The only satisfactory general theory for understanding the biology of
aging is that provided by evolutionary genetics. The central theoretic
al result of the evolutionary theory of aging is that aging is caused
by a fall in the force of natural selection, beginning at the time of
the onset of reproduction and continuing until the cessation of reprod
uction. This formal result has been tested using breeding experiments
in which the force of natural selection is altered in replicated labor
atory populations. As predicted by the evolutionary theory of aging, s
uch experiments can readily postpone aging. A recent advance has been
the discovery of late-life mortality plateaus in human and other popul
ations. These can be predicted theoretically from the late-life platea
u in the force of natural selection, when it remains at or near zero.
It is virtually certain that human lifespan has substantially increase
d over its last few million years of evolution. Evolutionary theory ca
n explain this increase in terms of decreased ecological vulnerability
resulting from increased brain size. The immediate future of human ev
olution is unlikely to see extensive genetic increases in lifespan, gi
ven the experimental data on rates of change in lifespan with experime
ntal populations. But, evolutionary research suggests that there are f
ew fundamental biological barriers to the extension of human lifespan,
only practical barriers. (C) 1998 Wiley-Liss, Inc.