割深度为100 cm,从而控制冠层型沉水植物以及附着在其上的丝状附着藻,为草甸型沉水植物的发展创造条件,引导抚仙湖沉水植物群落向贫营养化湖泊的群落结构方向发展,但其可行性尚需开展研究. 相似文献
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Till Czypionka Cristian A. Vargas Nelson Silva Giovanni Daneri Humberto E. González José Luis Iriarte 《Continental Shelf Research》2011,31(3-4):216-224
Mixotrophy, the combination of autotrophic and heterotrophic nutrition in the same organism, is widespread in planktonic algae. Several reports from temperate and high-latitude fjords in Scandinavia suggest the occurrence of a niche in late summer and autumn during post-bloom conditions in which mixotrophic algae can become important grazers in pelagic ecosystems, accessing the nutrients bound in their prey to overcome nutrient limitation. Here, we experimentally determined the trophic modes and bacterivory rates for the nanoplankton community (2–20 μm) in Aysén Fjord located in the Chilean Northern Patagonia during two contrasting seasons: winter and spring. While mixotrophic nanoplankton was virtually absent from the system in spring, in winter at occasions it even constituted the dominant trophic group of the nanoplankton with abundances of >900 cells mL?1. This indicates a second niche for mixotrophs in winter, when mixotrophy allows overcoming light limitation. 相似文献
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洱海近50a来沉水植被演替及其主要驱动要素 总被引:8,自引:6,他引:2
依据文献报道的洱海水质、水文(水位)和沉水植被(物种组成、生物量及分布面积)数据,分析了近50年来洱海的水质变化、水位波动情况以及沉水植被的演替过程,探讨了驱动洱海沉水植被演替的主要环境因子.分析表明,洱海沉水植被群落经历了原生、过渡、顶级和衰退等主要阶段;自1980s以来,流域入湖营养盐增加、水质持续下降、藻类生物量逐年升高、沉水植被群落结构简单化和抑藻功能退化等因素是驱动洱海沉水植被演替与分布的原动力,水位大幅波动加速了洱海水生态系统由清水态向浊水态转变,并导致沉水植物大量衰退和某些特有物种消失.因此,在洱海水生态系统的治理以及沉水植被的恢复过程中,应优先考虑降低外源营养盐输入和优化水位调控. 相似文献
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《Limnologica》2017
Macrophytes and phytoplankton including cyanobacteria are main primary producers in aquatic environments.Macrophytes can maintain water quality by suppressing phytoplankton growth through a number of mechanisms: while e.g. the absorption of high amounts of nutrients and the provision of refuge from predation for herbivorous aquatic fauna are widely accepted macrophyte functions, the role of their release of allelopathic substances in suppressing phytoplankton is increasingly being studied. Some macrophyte species can support the growth of epiphytic cyanobacteria providing them an advantage over planktonic species in the competition for nutrients. On the other hand, some cyanobacteria dominate in eutrophic water bodies and produce cyanotoxins that exert allelopathic substances which may contribute to the decline of macrophytes. Macrophytes can interact with these cyanotoxins in different ways including bioaccumulation and biotransformation. This review focuses on such allelopathic interactions between macrophytes and toxic cyanobacteria. The article also suggests methods for researchers and water resources managers for the application of macrophytes to control harmful cyanobacterial blooms and as phytoremediators for toxin elimination from water bodies. 相似文献
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浅水湖泊底栖-敞水生境耦合对富营养化的响应与稳态转换机理:对湖泊修复的启示 总被引:1,自引:0,他引:1
浅水湖泊中的初级生产者主要由分布在底栖生境中的底栖植物和生活在敞水生境中的浮游植物组成.底栖植物主要包括维管束沉水植物和底栖藻类等,浮游植物则主要为浮游藻类.贫营养浅水湖泊湖水营养盐浓度低,透明度高,底栖植物因能直接从沉积物中获取营养盐,往往是浅水湖泊的优势初级生产者.随着外源营养盐负荷的增加,湖水中的营养盐浓度不断升高,浮游植物受到的营养盐限制作用减小,加上其在光照方面的竞争优势,逐步发展成为湖泊的优势初级生产者,湖泊逐步从底栖植物为优势的清水态转变为浮游植物为主的浑水态,即稳态转换.在稳态转换过程中,浅水湖泊生态系统结构与功能发生了一系列变化,本文综述了浅水湖泊沉积物性质和生物(浮游植物、底栖植物、底栖动物和鱼类等)群落结构的变化,分析了这些变化对底栖植物、浮游植物之间竞争优势和底栖敞水生境间磷交换的影响,探讨了富营养化驱动的底栖敞水生境耦合过程变化和稳态转换机理.了解浅水湖泊底栖敞水生境耦合过程与稳态转换机理对富营养化浅水湖泊修复有重要意义.富营养化浅水湖泊修复实际就是重建其清水态,在制定修复目标时应该关注评价清水态的指标,如透明度、浮游植物生物量、底栖植物的覆盖度或优势度等.在开展湖泊修复技术研发与工程应用时,应该重点关注对底栖敞水生境耦合有重要影响的关键技术,如沉积物磷释放和底栖生物食性鱼类控制以及底栖植物(尤其是沉水植物)恢复等有关技术. 相似文献
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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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Improving Water Quality by submerged and emergent Macrophytes. — A Review of Ecotechnological Application. Measures of ecotechnology using submerged and emergent macrophytes in native stands or planted littoral stands on the one hand, ingenious swimming plant mats on the other, may be assessed to be successful if applied in combination with additional measures, for instance — reorganization (sanition) of all the area collecting water — biomanipulation of pelagic food chains. Plantation of submerged macrophytes as oxygenators in standing and impounded waters to improve water quality should be avoided. To the contrary, the strategy should be taking measures in order to maximize the light penetrated euphotic zone (zeu) and simultaneously minimize the mixed zone (zmix) in order to improve spontaneous settlements of submerged macrophyte stands. 相似文献
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近几十年来,在入湖营养盐增加,水质持续下降,藻类生物量逐年升高及水位大幅波动下,洱海沉水植物群落演替速度加剧.2016年7月调查显示:洱海沉水植被退化严重,物种数量显著低于近期(2011年)历史水平,分布面积较有记录的历史最高水平(1980s)下降超过70%,优势物种由1960s的海菜花(Ottelia acuminata)、蓖齿眼子菜(Stuckenia pectinata)和大茨藻(Najas marina)等转变为微齿眼子菜(Potamogeton maackianus)、金鱼藻(Ceratophyllum demersum)以及苦草(Vallisneria natans).沉水植物群落在浅水区(0~2.5 m)主要遭受了浮叶植物细果野菱(Trapa maximowiezii)过度生长带来的生境胁迫,在中等水深区(2.5~4 m)面临微齿眼子菜和金鱼藻的过度生长导致的群落结构的单一化影响,而在深水区(>4 m)面临着面积萎缩的风险,这些严重抑制了沉水植物清水稳态效应的发挥.通过对比洱海典型湖湾洱滨村水域沉水植物群落结构在恢复与优化前后的变化,发现洱滨村水域各水深区间沉水植物群落各项多样性指标与恢复物种的丰度均显著提升.因此,我们总结提出了针对洱海典型富营养湖湾沉水植被恢复和管理的建议和对策,以期为后续进一步开展洱海生态系统恢复相关工作提供依据. 相似文献
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Our investigation on macrophytes in Lake Qattieneh, a large, shallow reservoir in western Syria, is a first assessment of ecological status of this lake. We studied spatial distribution patterns of aquatic macrophyte vegetation and heavy metal concentrations to determine if they can be used as indicators of point sources of pollution. Industrial and municipal point sources at the lake shore increase nutrient load and contamination by heavy metals. Water analyses revealed high concentrations of some heavy metals at some littoral sites: Ni 88.7 μg L−1, Cr 49.99 μg L−1, Co 14.38 μg L−1, and Cu 11.65 μg L−1. Despite hypertrophic conditions and high heavy metal contamination, we recorded several submerged macrophyte species with heterogeneous spatial distribution patterns. Whereas Potamogeton pectinatus L. dominates in the eastern part of the lake, near industrial point sources, both Myriophyllum spicatum L. and Potamogeton lucens L. form extended patches in the western part of the lake. The shallow, littoral areas near villages are dominated by Ranunculus trichophyllus Chaix in Villars and Ceratophyllum demersum L. The west-east gradient in nutrient and heavy metal concentrations in waters and sediments are reflected by the spatial distribution of submersed species. While the heavy metal concentrations of the water body vary considerably in different seasons, the contents in submersed macrophytes integrate seasonal variations of longer time periods. Spatial distribution and tissue accumulation of littoral macrophyte species reflect the environmental conditions at respective sites such as heavy metal contents in water and sediment. 相似文献
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太湖康山湾示范区水生植物对水体氮、磷控制的适用性分析 总被引:2,自引:1,他引:1
为重建湖泊水生植被,改善太湖局部水域水质,在太湖康山湾示范区两个大型围隔进行了两种类型水生植物重建.通过2010年8月-2011年8月的现场采样及分析测定发现,人工控制条件下,浮叶植物荇菜和菱以及沉水植物马来眼子菜的重建效果较好,在其生长季节具有较高的覆盖度;研究表明,控制风浪及提高透明度是恢复水生植被的前提;植被重建区沉水植物氮、磷含量与浮叶植物差别不大,但浮叶植物重建区水体氮、磷浓度的控制比沉水植物重建区好;从经济及水环境效益角度来看,太湖敞水区的沿岸带由于风浪的控制比较困难,恢复水生植被时,应选择浮叶植物荇菜、菱、沉水植物马来眼子菜等抗风浪能力强的物种.本研究为太湖敞水区沿岸带的生态恢复方案制定提供了理论依据. 相似文献
18.
Our view of how water quality effects ecosystems of the Great Barrier Reef (GBR) is largely framed by observed or expected responses of large benthic organisms (corals, algae, seagrasses) to enhanced levels of dissolved nutrients, sediments and other pollutants in reef waters. In the case of nutrients, however, benthic organisms and communities are largely responding to materials which have cycled through and been transformed by pelagic communities dominated by micro-algae (phytoplankton), protozoa, flagellates and bacteria. Because GBR waters are characterised by high ambient light intensities and water temperatures, inputs of nutrients from both internal and external sources are rapidly taken up and converted to organic matter in inter-reefal waters. Phytoplankton growth, pelagic grazing and remineralisation rates are very rapid. Dominant phytoplankton species in GBR waters have in situ growth rates which range from approximately 1 to several doublings per day. To a first approximation, phytoplankton communities and their constituent nutrient content turn over on a daily basis. Relative abundances of dissolved nutrient species strongly indicate N limitation of new biomass formation. Direct ((15)N) and indirect ((14)C) estimates of N demand by phytoplankton indicate dissolved inorganic N pools have turnover times on the order of hours to days. Turnover times for inorganic phosphorus in the water column range from hours to weeks. Because of the rapid assimilation of nutrients by plankton communities, biological responses in benthic communities to changed water quality are more likely driven (at several ecological levels) by organic matter derived from pelagic primary production than by dissolved nutrient stocks alone. 相似文献
19.
C. Trigal C. Fernandez-Alaez M. Fernandez-Alaez 《Aquatic Sciences - Research Across Boundaries》2014,76(1):61-72
Using data from 31 ponds, we investigated the importance of environmental (e.g. habitat complexity, nutrient content, pH) and biotic factors (i.e. fish predation) on the spatial patterns of planktonic (phytoplankton and zooplankton) and benthic (macroinvertebrates) assemblages. We also evaluated the degree of concordance among assemblages and between the functional and taxonomic composition of assemblages, and test the hypothesis that surrogates of biodiversity (e.g. taxonomic or functional groups) can be used in pond conservation and biomonitoring studies. We found that the spatial patterns of benthic and pelagic assemblages were determined by macrophyte coverage, water quality and, to a lesser extent, fish. However, shifts in the taxonomic and functional composition were not congruent. Moreover, local environmental variation was slightly more important for the taxonomic than the functional composition of assemblages, except for phytoplankton. The degree of concordance among assemblages was also weak, which may be partly due to the fact that species respond individualistically to environmental variation. These findings also suggest that the coupling between benthic and pelagic habitats in flatland ponds is weak, and that the use of surrogate measures or indicator groups in pond conservation studies may not be appropriate. 相似文献
20.
Jari Syväranta Pia Högmander Tapio Keskinen Juha Karjalainen Roger I. Jones 《Aquatic Sciences - Research Across Boundaries》2011,73(1):79-89
We used carbon and nitrogen stable isotope analyses to assess the relative contributions from pelagic and littoral energy sources to higher trophic levels in a lake ecosystem before and after a major food web perturbation. The food web structure of the lake was altered when the population sizes of the most abundant fish species (small perch, roach and bream) were reduced during an attempt to improve water quality by biomanipulation. Fish removal was followed by dense year classes of young fish, which subsequently increased the utilisation of pelagic resources. This was reflected as a decrease in relative energy contribution from littoral sources and also led to more distinct pelagic and littoral food chains after fish removal. Community metrics calculated from stable isotope data indicated increased trophic diversity and occupied niche area, and reduced trophic redundancy in the food web. However, only minor changes were observed in fish trophic positions, although roach and pike occupied slightly lower trophic positions after fish removal. Despite the Jyväsjärvi ecosystem becoming more dependent on pelagic energy after fish removals, the littoral energy contribution was still substantial, particularly to certain fish species. Hence, our results support recent arguments for the importance of benthic production in lake ecosystems. More generally, our results illustrate how large-scale perturbations of food web structure can alter energy flow patterns through an entire ecosystem. 相似文献