Scale of inference: On the sensitivity of habitat models for wide-ranging marine predators to the resolution of environmental data

Kylie L Scales; E L Hazen; M G Jacox; C A Edwards; A M Boustany; M J Oliver; S J Bograd

doi:10.1111/ecog.02272

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Scale of inference: On the sensitivity of habitat models for wide-ranging marine predators to the resolution of environmental data

Journal article

Open access

Peer reviewed

Scale of inference: On the sensitivity of habitat models for wide-ranging marine predators to the resolution of environmental data

Kylie L Scales, E L Hazen, M G Jacox, C A Edwards, A M Boustany, M J Oliver and S J Bograd

Ecography, Vol.40(1), pp.210-220

2017

DOI: https://doi.org/10.1111/ecog.02272

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Abstract

Understanding and predicting the responses of wide-ranging marine predators such as cetaceans, seabirds, sharks, turtles, pinnipeds and large migratory fish to dynamic oceanographic conditions requires habitat-based models that can sufficiently capture their environmental preferences. Marine ecosystems are inherently dynamic, and animal-environment interactions are known to occur over multiple, nested spatial and temporal scales. The spatial resolution and temporal averaging of environmental data layers are therefore key considerations in modelling the environmental determinants of habitat selection. The utility of environmental data contemporaneous to animal presence or movement (e.g. daily, weekly), versus synoptic products (monthly, seasonal, climatological) is currently debated, as are the trade-offs between near real-time, high resolution and composite (i.e. synoptic, cloud-free) data fields. Using movement simulations with built-in environmental preferences in combination with both modelled and remotely-sensed (ROMS, MODIS-Aqua) sea surface temperature (SST) fields, we explore the effects of spatial and temporal resolution (3-111 km, daily-climatological) in predictive habitat models. Results indicate that models fitted using seasonal or climatological data fields can introduce bias in presence-availability designs based upon animal movement datasets, particularly in highly dynamic oceanographic domains. These effects were pronounced where models were constructed using seasonal or climatological fields of coarse (> 0.25 degree) spatial resolution. However, cloud obstruction can lead to significant information loss in remotely-sensed data fields. We found that model accuracy decreased substantially above 70% data loss. In cloudy regions, weekly or monthly environmental data fields may therefore be preferable. These findings have important implications for marine resource management, particularly in identifying key habitats for populations of conservation concern, and in forecasting climate-mediated ecosystem changes. Ecography © 2016 Nordic Society Oikos.

Details

Title: Scale of inference: On the sensitivity of habitat models for wide-ranging marine predators to the resolution of environmental data
Authors: Kylie L Scales (Author) - National Oceanic and Atmospheric Administration, United States
E L Hazen (Author) - National Oceanic and Atmospheric Administration, United States
M G Jacox (Author) - Institute of Marine Sciences, United States
C A Edwards (Author) - Institute of Marine Sciences, United States
A M Boustany (Author) - Duke University, United States
M J Oliver (Author) - University of Delaware, United States
S J Bograd (Author) - National Oceanic and Atmospheric Administration, United States
Publication details: Ecography, Vol.40(1), pp.210-220
Publisher: Wiley-Blackwell Publishing Inc.
Date published: 2017
DOI: 10.1111/ecog.02272
ISSN: 0906-7590; 0906-7590
Copyright note: Copyright © 2017 The authors. This is the accepted version of the following article: Scales, K. L., Hazen, E. L., Jacox, M. G., Edwards, C. A., Boustany, A. M., Oliver, M. J. and Bograd, S. J. (2017), Scale of inference: on the sensitivity of habitat models for wide-ranging marine predators to the resolution of environmental data. Ecography, 40: 210-220. doi:10.1111/ecog.02272, which has been published in final form at http://dx.doi.org/10.1111/ecog.02272
Organisation Unit: School of Science and Engineering - Legacy; University of the Sunshine Coast, Queensland; School of Science, Technology and Engineering
Language: English
Record Identifier: 99450547802621
Output Type: Journal article
Research Statement: false

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