Abstract
Species distribution models often use climate data to assess contemporary and/or future ranges for animal or plant species. Land use and land cover (LULC) data are important predictor variables for determining species range, yet are rarely used when modeling future distributions. In this study, maximum entropy modeling was used to construct species distribution maps for 50 North American bird species to determine relative contributions of climate and LULC for contemporary (2001) and future (2075) time periods. Species presence data were used as a dependent variable, while climate, LULC, and topographic data were used as predictor variables. Results varied by species, but in general, measures of model fit for 2001 indicated significantly poorer fit when either climate or LULC data were excluded from model simulations. Climate covariates provided a higher contribution to 2001 model results than did LULC variables, although both categories of variables strongly contributed. The area deemed to be “suitable” for 2001 species presence was strongly affected by the choice of model covariates, with significantly larger ranges predicted when LULC was excluded as a covariate. Changes in species ranges for 2075 indicate much larger overall range changes due to projected climate change than due to projected LULC change. However, the choice of study area impacted results for both current and projected model applications, with truncation of actual species ranges resulting in lower model fit scores and increased difficulty in interpreting covariate impacts on species range. Results indicate species-specific response to climate and LULC variables; however, both climate and LULC variables clearly are important for modeling both contemporary and potential future species ranges.
Highlights
Species distribution models (SDMs) are based on the assumption that presence at a given location is based on suitable environmental conditions to support the species’ ability to find shelter, feed, and/or reproduce [1,2]
The three 2001 model simulations were assessed for model fit through a comparison of Area Under the Curve (AUC) of the Receiver Operating Characteristic (ROC)
This work represents the first assessment of the effects of climate and Land use and land cover (LULC) for bird species in the conterminous United States using both 1) newly available LULC projections of high-spatial and thematic resolution and 2) climate and LULC projections that are both consistent with Intergovernmental Panel on Climate Change (IPCC) Special Report on Emissions Scenarios (SRES) scenario frameworks
Summary
Species distribution models (SDMs) are based on the assumption that presence at a given location is based on suitable environmental conditions to support the species’ ability to find shelter, feed, and/or reproduce [1,2]. Such models have been widely used to model current species distributions, either to establish extant distributions or to understand the specific environmental variables that drive species distributions [3,4,5]. Bucklin et al [13] found that climate variables were strong predictors for contemporary species distribution modeling and that additional predictors (including land cover) were not essential
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