Whale distribution in relation to prey abundance and oceanographic processes in the shelf waters of the Western Antarctic Peninsula

The Western Antarctic Peninsula (WAP) is a biologically rich area supporting large standing stocks of krill and top predators (including whales, seals and seabirds). Physical forcing greatly affects productivity, recruitment, survival and distribution of krill in this area. In turn, such interaction...

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Bibliographic Details
Main Authors: A Friedlaendar, P Halpin, S Qian, G Lawson, P Wiebe, Deborah Thiele, A Read
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2006
Subjects:
Oceanography
Ecology
Zoology
distribution
zooplankton
ice edge
Antarctica
SO GLOBEC
CART
GAM
Science & Technology
Life Sciences & Biomedicine
Physical Sciences
Marine & Freshwater Biology
Environmental Sciences & Ecology
whale distribution
SEA-ICE EXTENT
MARGUERITE BAY
CETACEAN DISTRIBUTIONS
SEASONAL VARIABILITY
CONTINENTAL-SHELF
FORAGING BEHAVIOR
MINKE WHALES
AUSTRAL FALL
HABITAT
KRILL
Antarctic
Southern Ocean
Antarctic Peninsula
Austral
Marguerite
Marguerite Bay
Gam
Antarc*
baleen whales
Megaptera novaeangliae
Sea ice
Online Access:http://hdl.handle.net/10536/DRO/DU:30006626
https://figshare.com/articles/journal_contribution/Whale_distribution_in_relation_to_prey_abundance_and_oceanographic_processes_in_the_shelf_waters_of_the_Western_Antarctic_Peninsula/20551491
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Summary:The Western Antarctic Peninsula (WAP) is a biologically rich area supporting large standing stocks of krill and top predators (including whales, seals and seabirds). Physical forcing greatly affects productivity, recruitment, survival and distribution of krill in this area. In turn, such interactions are likely to affect the distribution of baleen whales. The Southern Ocean GLOBEC research program aims to explore the relationships and interactions between the environment, krill and predators around Marguerite Bay (WAP) in autumn 2001 and 2002. Bathymetric and environmental variables including acoustic backscattering as an indicator of prey abundance were used to model whale distribution patterns. We used an iterative approach employing (1) classification and regression tree (CART) models to identify oceanographic and ecological variables contributing to variability in humpback Megaptera novaeangliae and minke Balaenoptera acutorstrata whale distribution, and (2) generalized additive models (GAMs) to elucidate functional ecological relationships between these variables and whale distribution. The CART models indicated that the cetacean distribution was tightly coupled with zooplankton acoustic volume backscatter in the upper (25 to 100 m), and middle (100 to 300 m) portions of the water column. Whale distribution was also related to distance from the ice edge and bathymetric slope. The GAMs indicated a persistent, strong, positive relationship between increasing zooplankton volume and whale relative abundance. Furthermore, there was a lower limit for averaged acoustic volume backscatter of zooplankton below which the relationship between whales and prey was not significant. The GAMs also supported an annual relationship between whale distribution, distance from the ice edge and bathymetric slope, suggesting that these are important features for aggregating prey. Our results demonstrate that during the 2 yr study, whales were consistently and predictably associated with the distribution of zooplankton. Thus, ...

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