Harbor Seals as Sentinels of Ice Dynamics in Tidewater Glacier Fjords

Tidewater glaciers calve icebergs into the marine environment which serve as pupping, molting, and resting habitat for some of the largest seasonal aggregations of harbor seals (Phoca vitulina richardii) in the world. Although they are naturally dynamic, advancing and retreating in response to local...

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Bibliographic Details
Published in:Frontiers in Marine Science
Main Authors: Jamie N. Womble, Perry J. Williams, Robert W. McNabb, Anupma Prakash, Rudiger Gens, Benjamin S. Sedinger, Cheyenne R. Acevedo
Format: Article in Journal/Newspaper
Language:English
Published: Frontiers Media S.A. 2021
Subjects:
fjord
habitat
harbor seal
ice
Phoca vitulina richardii
tidewater glacier
Science
Q
General. Including nature conservation
geographical distribution
QH1-199.5
Glacier Bay
Hopkins Inlet
glacier
glaciers
Phoca vitulina
Tidewater
Alaska
Online Access:https://doi.org/10.3389/fmars.2021.634541
https://doaj.org/article/645ec5d1b8f342af99559a39711005fc
Description
Summary:Tidewater glaciers calve icebergs into the marine environment which serve as pupping, molting, and resting habitat for some of the largest seasonal aggregations of harbor seals (Phoca vitulina richardii) in the world. Although they are naturally dynamic, advancing and retreating in response to local climatic and fjord conditions, most tidewater glaciers around the world are thinning and retreating. Climate change models predict continued loss of land-based ice with unknown impacts to organisms such as harbor seals that rely on glacier ice as habitat for critical life history events. To understand the impacts of changing ice availability on harbor seals, we quantified seasonal and annual changes in ice habitat in Johns Hopkins Inlet, a tidewater glacier fjord in Glacier Bay National Park in southeastern Alaska. We conducted systematic aerial photographic surveys (n = 55) of seals and ice during the pupping (June; n = 30) and molting (August; n = 25) periods from 2007 to 2014. Object-based image analysis was used to quantify the availability and spatial distribution of floating ice in the fjord. Multivariate spatial models were developed for jointly modeling stage-structured seal location data and ice habitat. Across all years, there was consistently more ice in the fjord during the pupping season in June than during the molting season in August, which was likely driven by seasonal variation in physical processes that influence the calving dynamics of tidewater glaciers. Non-pup harbor seals and ice were correlated during the pupping season, but this correlation was reduced during the molting season suggesting that harbor seals may respond to changes in habitat differently depending upon trade-offs associated with life history events, such as pupping and molting, and energetic costs and constraints associated with the events.

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