Biomass Size Spectra and Plankton Diversity in a Shallow Eutrophic Lake

Gaedke, Ursula; Seifried, Angelika; Adrian, Rita

doi:10.1002/iroh.200310661

Cited by 46 publications

(34 citation statements)

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“…In addition, the abundance of ciliate was significantly correlated with TN concentration at Lake Center in this study (r = 0.62, P = 0.032). Many other studies have demonstrated that the composition of microbial eukaryotic communities is related to trophic status (Gaedke et al 2004;Lefranc et al 2005;Lepère et al 2006;Moore et al 2008). For example, Lepère et al (2006) found that nutrients, especially nitrogenous nutrients and total phosphorus, play a significant role in structuring small eukaryotic communities.…”

Section: Seasonal Variations and Regulation Of The Meccmentioning

confidence: 96%

“…The result suggests that cladocera and copepoda may exert differential top-down regulation of microbial eukaryotes in the microbial food web (Lepère et al 2006). The preferred food size for the filtering cladocera is less than 40-50 lm; therefore, they could exert a pronounced effect on the whole protist community (Auer and Arndt 2001;Gaedke et al 2004;Jürgens and Stolpe 1995). Copepoda select a larger particle size than cladocera and are known to be efficient selective grazers of larger Aquat Ecol (2010) 44:1-12 9 planktonic ciliates (Auer and Arndt 2001;Sommer et al 2003;Zöllner et al 2003) and are probably of minor importance as grazers of nanoplankton (Jür-gens and Stolpe 1995).…”

Section: Seasonal Variations and Regulation Of The Meccmentioning

confidence: 98%

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Seasonal variation of microbial eukaryotic community composition in the large, shallow, subtropical Taihu Lake, China

Chen

Zhao

et al. 2009

Aquat Ecol

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Microbial eukaryotic community (0.8-20 lm) composition and its seasonal variation were investigated in large, shallow, subtropical Lake Taihu located in Southeast China. The water samples were collected monthly from August 2006 to July 2007 at two sites distantly located in Meiliang Bay and Lake Center, which differed strongly in their trophic status and sediment resuspension. The microbial eukaryotic community compositions (MECC) were measured using denaturing gradient gel electrophoresis (DGGE) of PCR-amplified eukaryotic 18S rRNA gene fragments. Seasonal variations were related to environmental factors by means of redundancy analysis (RDA) in order to reveal the most important regulating factors. At both sites, the structures and Shannon-Wiener indices of the microbial eukaryotic communities displayed apparent seasonal variations, which were significantly related to environmental variables. There were significant intrahabitat differences in environmental factors regulating MECC, as well as in the seasonal dynamics of the two sites during the study period. At Meiliang Bay, the variations of total phosphorus concentration and cladocera abundance had the most profound impacts on the microbial eukaryotic community composition, while at Lake Center, the total nitrogen concentration and conductivity were most influential. Our results suggest that the DGGE method is a cost-effective way to analyze the seasonal dynamics of MECC and their interaction with environmental variables, which will provide new insights into the diversity and dynamics of MECC.

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Section: Seasonal Variations and Regulation Of The Meccmentioning

confidence: 96%

Section: Seasonal Variations and Regulation Of The Meccmentioning

confidence: 98%

Seasonal variation of microbial eukaryotic community composition in the large, shallow, subtropical Taihu Lake, China

Chen

Zhao

et al. 2009

Aquat Ecol

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“…Additionally, there should be a higher vulnerability of heterotrophic nanoplank- ters to high daphnids abundance than that of the equally sized autotrophs. A precondition for both circumstances is a high abundance of large daphnids (Tittel et al 1998;Gaedke et al 2004). However, in Lake Kastoria, the overall size composition of zooplankton was dominated by sizes up to 300 m (Fig.…”

Section: Periodsmentioning

confidence: 99%

Plankton food web structure in a eutrophic polymictic lake with a history of toxic cyanobacterial blooms

Moustaka‐Gouni

Vardaka

Michaloudi

et al. 2006

Limnology & Oceanography

109

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We studied the seasonal dynamics of phytoplankton, bacterioplankton, heterotrophic nanoflagellates, ciliates, and metazoan plankton in the highly eutrophic polymictic Lake Kastoria (Greece), which has a history of toxic cyanobacterial blooms. An acute increase in the flushing rate of the lake during spring inhibited cyanobacterial biomass accumulation. During this transient oligotrophic period, which was characterized by abundant lake snow particles, the plankton food web was an inverted biomass pyramid (low autotrophic biomass and high heterotrophic biomass). Prokaryotes played a key role in these changes (cyanobacteria during periods of autotrophy and bacteria during periods of heterotrophy). In summer and autumn, toxic cyanobacterial blooms developed, and the microbial loop was weak. The microbial loop was weak because the heterotrophic nanoflagellates and nanociliates decreased to undetectable densities during the summer, when larger bacterivores (rotifers and small cladocera) were abundant. Toxic blooms may have a dual effect on heterotrophic nanoplankton: negative during the first bloom and postbloom period and positive during a following toxic bloom. Different species (Cylindrospermopsis raciborskii, Aphanizomenon spp., and Microcystis aeruginosa) and succession phases of toxic blooms may differentially affect the microbial food web structure.In pelagic systems, phytoplankton and bacterioplankton constitute the complementary functional components that primarily produce new particulate matter by autotrophy and heterotrophy. Their carbon pool represents the base of grazing food chains and the microbial loop. Thus, the relative dominance of each functional component has significant implications for food web structure and the function and bio- AcknowledgmentsWe would like to thank the two anonymous reviewers and Associate Editor R. Bachmann for their constructive criticisms and suggestions. We are grateful to U. Sommer for his critical comments and suggestions on drafts of this manuscript and to U. Christaki for her helpful comments. We thank L. Economou for linguistic suggestions and C. M. Cook for the critical reading of sections of the manuscript concerning cyanotoxins. This work was partially funded by the Municipality of Kastoria, Research Committee, Aristotle University of Thessaloniki, project 7468. We thank all participating members of this project.

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“…There is relatively little information available on how species richness influences fish community size distributions, particularly in small lakes (Duplisea 2000;Gaedke et al 2004;Sprules 2008). It is possible that even single species lakes show a predicable size structure as long as there is competition for limited food resources and size-based predation.…”

Section: Discussionmentioning

confidence: 99%

“…This suggests that species diversity has little effect on size spectra slope in large systems, or beyond some yet undetermined number of species. Similarly, Gaedke et al (2004) found that diversity of plankton had little effect on the shape of size spectra in a large (730 ha), shallow eutrophic lake. Contrary to the aforementioned studies, Duplisea (2000) suggested that size spectra of the Baltic Sea benthos may be altered when one or two ecologically important species are reduced in abundance; these results suggest that as species richness decreases the likelihood of single (ecologically important) species population dynamics having a strong influence on CSS increases, as will the variability in size structure (i.e., tend toward stochastic structure).…”

Section: Discussionmentioning

confidence: 99%

Fish community size structure of small lakes: the role of lake size, biodiversity and disturbance

Clement

Murry

Uzarski

2015

Journal of Freshwater Ecology

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Aquatic community body size distributions are highly predictable with decreasing abundance and increasing body size. This basic relationship has led to significant increases in our understanding of the internal regulation processes of aquatic communities. However, most of our understanding of the patterns of community size structure is derived from large aquatic systems with little known about the dynamics of small lakes. Processes that promote predictable, or deterministic, community size structure likely differ with levels of biodiversity and disturbance patterns, both of which frequently co-vary with ecosystem size. Here we examine the influence of lake size, fish species richness, and natural disturbance regime on fish community size structure in six small lakes (<200 ha) on Beaver Island, Michigan, USA. Fish communities in three of the six lakes exhibited a deterministic size structure and it appears that disturbance regime is the most obvious barrier to developing and/or maintaining stable and predictable community size structure. In this study, lakes with less than 10 species and lakes experiencing periodic winterkills exhibited stochastic size structure. Lake size did not show any clear relation to fish community size structure. Collectively our results shed some light on the conditions that promote (or do not promote) deterministic size structure.

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Biomass Size Spectra and Plankton Diversity in a Shallow Eutrophic Lake

Cited by 46 publications

References 46 publications

Seasonal variation of microbial eukaryotic community composition in the large, shallow, subtropical Taihu Lake, China

Seasonal variation of microbial eukaryotic community composition in the large, shallow, subtropical Taihu Lake, China

Plankton food web structure in a eutrophic polymictic lake with a history of toxic cyanobacterial blooms

Fish community size structure of small lakes: the role of lake size, biodiversity and disturbance

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