SC/57/E7 Use of chemical profiles in assessing the feeding ecology of eastern North Pacific killer whales

Blubber biopsy samples from adult male North Pacific killer whales (Orcinus orca), were analyzed for fatty acids, carbon and nitrogen stable isotopes and organochlorine contaminants. Fatty acid profiles were sufficiently distinct among the three reported ecotypes (“resident, ” “transient ” or “offsh...

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Bibliographic Details
Main Authors: Margaret M. Krahn, David P. Herman, Douglas G. Burrows, Paul R. Wade, John W. Durban, Marilyn E. Dahlheim, Richard G. Leduc, Lance Barrett-lennard, Craig O. Matkin
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
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Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.183.6142
http://www.fakr.noaa.gov/sustainablefisheries/sslmc/april-06/SC-57-E7.pdf
Description
Summary:Blubber biopsy samples from adult male North Pacific killer whales (Orcinus orca), were analyzed for fatty acids, carbon and nitrogen stable isotopes and organochlorine contaminants. Fatty acid profiles were sufficiently distinct among the three reported ecotypes (“resident, ” “transient ” or “offshore”) to correctly classify the whales in this study by ecotype using a previously developed discriminant function model. In addition, a new discriminant function model was developed using data from whales from both the new and the previous studies. PCB profiles in blubber also allowed unambiguous classification of all three killer whale ecotypes (also using both the old and new models). OC concentrations and ratios were used to provide additional insight on the dietary preferences of killer whales biopsied in Alaska, particularly for the offshores about which little dietary information is available. Surprisingly, mean ∑DDT concentrations in the offshores exceeded those of the Alaska transients and were 20 times higher than those of the residents. In addition, mean ∑PCB concentrations of offshores were very similar to those of the transients and were 10 times higher than those of the residents. If the offshores are fish-eaters, concentrations of ∑PCBs and ∑DDTs should be more similar to those in the fish-eating residents, rather than to those of the marine mammal-eating transients—however, the reverse was true. Thus, it appears that offshores feed at a high trophic level or consume species containing high levels of ∑PCB and ∑DDT, perhaps shark or tuna species. Ratios of certain contaminants have been used to define regions from which prey may originate. Offshore contaminant ratios (e.g., ∑DDTs/∑PCBs and p,p’-DDT/∑DDTs) generally fell between those of the West Coast transients and those of the Alaska