Eusociality and the evolution of aging in superorganisms

Kramer, Boris H.; Gs, van Doorn; Bms, Arani; Pen, Ido

doi:10.1101/2021.05.06.442925

Cited by 2 publications

(1 citation statement)

References 52 publications

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“…The evolution of sociality is associated with changes in life history, especially lifespan [1][2][3] . As demonstrated in birds 4,5 and mole rats 6,7 (though not in mammals in general 8,9 ), cooperatively breeding species often have longer lifespans than solitary species, and the reproductive castes of eusocial insects outlive solitary insects by several orders of magnitude 10 .…”

Section: Introductionmentioning

confidence: 99%

The evolution of ageing in cooperative breeders

et al. 2022

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Cooperatively breeding animals live longer than their solitary counterparts. The traditional explanation for this is that cooperative breeding evolves more readily in long-lived species.Here, we reverse this argument and show that long lifespans are an evolutionary consequence of cooperative breeding. Natural selection favours a delayed onset of senescence in cooperative breeders, relative to solitary breeders, because cooperative breeders have a delayed age of first reproduction due to reproductive queueing. Especially long lifespans evolve in cooperative breeders with age-dependent reproductive queueing. Finally, we show that lower genetic relatedness among group members leads to the evolution of longer lifespans. This is because selection against higher mortality is weaker when mortality reduces competition between relatives. Our results link the evolutionary theory of ageing with kin selection theory, demonstrating that the evolution of ageing in cooperative breeders is driven by the timing of reproduction and kin structure within breeding territories. Results

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Section: Introductionmentioning

confidence: 99%

The evolution of ageing in cooperative breeders

et al. 2022

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The evolution of ageing in cooperative breeders

Kreider

Kramer

Komdeur

et al. 2022

Preprint

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Cooperatively breeding animals live longer than their solitary counterparts. The traditional explanation for this is that cooperative breeding evolves more readily in long-lived species. Here, we reverse this argument and show that long lifespans are an evolutionary consequence of cooperative breeding. Natural selection favours a delayed onset of senescence in cooperative breeders, relative to solitary breeders, because cooperative breeders have a delayed age of first reproduction due to reproductive queueing. Especially long lifespans evolve in cooperative breeders with age-dependent reproductive queueing. Finally, we show that lower genetic relatedness among group members leads to the evolution of longer lifespans. This is because selection against higher mortality is weaker when mortality reduces competition between relatives. Our results link the evolutionary theory of ageing with kin selection theory, demonstrating that the evolution of ageing in cooperative breeders is driven by the timing of reproduction and kin structure within breeding territories.

show abstract

Eusociality and the evolution of aging in superorganisms

Cited by 2 publications

References 52 publications

The evolution of ageing in cooperative breeders

The evolution of ageing in cooperative breeders

The evolution of ageing in cooperative breeders

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