In addition we contrasted previously published results for gray s

In addition we contrasted previously published results for gray seals (Halichoerus grypus). Isotope values differed significantly by age class and location in harp and hooded seals. We found significant differences in SI values (mean δ13C and δ15N ± SE) between all species. Hooded seals, a continental shelf-edge, deep-diving species, exhibited low SI values (juveniles: −20.9‰ ± 0.03‰, 13.36‰ ± 0.05‰; adults: −20.41‰ ± 0.03‰, 14.81‰ ± 0.04‰) characteristic of feeding on meso- to CH5424802 ic50 bathypelagic prey.

Harp seals, which dive to moderate depths primarily on the shelf had intermediate SI values (juveniles: −20.53‰ ± 0.01‰, 13.91‰ ± 0.01‰; adults: −20.13‰ ± 0.01‰, 14.96‰ ± 0.01‰) characteristic of feeding on epipelagic NVP-LDE225 concentration prey, whereas gray seals, which feed on or near the sea floor in shallow shelf waters, had high SI values (juveniles: −19.74‰ ± 0.04‰, 17.51‰ ± 0.05‰; adults:

−18.86‰ ± 0.01‰, 17.23‰ ± 0.02‰) characteristic of feeding on demersal prey. In all species, δ13C values increased with body size and age in the same manner, indicating that seals exploit or forage in deeper habitats as they get larger and older. We hypothesize that the consistent ontogenetic shift in foraging niche, despite large differences between species in their diving behavior, geographic range and habitat use, not only reflects increased access to different prey due to increased diving capacity, but a progressive adjustment to balance energy budgets by reducing foraging costs. “
“There has been extensive recent interest in the concepts of behavioral types, behavioral syndromes, and personalities in nonhuman animal species. Evidence for behavioral types now exists from a wide range of taxa, from mollusks to mammals. However, marine mammals are poorly represented in this literature. Here, 上海皓元 we describe an in-field experimental test of behavioral types in breeding gray seals, using a remotely

controlled vehicle to deliver a standardized test stimulus to target individuals. We report on the design and implementation of this test and on the behavioral responses of individuals. Analysis of behavioral responses from both males and females revealed consistent individual differences across tests, suggesting that this is a practical and viable technique for determining individual variation in behavioral type in the field. Despite extensive literature on behavioral types, studies of behavioral types in wild populations remain rare. It is, therefore, important to develop ways to identify and quantify the existence of behavioral types in natural populations, because only by doing this, can we hope to ascertain the ecological and evolutionary relevance of behavioral types.

Comments are closed.