Abstract
Blue whales are sighted every year around the Azores islands, which apparently provide an important seasonal foraging area. In this paper we aim to characterize habitat preferences and analyze the temporal distribution of blue whales around São Miguel Island. To do so, we applied Generalized Additive Models to an opportunistic cetacean occurrence dataset and remotely sensed environmental data on bathymetry, sea surface temperature, chlorophyll concentration and altimetry. We provide a brief description of the oceanography of the area, emphasizing its high spatio-temporal variability. In order to capture this dynamism, we used environmental data with two different spatial resolutions (low and high) and three different temporal resolutions (daily, weekly and monthly), thus accounting for both long-term oceanographic events such as the spring bloom, and shorter-term features such as eddies or fronts. Our results show that blue whales have a well-defined ecological niche around the Azores. They usually cross the archipelago from March to June and habitat suitability is highest in dynamic areas (with high Eddy Kinetic Energy) characterized by convergence or aggregation zones where productivity is enhanced. Multi-scale studies are useful to understand the ecological niche and habitat requirements of highly mobile species that can easily react to short-term changes in the environment.
Highlights
MethodsThe Azores archipelago is formed by nine volcanic islands located at 24–32 ̊W and 36–41 ̊N
In this study we modelled blue whale habitat use in the Azores at different temporal and spatial resolutions in order to provide a deeper understanding of blue whale habitat ecology, getting the most from the different resolutions of the environmental data available
Our results suggest that multiscale studies are very useful in species distribution modelling for highly mobile species which exploit dynamic habitats
Summary
The Azores archipelago is formed by nine volcanic islands located at 24–32 ̊W and 36–41 ̊N. The Azores Front/Current System (AF/ AC), characterized by strong salinity and temperature cross-gradients, passes south of the archipelago (between 32 and 37 ̊N) forming the northern boundary of the North Atlantic subtropical gyre [52]. Both NAC and AF/AC are major sources of mesoscale oceanographic features [53] which favour the aggregation of marine life [5,8,54,55]
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