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W2155684503 startingPage "826" @default.
W2155684503 abstract "The genus Daphnia (Crustacea: Branchipoda) includes a diversity of species that are generalist grazers on plankton in freshwater lakes. Despite substantial intraspecific variation in body size, explanations of functional differences among Daphnia species continue to emphasize body size. In this study, we ask whether Daphnia in a relatively narrow range of body sizes differ in ability to exploit the array of resources commonly encountered in lakes. We compared juvenile growth rates of several clones and species of Daphnia fed natural planktonic resources that differed in overall dietary richness. We observed, both among and within species, a trade-off between growth rates in rich and poor resource conditions. We compared the ability of different species and clones to exploit natural resources in a lake mesocosm experiment, testing the prediction that clones displaying the greatest growth rates in rich resource conditions would have the highest minimum resource requirements. Using 8000-L whole water column enclosures, replicate populations of D. rosea and two different morphs of D. pulicaria were established separately in monoculture in a thermally stratified lake. An additional treatment without crustacean zooplankton was also established. We quantified resources in the enclosures using multiple indirect measures (e.g., chlorophyll a) and a growth bioassay. Results supported predictions; rankings of resource levels achieved in the different treatments suggest that Daphnia trade off high maximum growth rates for low minimum resource requirements. This field experiment also documented large differences among the species and clones of Daphnia in their impact on phytoplankton resources, water clarity, and formation of calcite particles (whiting). We suggest that these large ecological effects stem from the trade-off in abilities to use rich vs. poor resources and constitute an important aspect of grazer–resource interactions. We review the literature on growth and reproductive responses of zooplankton species to resource level and find general agreement with the concept of a trade-off between abilities to exploit rich and poor resource conditions. A reanalysis of data from a comprehensive study on Daphniidae growth confirms our results and suggests that the breadth of species in this family conforms to the trade-off. Furthermore, the trade-off is only weakly, and not significantly, associated with body size. Our study presents a new framework for understanding the functional significance of daphniid diversity to plankton food webs and illustrates how an ecological trade-off provides a means of linking species diversity to ecosystem function." @default.
W2155684503 created "2016-06-24" @default.
W2155684503 creator A5022984178 @default.
W2155684503 creator A5045241467 @default.
W2155684503 creator A5053320720 @default.
W2155684503 date "2000-03-01" @default.
W2155684503 modified "2023-10-02" @default.
W2155684503 title "A FUNDAMENTAL TRADE-OFF IN RESOURCE EXPLOITATION BY<i>DAPHNIA</i>AND CONSEQUENCES TO PLANKTON COMMUNITIES" @default.
W2155684503 cites W1964402033 @default.
W2155684503 cites W1968780658 @default.
W2155684503 cites W1972344148 @default.
W2155684503 cites W1976220181 @default.
W2155684503 cites W1977136871 @default.
W2155684503 cites W1977862734 @default.
W2155684503 cites W1979119331 @default.
W2155684503 cites W1980368423 @default.
W2155684503 cites W1983254603 @default.
W2155684503 cites W1986573203 @default.
W2155684503 cites W1987749377 @default.
W2155684503 cites W1997356912 @default.
W2155684503 cites W1998268923 @default.
W2155684503 cites W1998671666 @default.
W2155684503 cites W1998948271 @default.
W2155684503 cites W2001793534 @default.
W2155684503 cites W2002964914 @default.
W2155684503 cites W2004526426 @default.
W2155684503 cites W2024571014 @default.
W2155684503 cites W2025015574 @default.
W2155684503 cites W2025143605 @default.
W2155684503 cites W2026689691 @default.
W2155684503 cites W2027432032 @default.
W2155684503 cites W2028435430 @default.
W2155684503 cites W2037291617 @default.
W2155684503 cites W2039167460 @default.
W2155684503 cites W2040772574 @default.
W2155684503 cites W2043958754 @default.
W2155684503 cites W2047438189 @default.
W2155684503 cites W2050323806 @default.
W2155684503 cites W2051089660 @default.
W2155684503 cites W2051107118 @default.
W2155684503 cites W2052285753 @default.
W2155684503 cites W2056640260 @default.
W2155684503 cites W2058258194 @default.
W2155684503 cites W2064115730 @default.
W2155684503 cites W2064359817 @default.
W2155684503 cites W2064419960 @default.
W2155684503 cites W2065692202 @default.
W2155684503 cites W2065998047 @default.
W2155684503 cites W2066034117 @default.
W2155684503 cites W2075168674 @default.
W2155684503 cites W2077132027 @default.
W2155684503 cites W2082733897 @default.
W2155684503 cites W2083550653 @default.
W2155684503 cites W2085367839 @default.
W2155684503 cites W2089325551 @default.
W2155684503 cites W2092961609 @default.
W2155684503 cites W2099254338 @default.
W2155684503 cites W2115324583 @default.
W2155684503 cites W2116954415 @default.
W2155684503 cites W2121562238 @default.
W2155684503 cites W2128466926 @default.
W2155684503 cites W2130160238 @default.
W2155684503 cites W2130814388 @default.
W2155684503 cites W2132540290 @default.
W2155684503 cites W2142211232 @default.
W2155684503 cites W2147505351 @default.
W2155684503 cites W2149171801 @default.
W2155684503 cites W2149383961 @default.
W2155684503 cites W2151476104 @default.
W2155684503 cites W2151655825 @default.
W2155684503 cites W2158588443 @default.
W2155684503 cites W2159156557 @default.
W2155684503 cites W2159371855 @default.
W2155684503 cites W2168749739 @default.
W2155684503 cites W2171578494 @default.
W2155684503 cites W2299167651 @default.
W2155684503 cites W2313171895 @default.
W2155684503 cites W2316605022 @default.
W2155684503 cites W2325979687 @default.
W2155684503 cites W2771701970 @default.
W2155684503 cites W3008737772 @default.
W2155684503 cites W3148591622 @default.
W2155684503 cites W4244589656 @default.
W2155684503 cites W4247573241 @default.
W2155684503 cites W4250992172 @default.
W2155684503 doi "https://doi.org/10.1890/0012-9658(2000)081[0826:aftoir]2.0.co;2" @default.
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