Seasonal Adaptation of Ex-Ephippio and Parthenogenetic Offspring of Daphnia magna: Differences in Life History and Physiology

1. Physiology and life history of ex-ephippial and parthenogenetic offspring of Daphnia magna Straus were compared to test the hypothesis that females hatching from resting eggs are well adapted to the predictable high-food conditions of the spring algal bloom. 2. Although ex-ephippial neonates were...

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Veröffentlicht in:	Functional ecology 2003-08, Vol.17 (4), p.431-437
Hauptverfasser:	Arbačiauskas, Kęstutis, Lampert, Winfried
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Sprache:	eng
Schlagworte:	Animal and plant ecology Animal, plant and microbial ecology Animals Autoecology Biological and medical sciences Daphnia magna Ecological life histories Eggs Ephippia Female animals Food availability Freshwater Fundamental and applied biological sciences. Psychology growth rate Hatching Human ecology Metabolism neonate survival Newborns Protozoa. Invertebrata Respiration resting eggs Young animals
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description	1. Physiology and life history of ex-ephippial and parthenogenetic offspring of Daphnia magna Straus were compared to test the hypothesis that females hatching from resting eggs are well adapted to the predictable high-food conditions of the spring algal bloom. 2. Although ex-ephippial neonates were smaller than parthenogenetic neonates, they showed higher juvenile growth rates that compensated for the size difference by the time of maturation. 3. At high food concentration, ex-ephippial females were even larger at maturation than parthenogenetic females, produced more eggs, and reached a higher rate of population increase. 4. The high activity of the ex-ephippial females was accompanied by higher metabolic rates, which in combination with the low initial mass resulted in reduced survival times under starvation. 5. Thus, the two phenotypic types of offspring produced by Daphnia are adapted to differing conditions. Ex-ephippial females are superior to parthenogenetic offspring under high food conditions, but inferior when food is limiting. 6. This pattern selects for synchronous hatching of resting eggs in spring when the spring algal bloom is to be expected.
doi_str_mv	10.1046/j.1365-2435.2003.00748.x
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Physiology and life history of ex-ephippial and parthenogenetic offspring of Daphnia magna Straus were compared to test the hypothesis that females hatching from resting eggs are well adapted to the predictable high-food conditions of the spring algal bloom. 2. Although ex-ephippial neonates were smaller than parthenogenetic neonates, they showed higher juvenile growth rates that compensated for the size difference by the time of maturation. 3. At high food concentration, ex-ephippial females were even larger at maturation than parthenogenetic females, produced more eggs, and reached a higher rate of population increase. 4. The high activity of the ex-ephippial females was accompanied by higher metabolic rates, which in combination with the low initial mass resulted in reduced survival times under starvation. 5. Thus, the two phenotypic types of offspring produced by Daphnia are adapted to differing conditions. 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Physiology and life history of ex-ephippial and parthenogenetic offspring of Daphnia magna Straus were compared to test the hypothesis that females hatching from resting eggs are well adapted to the predictable high-food conditions of the spring algal bloom. 2. Although ex-ephippial neonates were smaller than parthenogenetic neonates, they showed higher juvenile growth rates that compensated for the size difference by the time of maturation. 3. At high food concentration, ex-ephippial females were even larger at maturation than parthenogenetic females, produced more eggs, and reached a higher rate of population increase. 4. The high activity of the ex-ephippial females was accompanied by higher metabolic rates, which in combination with the low initial mass resulted in reduced survival times under starvation. 5. Thus, the two phenotypic types of offspring produced by Daphnia are adapted to differing conditions. 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Psychology</topic><topic>growth rate</topic><topic>Hatching</topic><topic>Human ecology</topic><topic>Metabolism</topic><topic>neonate survival</topic><topic>Newborns</topic><topic>Protozoa. 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Physiology and life history of ex-ephippial and parthenogenetic offspring of Daphnia magna Straus were compared to test the hypothesis that females hatching from resting eggs are well adapted to the predictable high-food conditions of the spring algal bloom. 2. Although ex-ephippial neonates were smaller than parthenogenetic neonates, they showed higher juvenile growth rates that compensated for the size difference by the time of maturation. 3. At high food concentration, ex-ephippial females were even larger at maturation than parthenogenetic females, produced more eggs, and reached a higher rate of population increase. 4. The high activity of the ex-ephippial females was accompanied by higher metabolic rates, which in combination with the low initial mass resulted in reduced survival times under starvation. 5. Thus, the two phenotypic types of offspring produced by Daphnia are adapted to differing conditions. 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subjects	Animal and plant ecology Animal, plant and microbial ecology Animals Autoecology Biological and medical sciences Daphnia magna Ecological life histories Eggs Ephippia Female animals Food availability Freshwater Fundamental and applied biological sciences. Psychology growth rate Hatching Human ecology Metabolism neonate survival Newborns Protozoa. Invertebrata Respiration resting eggs Young animals
title	Seasonal Adaptation of Ex-Ephippio and Parthenogenetic Offspring of Daphnia magna: Differences in Life History and Physiology
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