Resting breathing frequency in aquatic birds: a comparative analysis with terrestrial species

Abstract

AbstractSeveral studies have indicated that in birds breathing frequency (f, breaths min−1) scales to the −1/3 of body weight (W, kg); this is different from the −1/4 of mammals. We wondered if this discrepancy was due to the peculiar scaling pattern of aquatic birds, as is the case of aquatic mammals. In fact, we had noted previously that the allometric scaling of f differs considerably between aquatic and terrestrial mammals, respectively, W−0.42 and W−0.25. Measurements of f were obtained in 48 aquatic birds of 22 species and in 35 terrestrial birds of 27 species, during resting conditions on land. Additional data from 11 aquatic and 14 terrestrial species, different from the ones measured, were obtained from the literature. The allometric curve of all species combined (terrestrial and aquatic, n=74) was f=13.3W−0.36, similar to what is reported in previous studies. However, the allometric curve of the aquatic species (n=33, f=14.5W−0.56) differed greatly (P<0.001) from that of the terrestrial species (n=41, f=13.4W−0.26). On average, f of aquatic birds of the 3–5 kg range was 63%, and that of birds of larger size was 57%, of the values of terrestrial birds of similar W. We conclude that, as in mammals, also in terrestrial birds f scales to the −1/4 exponent of W. The similarity of the scaling patterns of f between aquatic birds and mammals suggests a common breathing adaptation to life in the aquatic environment irrespective of phylogenetic relations.