Abstract

BackgroundSenescence has been widely detected among mammals, but its importance to fitness in wild populations remains controversial. According to evolutionary theories, senescence occurs at an age when selection is relatively weak, which in mammals can be predicted by adult survival rates. However, a recent analysis of senescence rates found more age-dependent mortalities in natural populations of longer lived mammal species. This has important implications to ageing research and for understanding the ecological relevance of senescence, yet so far these have not been widely appreciated. We re-address this question by comparing the mean and maximum life span of 125 mammal species. Specifically, we test the hypothesis that senescence occurs at a younger age relative to the mean natural life span in longer lived species.Methodology/Principal FindingsWe show, using phylogenetically-informed generalised least squares models, a significant log-log relationship between mean life span, as calculated from estimates of adult survival for natural populations, and maximum recorded life span among mammals (R2 = 0.57, p<0.0001). This provides further support for a key prediction of evolutionary theories of ageing. The slope of this relationship (0.353±0.052 s.e.m.), however, indicated that mammals with higher survival rates have a mean life span representing a greater fraction of their potential maximum life span: the ratio of maximum to mean life span decreased significantly from >10 in short-lived to ∼1.5 in long-lived mammal species.Conclusions/SignificanceWe interpret the ratio of maximum to mean life span to be an index of the likelihood an individual will experience senescence, which largely determines maximum life span. Our results suggest that senescence occurs at an earlier age relative to the mean life span, and therefore is experienced by more individuals and remains under selection pressure, in long- compared to short-lived mammals. A minimum rate of somatic degradation may ultimately limit the natural life span of mammals. Our results also indicate that senescence and modulating factors like oxidative stress are increasingly important to the fitness of longer lived mammals (and vice versa).

Highlights

  • Small rodents in captivity routinely reach ten times their mean life span in the wild

  • We show that mammals with higher survival probabilities have a mean life span in natural populations representing a greater fraction of their potential maximum life span

  • Our analysis suggests that senescence occurs at a much younger age, relative to the mean natural life span, in longer lived mammal species

Read more

Summary

Introduction

Small rodents in captivity routinely reach ten times their mean life span in the wild. It would suggest that, even if senescence is detectable given a large enough sample-size [3,4,5], its relevance to fitness in natural populations may vary systematically among species according to their life span We address this question using a phylogenetically-informed comparative analysis of the relationship between maximum recorded life span and mean natural life span among mammal species. A recent analysis of senescence rates found more agedependent mortalities in natural populations of longer lived mammal species This has important implications to ageing research and for understanding the ecological relevance of senescence, yet so far these have not been widely appreciated. We test the hypothesis that senescence occurs at a younger age relative to the mean natural life span in longer lived species

Methods
Results
Conclusion

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.