IIMYC   23581
INSTITUTO DE INVESTIGACIONES MARINAS Y COSTERAS
Unidad Ejecutora - UE
artículos
Título:
Classification and behavior of free-ranging female southern elephant seal dives based on threedimensional movements and video-recorded observations
Autor/es:
MCGOVERN, KA; DAVIS, RW; RODRÍGUEZ, DH; LEWIS, MN
Revista:
MARINE ECOLOGY PROGRESS SERIES
Editorial:
INTER-RESEARCH
Referencias:
Lugar: Oldendorf/Luhe; Año: 2019 vol. 620 p. 215 - 232
ISSN:
0171-8630
Resumen:
The goal of this study was to classify dives of free-ranging female southern elephant seals Mirounga leonina from Península Valdés, Argentina, during their 2 mo post-breeding migration. Classifications were based on 3-dimensional movements and video-recorded observationsfrom 13 797 dives obtained by attaching video and data recorders to the backs of 8 seals. We inferred behavioral functions for the dive classes based on video-recorded observations. Three dive types were identified: foraging, resting, and transit. Most (98%) prey captures occurred during foraging dives, and primary prey were pencil smelt and myctophids. Over deep water, foraging dives were deep (maximum depth 553 ± 258 m, mean ± SD), long in duration (21.5 ± 5.8 min), and meandering with bursts of speed, steep descent and ascent angles, and vertical head movements associated with prey capture. Resting dives were shallower (maximum depth 375 ± 114 m) but lasted longer (22.6 ± 6.2 min), with lower stroking rates and speeds and greater variation inpitch and roll angle during descent. Transit dives were shallower (maximum depth 307 ± 171 m),shorter (19.9 ± 6.6 min), and more linear, with higher swim speeds and stroking rates, shallowerascent angles, and farther straight-line distances traveled. Seals exhibited several strategies toreduce the energetic cost of foraging, including gliding during descent, swimming at optimal speeds for energy savings during foraging dive ascents, ascending at the most cost-effectiveangles during transit dives, and resting preferentially during daytime hours when prey are deepestand foraging dives are less efficient.