Model selection and assessment for multi-species occupancy models

While multi-species occupancy models (MSOMs) are emerging as a popular method for analyzing biodiversity data, formal checking and validation approaches for this class of models have lagged behind. Concurrent with the rise in application of MSOMs among ecologists, a quiet regime shift is occurring i...

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Bibliographic Details
Published in:Ecology (Durham) 2016-07, Vol.97 (7), p.1759-1770
Main Authors: Broms, Kristin M., Hooten, Mevin B., Fitzpatrick, Ryan M.
Format: Article
Language:English
Subjects:
Bayesian analysis
Bayesian hierarchical models
Biodiversity
cross‐validation
Data analysis
Ecologists
Mathematical models
plains fish
South Platte River Basin
species distribution maps
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Summary:While multi-species occupancy models (MSOMs) are emerging as a popular method for analyzing biodiversity data, formal checking and validation approaches for this class of models have lagged behind. Concurrent with the rise in application of MSOMs among ecologists, a quiet regime shift is occurring in Bayesian statistics where predictive model comparison approaches are experiencing a resurgence. Unlike single-species occupancy models that use integrated likelihoods, MSOMs are usually couched in a Bayesian framework and contain multiple levels. Standard model checking and selection methods are often unreliable in this setting and there is only limited guidance in the ecological literature for this class of models. We examined several different contemporary Bayesian hierarchical approaches for checking and validating MSOMs and applied these methods to a freshwater aquatic study system in Colorado, USA, to better understand the diversity and distributions of plains fishes. Our findings indicated distinct differences among model selection approaches, with cross-validation techniques performing the best in terms of prediction.
ISSN:0012-9658
1939-9170
DOI:10.1890/15-1471.1