Lee A. Fuiman scite author profile

Locomotor activity by diving marine mammals is accomplished while breath-holding and often exceeds predicted aerobic capacities. Video sequences of freely diving seals and whales wearing submersible cameras reveal a behavioral strategy that improves energetic efficiency in these animals. Prolonged gliding (greater than 78% descent duration) occurred during dives exceeding 80 meters in depth. Gliding was attributed to buoyancy changes with lung compression at depth. By modifying locomotor patterns to take advantage of these physical changes, Weddell seals realized a 9.2 to 59.6% reduction in diving energetic costs. This energy-conserving strategy allows marine mammals to increase aerobic dive duration and achieve remarkable depths despite limited oxygen availability when submerged.

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The cost of foraging by a marine predator, the Weddell sealLeptonychotes weddellii: pricing by the stroke

Williams

Fuiman²,

Horning

et al. 2004

225

250

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Foraging by mammals is a complex suite of behaviors that can entail high energetic costs associated with supporting basal metabolism, locomotion and the digestion of prey. To determine the contribution of these various costs in a free-ranging marine mammal, we measured the post-dive oxygen consumption of adult Weddell seals (N=9) performing foraging and nonforaging dives from an isolated ice hole in McMurdo Sound, Antarctica. Dives were classified according to behavior as monitored by an attached video-data logging system (recording activity, time, depth, velocity and stroking). We found that recovery oxygen consumption showed a biphasic relationship with dive duration that corresponded to the onset of plasma lactate accumulation at approximately 23·min. Locomotor costs for diving Weddell seals increased linearly with the number of strokes taken according to the relationship: locomotor cost = -3.78+0.04 × stroke number (r 2 =0.74, N=90 dives), where locomotor cost is in ml·O2·kg -1 . Foraging dives in which seals ingested Pleuragramma antarcticum resulted in a 44.7% increase in recovery oxygen consumption compared to non-foraging dives, which we attributed to the digestion and warming of prey. The results show that the energy expended in digestion for a free-ranging marine mammal are additive to locomotor and basal costs. By accounting for each of these costs and monitoring stroking mechanics, it is possible to estimate the aerobic cost of diving in free-ranging seals where cryptic behavior and remote locations prevent direct energetic measurements.

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Hunting Behavior of a Marine Mammal Beneath the Antarctic Fast Ice

Davis

Fuiman

Williams

et al. 1999

Science

279

249

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The hunting behavior of a marine mammal was studied beneath the Antarctic fast ice with an animal-borne video system and data recorder. Weddell seals stalked large Antarctic cod and the smaller subice fish Pagothenia borchgrevinki, often with the under-ice surface for backlighting, which implies that vision is important for hunting. They approached to within centimeters of cod without startling the fish. Seals flushed P. borchgrevinki by blowing air into subice crevices or pursued them into the platelet ice. These observations highlight the broad range of insights that are possible with simultaneous recordings of video, audio, three-dimensional dive paths, and locomotor effort.

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Development of predator defences in fishes

Fuiman

Magurran

1994

Rev Fish Biol Fisheries

312

223

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Growth gradients in fish larvae*

Fuiman

1983

Journal of Fish Biology

187

180

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Relative growth intensity of various longitudinally measured body segments in larvae of several species of fishes was distributed across the body in a continuous, U-shaped gradient. Juveniles lacked a simple pattern ofgrowth but appeared to grow nearly isometrically. Body depth exhibited a shallow, U-shaped gradient while body width lacked a discernible pattern.Most intense growth, in three orthogonal planes, occurred posteriorly, probably promoting effective swimming early in life.

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Lee A. Fuiman

Sink or Swim: Strategies for Cost-Efficient Diving by Marine Mammals

The cost of foraging by a marine predator, the Weddell sealLeptonychotes weddellii: pricing by the stroke

Hunting Behavior of a Marine Mammal Beneath the Antarctic Fast Ice

Development of predator defences in fishes

Growth gradients in fish larvae*

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