Should I stay or should I go? Modelling year-round habitat suitability and drivers of residency for fin whales in the California Current

Aim: Understanding the spatial ecology of endangered species is crucial to predicting habitat use at scales relevant to conservation and management. Here, we aim to model the influence of biophysical conditions on habitat suitability for endangered fin whales Balaenoptera physalus, with a view to in...

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Bibliographic Details
Published in:Diversity and Distributions
Main Authors: Scales, Kylie L, Schorr, Gregory S, Hazen, Elliott L, Bograd, Steven J, Miller, Peter I, Andrews, Russel D, Zerbini, Alexandre N, Falcone, Erin A
Format: Article in Journal/Newspaper
Language:English
Published: Wiley-Blackwell Publishing Ltd. 2017
Subjects:
FoR 05 (Environmental Sciences)
FoR 06 (Biological Sciences)
cetacean
Finite-Size Lyapunov Exponent
habitat model
LIMPET tag
ocean fronts
remote sensing
satellite tracking
species distribution model
telemetry
upwelling
Pacific
Balaenoptera physalus
baleen whale
baleen whales
Fin whale
Online Access:https://doi.org/10.1111/ddi.12611
Description
Summary:Aim: Understanding the spatial ecology of endangered species is crucial to predicting habitat use at scales relevant to conservation and management. Here, we aim to model the influence of biophysical conditions on habitat suitability for endangered fin whales Balaenoptera physalus, with a view to informing management in a heavily impacted ocean region. Location: We satellite-tracked the movements of 67 fin whales through the California Current System (CCS), a dynamic eastern bound ry upwelling ecosystem in the Northeast Pacific. Methods: We use a multi-scale modelling framework to elucidate biophysical influences on habitat suitability for fin whales in the CCS. Using generalized additive mixed models, we quantify the influence of a suite of remotely sensed variables on broadscale patterns of occupancy and present the first year-round, high-resolution predictions of seasonal habitat suitability. Further, we model the influence of contemporaneous biophysical conditions on individual level residence times in high-use habitat. Results: We present evidence of year-round habitat suitability in the southern California Current System, robust to interannual variability, establishing that North Pacific fin whales do not follow the canonical baleen whale migration model. Within the high-use habitat in the Southern California Bight (SCB), individual-level residency in localized areas (n = 16 for >30 days; n = 4 for >6 months) was associated with warm, shallow, nearshore waters (>18°C, <500 m) with cool waters (14–15°C) occurring over complex seafloor topographies and with convergent (sub)mesoscale structures at the surface. Main Conclusions: Biophysical conditions in the southern CCS generate productive foraging habitats that can support the fin whale population year-round and allow for extended periods of residency in localized areas. High-use habitats for fin whales are colocated with areas of intense human use, including international shipping routes and a major naval training range. Seaso nal habitat suitability maps presented here could inform the management of anthropogenic threats to endangered baleen whales in this globally significant biodiversity hotspot.

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