Temporal structure of diving behaviour in sympatric Antarctic and Subantarctic fur seals

Lactation is considerably briefer (4 vs. 10 mo) and daily pup energy expenditure higher in Antarctic (AFS) than in subantarctic fur seals (SFS), even in sympatric populations of both species, where their foraging locations and diets are similar. Therefore, lactational demands may be higher for AFS f...

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Bibliographic Details
Main Authors: S Luque, John Arnould, C Guinet
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2008
Subjects:
Oceanography
Ecology
Zoology
optimal foraging
foraging niche segregation
foraging behaviour
diel trends
diurnal activity
myctophidae
syntopy
archival tags
Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
FORAGING BEHAVIOR
ARCTOCEPHALUS-TROPICALIS
SPLITTING BEHAVIOR
DIVE CYCLES
BODY-SIZE
PREY
COMPETITION
PREDATOR
HABITAT
GROWTH
Antarctic
Antarc*
Online Access:http://hdl.handle.net/10536/DRO/DU:30017841
https://figshare.com/articles/journal_contribution/Temporal_structure_of_diving_behaviour_in_sympatric_Antarctic_and_Subantarctic_fur_seals/21054643
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Summary:Lactation is considerably briefer (4 vs. 10 mo) and daily pup energy expenditure higher in Antarctic (AFS) than in subantarctic fur seals (SFS), even in sympatric populations of both species, where their foraging locations and diets are similar. Therefore, lactational demands may be higher for AFS females. We investigated whether sympatric lactating AFS and SFS females differ in their physiological or behavioural diving capacities, and in the temporal structure of foraging behaviour. Mean dive depth and duration were greater in SFS, but dives below 140 m were performed only by AFS. An index of activity level during the bottom phase of dives, when fur seals are thought to capture prey, was higher in SFS. Despite these differences, SFS females showed a steady increase in the minimum postdive interval following dives lasting longer than 250 s, compared to the steady increase following dives lasting longer than only 150 s in AFS. These results suggest that physiological constraints on diving behaviour are stronger on AFS females, and that the behavioural aerobic dive limit is greater for SFS. Assuming that dive bouts reflect foraging in prey patches, AFS females exploited more patches per unit time, and remained in them for briefer periods of time, compared to SFS females. Dive bout structure did not differ between overnight and long foraging trips. Our data suggest that AFS females spend greater foraging effort, but may gain access to prey patches of better quality, which may help them cope with higher lactational demands.

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