Racing Time: Physiological Rates and Metabolic Scaling in Marine Mammals.

ABSTRACT

Reinvasion of the oceans beginning 10-60 million years ago by ancient mammals instigated one of the most remarkable metabolic transitions across evolutionary time. A consequence of marine living, especially in colder waters, has been a 1.4 to 2.9-fold increase in resting metabolic rate (RMR) for otters, pinnipeds and cetaceans over predicted levels for terrestrial mammals of similar body mass. Notably, the greatest metabolic elevation occurred in the smallest marine mammals, suggesting an underlying thermal causative mechanism. Superimposed on these resting costs are the metabolic demands of locomotion. Collectively termed the field metabolic rate, such active costs consistently approach three times the resting rates of individuals regardless of locomotor style, species, foraging patterns, habitat or geographic location. In wild non-reproducing mammals, the FMR/RMR ratio averages 2.6-2.8 for both terrestrial and marine species, with the latter group maintaining larger absolute daily metabolic rates supported by comparatively higher food ingestion rates. Interestingly, the limit for habitual (multi-day), sustained maximal energy expenditure in human endurance athletes averages < 3.0 times resting metabolic levels, with a notable exception in Tour de France cyclists. Importantly, both athletes and wild mammals seem similarly constrained; that is, by the ability to process enough calories in a day to support exceptional metabolic performance.