Summer diving and haul-out behavior of leopard seals (Hydrurga leptonyx) near mesopredator breeding colonies at Livingston Island, Antarctic Peninsula

Leopard seals are conspicuous apex predators in Antarctic coastal ecosystems, yet their foraging ecology is poorly understood. Historically, the ecology of diving vertebrates has been studied using high‐resolution time‐depth records; however, to date such data have not been available for leopard sea...

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Published inMarine mammal science Vol. 32; no. 3; pp. 839 - 867
Main Authors Krause, Douglas J., Goebel, Michael E., Marshall, Greg J., Abernathy, Kyler
Format Journal Article
LanguageEnglish
Published Beaufort Blackwell Publishing Ltd 01.07.2016
Wiley Subscription Services, Inc
Subjects
animal-borne video
apex predator
Brackish
chemical immobilization
cluster analysis
diving
Hydrurga leptonyx
leopard seal
Marine
random forest
TDR
temporal niche partitioning
PSW, Antarctica, Antarctic Peninsula
PSW, Antarctica, South Shetland Is., Livingston I
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Summary:Leopard seals are conspicuous apex predators in Antarctic coastal ecosystems, yet their foraging ecology is poorly understood. Historically, the ecology of diving vertebrates has been studied using high‐resolution time‐depth records; however, to date such data have not been available for leopard seals. Twenty‐one time‐depth recorders were deployed on seasonally resident adult females in January and February between 2008 and 2014. The average deployment length was 13.65 ± 11.45 d and 40,308 postfilter dives were recorded on 229 foraging trips. Dive durations averaged 2.20 ± 1.23 min. Dives were shallow with 90.1% measuring 30 m or less, and a mean maximum dive depth of 16.60 ± 10.99 m. Four dive types were classified using a k‐means cluster analysis and compared with corresponding animal‐borne video data. Dive activity (number of dives/hour) was concentrated at night, including crepuscular periods. Haul‐out probabilities were highest near midday and were positively correlated with available daylight. Visual observations and comparisons of diving activity between and within years suggest individual‐based differences of foraging effort by time of day. Finally, dive and video data indicate that in addition to at‐surface hunting, benthic searching and facultative scavenging are important foraging strategies for leopard seals near coastal mesopredator breeding colonies.
Bibliography:ArticleID:MMS12309
Mary Maude and Vestal B. Hughes Pay-It-Forward Grant
ark:/67375/WNG-X6XRPBS8-F
National Geographic Society (NGS) - No. # W256-12
istex:E638234794D973490384FE60A1F5A4EBA25EDEA8
Figure S1. The optimal number of clusters in a k-means cluster analysis of leopard seal dive observations (n = 38,338). The blue points represent within groups sum of squares differences for each cluster grouping 2-10. The red points indicate corresponding values for the Calinski Index.Figure S2. A histogram of all leopard seal dives (n = 40,308) by dive duration.Figure S3. The profile of a 23.97 min leopard seal dive profile recorded near Cape Shirreff, Livingston Island.Figure S4. A histogram of all leopard seal dives (n = 40,308) by maximum depth per dive.Figure S5. Example leopard seal dive profiles randomly selected from the cluster data set (n = 38,338) to illustrate (A) "type 1" dives, (B) "type 2" dives, and (C) "type 3" dives.Figure S6. Example leopard seal dive profiles randomly selected from the cluster data set (n = 38,338) to illustrate (A) "nonforaging type 4" dives and (B) "foraging type 4" dives.Figure S7. Predictor importance for each variable (n = 8) used in the random forest algorithm; percentage values were based on the marginal decrease in prediction accuracy.
ObjectType-Article-1
SourceType-Scholarly Journals-1
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content type line 23
ISSN:0824-0469
1748-7692
DOI:10.1111/mms.12309