Cetacean Energetics, an Overview of Intraspecific Size Variation

• Published in: Ecology (Durham) Vol. 56; no. 1; pp. 152 - 161
• Format: Journal Article
• Language: English
• Published: Ecological Society of America 1975
• Subjects: Antarctic region
• ISSN: 0012-9658; 1939-9170
• DOI: 10.2307/1935307

Standard metabolism is estimated for the fin whale, Balaenoptera physalus, from the energy yield of lipid stores consumed while in regions of limited prey availability. The metabolic rate appears better described by a surface rather than a volumetric rule. The larger body size of some Antarctic Balaenoptera compared with those of the Northern Hemisphere is attributed to selection for body proportions that reduce the specific metabolic rate and establish an optimal surface area for deposition of a lipid cache. Such proportions allow short—term forays into areas where prey is extremely dense but of restricted seasonal availability, and permit extended use of lipid stores during exclusion to warmer but less productive waters. Thus, adult body size within species is inversely correlated with the length of the feeding season and directly correlated with prey availability during that period. As differences in diversity of prey and/or their year—round availability become less marked between hemispheres, so do the body—size differences of the lesser rorquals. This is also applied to odontocetes. Thermal homeostasis is considered to be equally dependent upon morphology and behavior. Minimal densities of prey necessary for the maintenance of rorquals could be estimated from certain known parameters.