Evolution of systems with power-law memory: Do we have to die?

Various features of the development of individual living species are programmed. Is death also programmed and what can be the underlying mechanism providing the inevitability of death? The presented hypothesis is based on the similarity of human evolution to the evolution of discrete nonlinear systems with power-law memory. Caputo fractional logistic map is a discrete system with power-law memory and quadratic nonlinearity. In the area of parameters where the fixed point is unstable, its evolution starts as the evolution of a system with a stable fixed point but then this fixed point becomes unstable, suddenly breaks, and turns into a period two point. Under random perturbations the time spans of the evolution as a fixed point before the break (lifespans) obey the Gompertz-Makeham law, which is the observed distribution of the lifespans of living species. The reasons for modeling the evolution of humans by fractional systems are the observed power law in human memory and the viscoelastic nature of organ tissues of living species. Models with power-law memory may explain the observed decrease at very large ages of the rate of increase of the force of mortality and they imply limited lifespans.