Evolutionary, Demographic, Physiological and Behavioral Contributors to Mortality Plateaus
Reynolds, Rose M.
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Permalink
https://hdl.handle.net/2142/85375
Description
Title
Evolutionary, Demographic, Physiological and Behavioral Contributors to Mortality Plateaus
Author(s)
Reynolds, Rose M.
Issue Date
2007
Doctoral Committee Chair(s)
Kimberly A. Hughes
Department of Study
Biology
Discipline
Biology
Degree Granting Institution
University of Illinois at Urbana-Champaign
Degree Name
Ph.D.
Degree Level
Dissertation
Keyword(s)
Biology, Genetics
Language
eng
Abstract
"Common experience and biological theory suggest that mortality rates for a group of same-aged individuals (a cohort) should increase with age, i.e. the older you get, the greater your chances of death. However, in 1992 two studies independently reported experiments in insects showing that mortality rates in late life can stop increasing (plateau), or even decrease at very late ages. Since then, empirical tests have revealed that many organisms show this pattern of mortality in diverse taxa, including yeast, nematodes, beetles, and humans. Although there is now robust evidence for the existence of mortality plateaus, their underlying causes have been the center of heated debate for nearly fifteen years. First, mortality plateaus represent a challenge for evolutionary biologists concerned with the evolution of aging, since traditional forms of aging theory predict that mortality rates should increase without bound after the age at last reproduction, producing a ""wall of death"". A slightly modified version of the Mutation Accumulation (MA) theory on the evolution of aging, incorporating moderate age-specificity of alleles that affect fitness, predicts mortality plateaus. I present here a brief description, and compelling empirical evidence in support of the modified MA theory. Second, plateaus have been interpreted as a slowing of the aging process in late life. I present evidence that although mortality plateaus are ubiquitous regardless of experimental treatment, both demographic and physiological changes contribute to the timing and severity of mortality plateau. I conclude that mortality plateaus have an evolutionary-genetic basis, and are the product of both demographic selection, and of the transition of individuals to late life physiology."
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