by David A Raichlen and Daniel E Lieberman
Abstract:
Walking - humans' most fundamental form of moderate intensity physical activity - is associated with reduced risks of morbidity and mortality. Evolutionary perspectives have contributed much to understanding the effects of walking and other physical activities on health; however, we know comparatively little about how step counts (steps taken per day) changed over the course of human evolution, potentially affecting how selection operated on physiological responses to moderate intensity physical activity that influence morbidity and mortality. Here, we compare step counts across humans and our closest living relatives, the great apes. Compiling data from epidemiology and comparative physiology, we show how step counts more than tripled during human evolution, potentially linking higher levels of moderate intensity physical activity with reduced morbidity and mortality, and we highlight how recent decreases in step counts are an evolutionary mismatch. We raise the hypothesis that the dose-response relationship between moderate intensity physical activity and health was shifted in humans to require more steps per day to promote extended healthspan and lifespan.
Reference:
The evolution of human step counts and its association with the risk of chronic disease (David A Raichlen and Daniel E Lieberman), In Curr Biol, volume 32, 2022.
Bibtex Entry:
@article{Raichlen:2022aa,
abstract = {Walking - humans' most fundamental form of moderate intensity physical activity - is associated with reduced risks of morbidity and mortality. Evolutionary perspectives have contributed much to understanding the effects of walking and other physical activities on health; however, we know comparatively little about how step counts (steps taken per day) changed over the course of human evolution, potentially affecting how selection operated on physiological responses to moderate intensity physical activity that influence morbidity and mortality. Here, we compare step counts across humans and our closest living relatives, the great apes. Compiling data from epidemiology and comparative physiology, we show how step counts more than tripled during human evolution, potentially linking higher levels of moderate intensity physical activity with reduced morbidity and mortality, and we highlight how recent decreases in step counts are an evolutionary mismatch. We raise the hypothesis that the dose-response relationship between moderate intensity physical activity and health was shifted in humans to require more steps per day to promote extended healthspan and lifespan.},
author = {Raichlen, David A and Lieberman, Daniel E},
date-added = {2023-01-17 19:59:38 +0000},
date-modified = {2023-01-17 19:59:38 +0000},
doi = {10.1016/j.cub.2022.09.030},
journal = {Curr Biol},
journal-full = {Current biology : CB},
keywords = {Exercise},
mesh = {Humans; Walking; Exercise; Chronic Disease},
month = {Nov},
number = {21},
pages = {R1206-R1214},
pmid = {36347224},
pst = {ppublish},
title = {The evolution of human step counts and its association with the risk of chronic disease},
volume = {32},
year = {2022},
bdsk-url-1 = {https://doi.org/10.1016/j.cub.2022.09.030}}