Flipper stroke rate and venous oxygen levels in free-ranging California sea lions [RESEARCH ARTICLE]

Michael S. Tift, Luis A. Hückstädt, Birgitte I. McDonald, Philip H. Thorson, and Paul J. Ponganis The depletion rate of the blood oxygen store, development of hypoxemia, and dive capacity are dependent on the distribution and rate of blood oxygen delivery to tissues while diving. Although blood oxygen extraction by working muscle would increase the blood oxygen depletion rate in a swimming animal, there is little information on the relationship between muscle workload and blood oxygen depletion during dives. Therefore, we examined flipper stroke rate, a proxy of muscle workload, and posterior vena cava oxygen profiles in four adult female California sea lions (Zalophus californianus) during foraging trips at sea. Flipper stroke rate analysis revealed that sea lions minimized muscle metabolism with a stroke-glide strategy when diving, and exhibited prolonged glides during the descent of deeper dives (> 100 m). During the descent phase of these deep dives, 55±21% of descent was spent gliding with the longest glides lasting over 160 s and covering a vertical distance of 340 m. Animals also consistently glided to the surface from 15-25 m depth during these deeper dives. Venous hemoglobin saturation (SvO2) profiles were highly variable throughout dives, with values occasionally increasing during shallow dives. The relationship between SvO2 and flipper stroke rate was weak during deeper dives, while this relationship was stronger during shallow dives. We c...
Source: Journal of Experimental Biology - Category: Biology Authors: Tags: RESEARCH ARTICLE Source Type: research
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