Reevaluating the grandmother hypothesis (original) (raw)
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Grandmothering, menopause, and the evolution of human life histories
Proceedings of the National Academy of Sciences of the United States of America, 1998
Long postmenopausal lifespans distinguish humans from all other primates. This pattern may have evolved with mother-child food sharing, a practice that allowed aging females to enhance their daughters' fertility, thereby increasing selection against senescence. Combined with Charnov's dimensionless assembly rules for mammalian life histories, this hypothesis also accounts for our late maturity, small size at weaning, and high fertility. It has implications for past human habitat choice and social organization and for ideas about the importance of extended learning and paternal provisioning in human evolution.
Grandmothers' longevity negatively affects daughters' fertility
American Journal of Physical Anthropology, 2008
The evolution of postmenopausal longevity in human females has been the subject of debate. Specifically, there is disagreement about whether the evolution of the trait should be understood as an adaptive or a neutral process, and if the former, what the selective mechanism is. There are two main adaptive proposals to explain the evolution of postreproductive longevity: the grandmother and the mother hypotheses. The grandmother hypothesis proposes that postreproductive longevity evolved because it is selectively advantageous for females to stop reproducing and to help raise their grandchildren. The mother hypothesis states that postmenopausal longevity evolved because it is advantageous for women to cease reproduction and concentrate their resources and energy in raising the children already produced. In this article, we test the mother Grant sponsor: National Institutes of Aging; Grant number: 1-R03-AG022616-01.
Testing evolutionary theories of menopause
Proceedings of The Royal Society B: Biological Sciences, 2007
Why do women cease fertility rather abruptly through menopause at an age well before generalized senescence renders child rearing biologically impossible? The two main evolutionary hypotheses are that menopause serves either (i) to protect mothers from rising age-specific maternal mortality risks, thereby protecting their highly dependent younger children from death if the mother dies or (ii) to provide postreproductive grandmothers who enhance their inclusive fitness by helping to care and provide for their daughters' children. Recent theoretical work indicates that both factors together are necessary if menopause is to provide an evolutionary advantage. However, these ideas need to be tested using detailed data from actual human life histories lived under reasonably 'natural' conditions; for obvious reasons, such data are extremely scarce. We here describe a study based on a remarkably complete dataset from The Gambia. The data provided quantitative estimates for key parameters for the theoretical model, which were then used to assess the actual effects on fitness. Empirically based numerical analysis of this nature is essential if the enigma of menopause is to be explained satisfactorily in evolutionary terms. Our results point to the distinctive (and perhaps unique) role of menopause in human evolution and provide important support for the hypothesized evolutionary significance of grandmothers.
PLOS Computational Biology, 2017
Menopause, the permanent cessation of ovulation, occurs in humans well before the end of the expected lifespan, leading to an extensive post-reproductive period which remains a puzzle for evolutionary biologists. All human populations display this particularity; thus, it is difficult to empirically evaluate the conditions for its emergence. In this study, we used artificial neural networks to model the emergence and evolution of allocation decisions related to reproduction in simulated populations. When allocation decisions were allowed to freely evolve, both menopause and extensive post-reproductive lifespan emerged under some ecological conditions. This result allowed us to test various hypotheses about the required conditions for the emergence of menopause and extensive post-reproductive lifespan. Our findings did not support the Maternal Hypothesis (menopause has evolved to avoid the risk of dying in childbirth, which is higher in older women). In contrast, results supported a shared prediction from the Grandmother Hypothesis and the Embodied Capital Model. Indeed, we found that extensive post-reproductive lifespan allows resource reallocation to increase fertility of the children and survival of the grandchildren. Furthermore, neural capital development and the skill intensiveness of the foraging niche, rather than strength, played a major role in shaping the age profile of somatic and cognitive senescence in our simulated populations. This result supports the Embodied Capital Model rather than the GrandMother Hypothesis. Finally, in simulated populations where menopause had already evolved, we found that reduced post-reproductive lifespan lead to reduced children's fertility and grandchildren's survival. The results are discussed in the context of the evolutionary emergence of menopause and extensive post-reproductive lifespan .
An evolutionary perspective on the origin and ontogeny of menopause.
The “grandmother hypothesis” proposes that menopause evolved because ancestral middle-aged women gained greater reproductive success from investing in extant genetic relatives than from continuing to reproduce [Williams GC. Pleiotropy, natural selection, and the evolution of senescence. Evolution 1957;11:398–411]. Because middle-aged women faced greater risks of maternal death during pregnancy and their offspring’s infancy than did younger women, offspring of middle-aged women may not have received the needed level of prolonged maternal investment to survive to reproductive age. I put forward the “absent father hypothesis” proposing that reduced paternal investment linked with increasing maternal age was an additional impetus for the evolution of menopause. Reduced paternal investment was linked with increasing maternal age because men died at a younger age than their mates and because some men were increasingly likely to defect from their mateships as their mates aged. The absent father hypothesis is not an alternative to the grandmother hypothesis but rather a complement. It outlines an additional cost—reduced paternal investment—associated with continued reproduction by ancestral middle-aged women that could have been an additional impetus for the evolution of menopause. After reviewing additional explanations for the origin of menopause (“patriarch hypothesis,” “lifespan-artifact” hypotheses), I close by proposing a novel hypothesis for the ontogeny of menopause. According to the “adaptive onset hypothesis,” the developmental timing of menopause is a conditional reproductive strategy in which a woman’s age at onset is influenced by the likelihood that any children she could produce would survive to reproductive age. Twelve variables predicted to be associated with age at onset and evidence that bears upon the predictions is discussed.
American Journal of Physical Anthropology, 2008
The ''mother'' hypothesis is one of the main adaptive explanations of human menopause. It postulates that reproductive cessation constitutes a strategy that has been selected for during human evolution because mothers at older ages might maximize their fitness by investing resources in the survival and reproduction of their living children rather than by continuing to reproduce. This study provides a test of this hypothesis. Fertility functions that maximize fitness are built into a model incorporating the fact that the survival of females during the rearing period is a major determinant of their children's survival. Results are given according to different scenarios of increase with mothers' age of maternal mortality risk and risk of stillbirth and birth defects (on the assumption that these females do not experience
Despite growing evidence that the long female post-reproductive lifespan may not be unique to humans and may not even require an adaptive explanation [1], grandmothering remains among the leading hypotheses for the evolution of human longevity. This is due in part to the fact several (though, importantly, not all) empirical studies of contemporary and historical populations have shown that helpful grandmothers may benefit the fitness of their grandchildren. But such findings do not necessarily speak directly to the evolution of increased longevity via grandmothering because studies of extant modern humans cannot demonstrate that the observed benefits are (i) applicable to human ancestors or (ii) sufficiently large to offset the costs associated with reducing adult mortality.
… of the Royal …, 2011
Despite growing evidence that the long female post-reproductive lifespan may not be unique to humans and may not even require an adaptive explanation [1], grandmothering remains among the leading hypotheses for the evolution of human longevity. This is due in part to the fact several (though, importantly, not all) empirical studies of contemporary and historical populations have shown that helpful grandmothers may benefit the fitness of their grandchildren. But such findings do not necessarily speak directly to the evolution of increased longevity via grandmothering because studies of extant modern humans cannot demonstrate that the observed benefits are (i) applicable to human ancestors or (ii) sufficiently large to offset the costs associated with reducing adult mortality.