Abstract
Senescence is a highly variable process that comprises both age‐dependent and state‐dependent components and can be greatly affected by environmental conditions. However, few studies have quantified the magnitude of age‐dependent and state‐dependent senescence in key life‐history traits across individuals inhabiting different spatially structured and seasonal environments. We used longitudinal data from wild female yellow‐bellied marmots (Marmota flaviventer), living in two adjacent environments that differ in elevation and associated phenology, to quantify how age and individual state, measured as “time to death,” affect body mass senescence in different environments. Further, we quantified how patterns of senescence differed between two biologically distinct seasons, spring, and late summer. Body mass senescence had an age‐dependent component, expressed as a decrease in mass in old age. Overall, estimated age‐dependent senescence was greater in females living in the more favorable lower elevation environment, than in the harsher higher elevation environment, and greater in late summer than in spring. Body mass senescence also had a state‐dependent component, captured by effects of time to death, but only in the more favorable lower elevation environment. In spring, body mass gradually decreased from 2 years before death, whereas in late summer, state‐dependent effects were expressed as a terminal decrease in body mass in the last year of life. Contrary to expectations, we found that senescence was more likely to be observed under more favorable environmental conditions, rather than under harsher conditions. By further demonstrating that senescence patterns differ among seasons, our results imply that within‐year temporal environmental variation must be considered alongside spatial environmental variation in order to characterize and understand the pattern and magnitude of senescence in wild populations.
Highlights
Senescence, defined as the gradual decrease in fitness traits with increasing age, results from deteriorating cellular and physiological function and the buildup of somatic damage (Kirkwood & Rose, 1991)
We show that effects of age and time to death on body mass co-occur, and that their expression differs among seasons and exhibits strong environment dependence
Opposite to expectation, age-dependent senescence and state-dependent senescence were more likely to be observed at lower elevation than higher elevation, and under more favorable rather than harsher conditions
Summary
Senescence, defined as the gradual decrease in fitness traits with increasing age, results from deteriorating cellular and physiological function and the buildup of somatic damage (Kirkwood & Rose, 1991). We used long-term individual-based data from a population of yellow-bellied marmots (Marmota flaviventer) around the Rocky Mountain Biological Laboratory, Colorado, to quantify female age- dependent and state-dependent body mass senescence, and to test how different environmental conditions and seasonal timing affect senescence patterns. Marmots in this population hibernate for about 7 months per year and exhibit up to forty percent differences between spring (postemergence) and late summer (prehibernation) body masses (Armitage, 2014). We predicted terminal effects to be absent in spring, as individuals with substantial mass loss in the last year of life are unlikely to survive hibernation
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