Abstract
We investigated feeding and reproductive performance of coexisting pelagic turbellarians from experiments on predation rates of Mesostoma ehrenbergii and M. craci as a function of food (Daphnia similis, three levels) and temperature (4 levels) during 10 days. Flatworms were collected from the pelagic of a subtropical lake in Brazil. Growth was more rapid at higher temperatures: more prey were consumed, and more eggs produced. M. craci and particularly M. ehrenbergii fitted a linear mixed-effects model and showed a type II functional response. M. craci was the more stenothermic of the two. Intrageneric predation also occurred: M. ehrenbergii fed on M. craci, but not vice versa. After a first clutch of subitaneous eggs, M. ehrenbergii produced resting eggs only. In M. craci an intermediate type of eggs hatched some time after release, survived passage through the gut of M. ehrenbergii, but did not resist drying. By primarily selecting cladoceran prey, M. ehrenbergii can make coexistence of both flatworms possible. As population density of M. ehrenbergii increases, it turns to producing resting and non-viable subitaneous eggs, thus limiting its population size. In nature, these processes structure the zooplankton community, while avoiding extinction of prey and predator.
Highlights
That predation structures freshwater plankton communities was documented in the nineteen sixties, based on the effect of fish on zooplankton [1]
We investigated feeding and reproductive performance of coexisting pelagic turbellarians from experiments on predation rates of Mesostoma ehrenbergii and M. craci as a function of food (Daphnia similis, three levels) and temperature (4 levels) during 10 days
For M. ehrenbergii, the lowest prey density resulted in total consumption
Summary
That predation structures freshwater plankton communities was documented in the nineteen sixties, based on the effect of fish on zooplankton [1]. Zooplankton size structure shifts towards small-sized species under vertebrate predation and to large-sized species under invertebrate predation [2]. Studies on invertebrate predators have focused mainly on carnivorous cladocerans and copepods in temperate regions [10,11] and on cyclopoid copepods and chaoborids in the tropics [7,12,13]. Tropical freshwaters frequently shelter other invertebrate carnivores, such as medusae (Cnidaria), water mites and typhloplanid turbellarians. These too may structure zooplankton communities [14,15,16]
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