Abstract
Several species of aquatic mammals, while resting at the water surface, breathe with a low frequency (f). We asked if this was a general characteristic of mammals adapted to life in water. Measurements of f were obtained in 42 aquatic mammals of 19 species, during resting conditions. Data of additional 10 species were available from the literature. The allometric function for aquatic mammals was f=33W(-0.42) (f, breaths/min; W, kg; N=29, one data point per species, from six mammalian orders). This exponent was significantly different from that of the allometric curve of terrestrial mammals (W(-0.25)). The difference between aquatic and terrestrial species was small up to about 10kg, and widened with the increase in W. Out of several possibilities, it seems that the breath-holding response to favour buoyancy at the water surface could have contributed to the evolution of the low-f breathing, but a satisfactory explanation for the allometric pattern of f is still unavailable. In semi-aquatic mammals the low-f pattern observed at the water surface was maintained ashore, with no difference in the allometric function. As in the adult, also in the newborn of aquatic species f was low, compared to same-size neonates of terrestrial species. Hence, the low f has evolved to be part of the genetic makeup of aquatic mammals, retained when the animal is ashore, and already expressed at birth.
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