2013
DOI: 10.1093/plankt/fbt008
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Aging in sexual and obligately asexual clones of Daphnia from temporary ponds

Abstract: The freshwater crustacean is an emerging model system in the biology of aging. Diversity in aging patterns is thought to be caused by ecological variation in selection on age-specific performance. Previous work in has shown a strong correspondence between selective differences and genetic variation in aging in the species complex. However, recent evidence suggests obligate asexuality could account for the more rapid aging found in pond genotypes compared with lake genotypes without invoking differences in sele… Show more

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Cited by 26 publications
(23 citation statements)
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“…More generally, and whatever the genetic architecture for variation in lifespan may be (AP or MA), a fundamental question is to find an evolutionary interpretation of differences in lifespan or ageing patterns among populations and species. So far, most research has focused on differences in selection pressures among populations or among species as a potential evolutionary source for such differences, including work on Daphnia (Dudycha , ; Dudycha and Hassel ). The results of our study, however, strongly support a prominent role of genetic drift and thus nonadaptive processes in explaining this variation, at least at the within‐species level.…”
Section: Discussionmentioning
confidence: 99%
“…More generally, and whatever the genetic architecture for variation in lifespan may be (AP or MA), a fundamental question is to find an evolutionary interpretation of differences in lifespan or ageing patterns among populations and species. So far, most research has focused on differences in selection pressures among populations or among species as a potential evolutionary source for such differences, including work on Daphnia (Dudycha , ; Dudycha and Hassel ). The results of our study, however, strongly support a prominent role of genetic drift and thus nonadaptive processes in explaining this variation, at least at the within‐species level.…”
Section: Discussionmentioning
confidence: 99%
“…The allocation of energy to repair and maintenance of the organism subtracts from energy available for growth and reproduction, and energy allocation is therefore subject to natural selection (Kirkwood 1990, Abrams 1993. Theory predicts that high senescence rates may evolve when extrinsic mortality is age dependent and high relative to total mortality, and if the population is under density-dependent regulation (Abrams 1993, Ricklefs 2008, Baudisch and Vaupel 2010, Fabian and Flatt 2011, and there is both experimental (Stearns et al 2000) and observational evidence for such a relation (Dudycha 2003, Robert and Bronikowski 2010, Dudycha and Hassel 2013, Tozzini et al 2013. Theory predicts that high senescence rates may evolve when extrinsic mortality is age dependent and high relative to total mortality, and if the population is under density-dependent regulation (Abrams 1993, Ricklefs 2008, Baudisch and Vaupel 2010, Fabian and Flatt 2011, and there is both experimental (Stearns et al 2000) and observational evidence for such a relation (Dudycha 2003, Robert and Bronikowski 2010, Dudycha and Hassel 2013, Tozzini et al 2013.…”
Section: Introductionmentioning
confidence: 99%
“…Daphnia from temporary ponds were observed to experience higher rates of mortality than those from permanent lakes [13]. Concomitant with this, Daphnia from temporary ponds exhibited shorter lifespans and faster juvenile growth compared to those from permanent lakes [14]. In Drosophila melanogaster , a decrease in longevity and earlier peak fecundity can be directly selected for by increasing extrinsic mortality levels [15].…”
Section: Introductionmentioning
confidence: 99%