Abstract In populations of many animal species, including humans, mortality rates increase exponentially with advancing age. The scale and rate of increase can be set by two parameters, α and β , respectively, of the Gompertz equation. Interventions that extend lifespan can reduce either or both parameters. A long-standing supposition is that β corresponds to biological ageing rate, and α to ageing-independent causes of mortality. Here, we investigate the biological basis of α and β using the nematode Caenorhabditis elegans , through the combined study in populations and individuals of effects of life-extending interventions on mortality and age-changes in health. We demonstrate that reductions in β arise not from slowed biological ageing, but rather from expansion of decrepitude (gerospan) in longer-lived population members. In contrast, reductions in α better reflect healthspan expansion, an indicator of slowed biological ageing. Thus, our investigation presents a new, empirical understanding of the Gompertz parameters that inverts their traditional interpretations.
Zhang et al. (Mon,) studied this question.