Mortality rate acceleration and post-reproductive lifespan in matrilineal whale species

Foote, Andrew D.

doi:10.1098/rsbl.2008.0006

Cited by 70 publications

(65 citation statements)

References 19 publications

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“…For example, there is a growing corpus of data on whales that should allow for comparative tests. Some toothed‐whales show clear evidence of menopause and a long postmenopausal lifespan in females 29,43 . It is interesting to note that this branch of the cetacean line shows some broad similarities in its foraging niche to humans.…”

Section: Discussionmentioning

confidence: 99%

“…Even in those toothed whales that evidence female menopause, there is no such equivalent in males. In those species, males typically have much shorter lifespans than females and do not invest in offspring 29 . Humans are an outlier species in many senses, from brain size to lifespan to menopause to male parental investment.…”

Section: A “Learning” Theory Of Human Reproductive Decline and Cessationmentioning

confidence: 99%

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Learning, menopause, and the human adaptive complex

Kaplan

Gurven

Winking³

et al. 2010

Annals of the New York Academy of Sciences

113

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This paper presents a new two-sex learning- and skills-based theory for the evolution of human menopause. The theory proposes that the role of knowledge, skill acquisition, and transfers in determining economic productivity and resource distribution is the distinctive feature of the traditional human ecology that is responsible for the evolution of menopause. The theory also proposes that male reproductive cessation and post-reproductive investment in descendants is a fundamental characteristic of humans living in traditional foraging and simple horticultural economies. We present evidence relevant to the theory. The data show that whereas reproductive decline is linked to increasing risks of mortality in chimpanzees, human reproductive senescence precedes somatic senescence. Moreover under traditional conditions, most human males undergo reproductive cessation at the same time as their wives. We then present evidence that after ceasing to reproduce, both men and women provide net economic transfers to children and grandchildren. Given this pattern of economic productivity, delays in menopause would produce net economic deficits within families.

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Section: Discussionmentioning

confidence: 99%

Section: A “Learning” Theory Of Human Reproductive Decline and Cessationmentioning

confidence: 99%

Learning, menopause, and the human adaptive complex

Kaplan

Gurven

Winking³

et al. 2010

Annals of the New York Academy of Sciences

113

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“…Evidence for uncoupling of patterns of survival and fecundity senescence remain quite scarce. In females, post-reproductive survival has been documented in wild mammals, but with the possible exception of some toothed whales, this seems more likely the product of chance than some adaptive reproductive cessation (Cohen, 2004; Packer et al, 1998; Thompson et al, 2007; Foote, 2008; Ward et al, 2009). There is also some evidence from wild female ungulates that fecundity senescence may begin later and progress more rapidly than age-related declines in survival probability (Bérubé et al, 1999; Catchpole et al, 2004; Jorgenson et al, 1997; Nussey et al, 2009).…”

Section: Understanding the Causes And Consequences Of Variation Inmentioning

confidence: 99%

Senescence in natural populations of animals: Widespread evidence and its implications for bio-gerontology

Nussey¹,

Froy²,

Lemaître³

et al. 2013

Ageing Research Reviews

596

591

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That senescence is rarely, if ever, observed in natural populations is an oft-quoted fallacy within bio-gerontology. We identify the roots of this fallacy in the otherwise seminal works of Medawar and Comfort, and explain that under antagonistic pleiotropy or disposable soma explanations for the evolution of senescence there is no reason why senescence cannot evolve to be manifest within the life expectancies of wild organisms. The recent emergence of long-term field studies presents irrefutable evidence that senescence is commonly detected in nature. We found such evidence in 175 different animal species from 340 separate studies. Although the bulk of this evidence comes from birds and mammals, we also found evidence for senescence in other vertebrates and insects. We describe how high-quality longitudinal field data allow us to test evolutionary explanations for differences in senescence between the sexes and among traits and individuals. Recent studies indicate that genes, prior environment and investment in growth and reproduction influence aging rates in the wild. We argue that – with the fallacy that wild animals do not senesce finally dead and buried – collaborations between bio-gerontologists and field biologists can begin to test the ecological generality of purportedly ‘public’ mechanisms regulating aging in laboratory models.

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“…If menopause is considered quantitatively on the basis of life history as a proportionately long time in adulthood during which individuals are non-reproductive (a “post-fertile life stage” sensu Levitis et al, 2013; Stone, 2013), then it indeed is remarkable in humans relative to other species in the animal kingdom (Alberts et al, 2013), occurring also only in killer whales (Brent et al, 2015; Franks et al, 2016) and perhaps short-finned pilot whales (Foote, 2008). We think that the ‘triumvirate hypothesis approach’ inherent in the theory might be applicable to explaining claims for menopause in other organisms, in which it is less conspicuous (Brody et al, 1923; Laws et al, 1975; Gosden et al, 1983; Kidd and Tozer, 1985; Nelson and Felicio, 1985; Marsh and Kasuya, 1986; Ottinger and Balthazart, 1986; Finch, 1990; Austad, 1993; von Saal et al, 1994; Packer et al, 1998; Holmes and Ottinger, 2003; Cohen, 2004; Goranson et al, 2005; McAuliffe and Whitehead, 2005; Minois et al, 2005; Reznick et al, 2006; Singh and Singh, 2006; Chen et al, 2007; Foote, 2008; Walker and Herndon, 2008; Atsalis and Videan, 2009; Ward et al, 2009). Alternatively, a similar synthetic approach but differing in details (e.g., hypotheses) may be required to address specific differences between humans and other organisms.…”

Section: Resultsmentioning

confidence: 99%

A Theory for the Origin of Human Menopause

2017

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A complete and compelling evolutionary explanation for the origin of human menopause is wanting. Menopause onset is defined clinically as the final menses, confirmed after 1 year without menstruation. The theory proposed herein explains at multiple levels – ultimately genetic but involving (1) behavioral, (2) life history, and (3) social changes – the origin and evolution of menopause in women. Individuals in Lower Paleolithic human populations were characterized by short lifespans with diminished late-age survival and fertility, similar to contemporary chimpanzees, and thence were subject to three changes. (1) A mating behavior change was established in which only young women reproduced, thereby rendering as effectively neutral female-specific late-onset fertility-diminishing mutations, which accumulated subsequently. (2) A lifespan increase was manifested adaptively, revealing the reproductive senescence phenotype encoded in late-onset fertility-diminishing mutation genotypes, which, heretofore, had been unexpressed in the shorter lifespan. (3) A social interaction change emerged exaptively, when older non-reproductive women exclusively started assisting in rearing grandchildren rather than giving birth to and caring for their own children, ultimately leading to menstrual cycle cessation. The changes associate in a one-to-one manner with existing, non-mutually exclusive hypotheses for the origin of human menopause. Evidence for each hypothesis and its associated change having occurred are reviewed, and the hypotheses are combined in a synthetic theory for the origin of human menopause. The new theory simultaneously addresses the main theoretical problem with each hypothesis and yields predictions for future testing.

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Mortality rate acceleration and post-reproductive lifespan in matrilineal whale species

Cited by 70 publications

References 19 publications

Learning, menopause, and the human adaptive complex

Learning, menopause, and the human adaptive complex

Senescence in natural populations of animals: Widespread evidence and its implications for bio-gerontology

A Theory for the Origin of Human Menopause

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