News Release

We cannot cheat ageing and death

New study finds fresh evidence for our inevitable death

Peer-Reviewed Publication

University of Southern Denmark

A study led by Fernando Colchero, University of Southern Denmark and Susan Alberts, Duke University, North Carolina, that included researchers from 42 institutions across 14 countries, provides new insights into the aging theory "the invariant rate of ageing hypothesis", which states that every species has a relatively fixed rate of aging.

- Human death is inevitable. No matter how many vitamins we take, how healthy our environment is or how much we exercise, we will eventually age and die, said Fernando Colchero.

He is an expert in applying statistics and mathematics to population biology and an associate professor at Department of Mathematics and Computer Science, University of Southern Denmark.

"We were able to shed light on the invariant rate of ageing hypothesis by combining an unpresented wealth of data and comparing births and deaths patterns on nine human populations with information from 30 non-human primate populations, including gorillas, chimpanzees and baboons living in the wild and in zoos" said Fernando Colchero.

In order to explore this hypothesis, the researchers analyzed the relationship between life expectancy, this is the average age at which individuals die in a population, and lifespan equality, which measures how concentrated deaths are around older ages.

Their results show that, as life expectancy increases, so does lifespan equality. So, lifespan equality is very high when most of the individuals in a population tend to die at around the same age such as observed in modern Japan or Sweden - which is around their 70s or 80s. However, in the 1800s lifespan equality was very low in those same countries, since deaths were less concentrated at old ages, resulting also in lower life expectancy.

- Life expectancy has increased dramatically and still does in many parts of the world. But this is not because we have slowed our rate of aging; the reason is that more and more infants, children and young people survive and this brings up the average life expectancy, said Fernando Colchero.

Previous research from some of the authors of the study has unraveled the striking regularity between life expectancy and lifespan equality among human populations, from pre-industrial European countries, hunter gatherers, to modern industrialize countries.

However, by exploring these patterns among our closest relatives, this study shows that this pattern might be universal among primates, while it provides unique insights into the mechanisms that produce it.

"We observe that not only humans, but also other primate species exposed to different environments, succeed in living longer by reducing infant and juvenile mortality. However, this relationship only holds if we reduce early mortality, and not by reducing the rate of ageing" said Fernando Colchero.

Using statistics and mathematics the authors show that even small changes in the rate of ageing would make a population of, say, baboons, to demographically behave as a population of chimpanzees or even humans.

'Not all is lost', says Fernando Colchero, 'medical science has advanced at an unprecedented pace, so maybe science might succeed in achieving what evolution could not: to reduce the rate of ageing'.

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This work was supported by NIA P01AG031719, with additional support provided by the Max Planck Institute of Demographic Research and the Duke University Population Research Institute.

"The Long Lives of Primates and the 'Invariant Rate of Ageing' Hypothesis," F. Colchero, J.M. Aburto, E.A. Archie, C. Boesch, T. Breuer, F.A. Campos, A. Collins, D.A. Conde, M. Cords, C. Crockford, M.E. Thompson, L.M. Fedigan, C. Fichtel, M. Groenenberg, C. Hobaiter, P.M. Kappeler, R.R. Lawler, R.J. Lewis, Z.P. Machanda, M.L. Manguette, M.N. Muller, C. Packer, R.J. Parnell, S. Perry, A.E. Pusey, M.M. Robbins, R.M. Seyfarth, J.B. Silk, J. Staerk, T.S. Stoinski, E.J. Stokes, K.B. Strier, S.C. Strum, J. Tung, F. Villavicencio, R.M. Wittig, R.W. Wrangham, K. Zuberbühler, J.W. Vaupel, S.C. Alberts. Nature Communications, DOI: 0.1038/s41467-021-23894-3.


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