Life history synchronization in a long-lifespan single-cohort Daphnia population in a fishless alpine lake

One-year data on Daphnia and other zooplankton taxa from two neighboring ultra-oligotrophic alpine lakes in the Tatra Mountains, southern Poland, revealed a multi-specific herbivore community of small-bodied cladocerans and rotifers in the lake that has contained fish for millennia, and the large-bo...

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Bibliographic Details
Published in:Oecologia 2001-08, Vol.128 (3), p.368-378
Main Authors: Gliwicz, Maciej Z, Slusarczyk, Anna, Slusarczyk, Miroslaw
Format: Article
Language:English
Subjects:
adults
Animal and plant ecology
Animal reproduction
Animal, plant and microbial ecology
Animals
Biological and medical sciences
body fat
Body length
Body size
clones
Clutch size
Cyclopes
Cyclops
Daphnia
Demecology
diapause
Eggs
Female animals
females
fish
Food security
foods
Freshwater
Freshwater fishes
Fundamental and applied biological sciences. Psychology
hatching
lakes
life history
longevity
mountains
neonates
Poland
Poland, Tatra Mts
Population Ecology
predation
Protozoa. Invertebrata
Rotifera
summer
Zooplankton
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Summary:One-year data on Daphnia and other zooplankton taxa from two neighboring ultra-oligotrophic alpine lakes in the Tatra Mountains, southern Poland, revealed a multi-specific herbivore community of small-bodied cladocerans and rotifers in the lake that has contained fish for millennia, and the large-bodied Daphnia pulicaria as the sole herbivore species monopolizing resources in the absence of fish in the other lake, which has never been successfully stocked . D. pulicaria co-exists with an abundant Cyclops population. In contrast to the non-abundant small-bodied D. longispina, which reproduces year-round in the lake with fish, D. pulicaria in the fishless lake was found to reproduce only once a year over a short period of time, suggesting strong stabilizing selection for the precise timing of reproductive effort and hatching from diapausing eggs in the clones inhabiting the lake. This is conceivably due to the exceptionally long lifespan of Daphnia, which can over-winter either in ephippia or in the form of active adults that have restrained from reproduction until the next year, when, almost 1 year old, they produce eggs. The new-year generation starts from both the ephippial eggs and eggs released by the over-wintering adults. Only a small fraction of the population is recruited as the second new-year generation from eggs released by a few new-generation females that succeed in growing and maturing early. In each of the two generations, reproductive effort is restricted to a short period, evidently the only time window when (1) food levels are high enough to allow juvenile growth and (2) predation by Cyclops is low enough for high survival of eggs and neonates. No immediately hatching eggs are produced outside this reproductive window, even when the body lipids of the adult Daphnia are as high as at the time of summer reproduction, suggesting a deliberate halt to reproduction and its postponement until the following summer.
ISSN:0029-8549
1432-1939
DOI:10.1007/s004420100673