HYDROSTASIS IN THE SIRENIA: QUANTITATIVE DATA and FUNCTIONAL INTERPRETATIONS

It has long been assumed that the heavy bones and horizontal lungs of sirenians are adaptations for maintaining neutral buoyancy and horizontal trim. These assumptions are examined in the light of detailed measurements of skeletal weight distribution in the Florida manatee ( Trichechus manatus latirostris ), measurements of the positions of body and skeletal centers of gravity in the Amazonian manatee (T. inunguis ), and available data on lung morphology in sirenians. The detailed arrangement of bones, muscle masses, and viscera in a sirenian ( T. inunguis ) is illustrated in cross sections for the first time. The hypotheses that skeletal weight is appropriately distributed to serve as hydrostatic ballast, and that the lungs are properly designed to help maintain horizontal trim, are confirmed. We suggest that selection for maintenance of trim and maximization of turning moments of the flippers may help account, respectively, for hindlimb loss and shortening of the neck in both sirenians and cetaceans. We recommend that the term "pachyostosis" be used to refer only to thickening of bones regardless of their density; that "osteosclerosis" be used for the replacement of cancellous with compact bone; and that "pachyosteosclerosis" be used for the joint occurrence of these conditions. Pachyosteosclerosis in sirenians, which may be brought about during ontogeny by mechanisms involving thyroid and parathyroid hormones, is fully normal and adaptive in this order and in no sense "pathological."