Use of Coarse-resolution models of species' distributions to guide local conservation inferences
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Abstract
Distribution models are used increasingly for species conservation assessments over extensive
areas, but the spatial resolution of the modeled data and, consequently, of the predictions generated directly
from these models are usually too coarse for local conservation applications. Comprehensive distribution
data at finer spatial resolution, however, require a level of sampling that is impractical for most species and
regions. Models can be downscaled to predict distribution at finer resolutions, but this increases uncertainty
because the predictive ability of models is not necessarily consistent beyond their original scale. We analyzed
the performance of downscaled, previously published models of environmental favorability (a generalized
linear modeling technique) for a restricted endemic insectivore, the Iberian desman (Galemys pyrenaicus),
and a more widespread carnivore, the Eurasian otter ( Lutra lutra), in the Iberian Peninsula. The models, built
from presence–absence data at 10 × 10 km resolution, were extrapolated to a resolution 100 times finer (1 ×
1 km). We compared downscaled predictions of environmental quality for the two species with published data
on local observations and on important conservation sites proposed by experts. Predictions were significantly
related to observed presence or absence of species and to expert selection of sampling sites and important
conservation sites. Our results suggest the potential usefulness of downscaled projections of environmental
quality as a proxy for expensive and time-consuming field studies when the field studies are not feasible. This
method may be valid for other similar species if coarse-resolution distribution data are available to define
high-quality areas at a scale that is practical for the application of concrete conservation measures
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Barbosa, A.M.; Real, R.; Vargas, J.M.Use of Coarse-resolution models of species' distributions to guide local conservation inferences, Conservation Biology, 24, 5, 1378-13, 2010.