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| BSc. (Biology) University of California, Santa Cruz. (1994) MSc. (Zoology) University of British Columbia, Vancouver. (1997) PhD. (Zoology) University of California, Los Angeles. (2001) | |
Assistant ProfessorDepartment of BiologyRochester Institute of Technology Rochester, NY USA email: research@cerf.bc.ca |
Vice-PresidentCoastal Ecosystems Research FoundationPO Box 122 Port Hardy, BC, Canada, V0N 2P0 email: stelle@cerf.bc.ca |
Gray whales (Eschrichtius robustus) feed on inshore mysid swarms during the summer on the southern central coast of British Columbia. This study was undertaken to determine which aspect of prey dynamics was influencing the whales' feeding decisions. Individual resident whales were observed and behaviors, diving/respiratory cycles, and movement patterns recorded. In situ observations by scuba divers and fecal samples confirmed that the whales feed on mysid swarms in kelp beds near the shore. Scuba divers collected mysids and took underwater photographs of the swarms at 11 sites on a weekly rotation to determine the population biology of these swarming crustaceans.
The mysid community consisted of nine species, but was dominated
by Holmesimysis sculpta. Mysids reproduced throughout the
summer months. The whales spent 77% of their time engaged in feeding
activities: searching for food (38%) and/or actively feeding (39%),
travelling for 15% of their time, while only 8% of their time was
spent socializing. Dives were short (mean = 2 min 22 sec), and they
respired 2.9 times per surfacing with 15 seconds between blows.
There were significant differences in respiratory parameters between
activities. Feeding whales respired fewer times, with shorter
intervals between blows, and spent less time at the surface. Short,
repeated dives were made to capture mysids from extensive planktonic
swarms. The mysids formed spatially and temporally stable swarms,
which were large and extremely dense (mean = 440,000/m3). No
relationship was found between whale feeding activity and the
abundance of mysids, instead the number of whales feeding and the
amount of time spent feeding were correlated significantly with the
mean mysid body length. Feeding was negatively related to density
because the densest swarms were formed of very small juveniles.
Gray whales thus choose patches of dense and abundant prey on the
basis of prey size. Swarms formed of very small individuals either
may not be captured effectively by the baleen or juveniles may be
energetically deficient. These observations have important
consequences for identifying critical feeding habitats and provide an
interesting complexity to optimal foraging theory.
Last Modified: 4 Nov. 2001