Present and future ecological niche modeling of garter snake species from the Trans-Mexican Volcanic Belt.

Andrea González-Fernández,Javier Manjarrez,Maristella D'Addario,Armando Sunny,Uri García-Vázquez

doi:10.7717/peerj.4618

Andrea González-Fernández, Javier Manjarrez + Show 3 more

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https://doi.org/10.7717/peerj.4618

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Abstract

Land use and climate change are affecting the abundance and distribution of species. The Trans-Mexican Volcanic Belt (TMVB) is a very diverse region due to geological history, geographic position, and climate. It is also one of the most disturbed regions in Mexico. Reptiles are particularly sensitive to environmental changes due to their low dispersal capacity and thermal ecology. In this study, we define the important environmental variables (considering climate, topography, and land use) and potential distribution (present and future) of the five Thamnophis species present in TMVB. To do so, we used the maximum entropy modeling software (MAXENT). First, we modeled to select the most important variables to explain the distribution of each species, then we modeled again using only the most important variables and projected these models to the future considering a middle-moderate climate change scenario (rcp45), and land use and vegetation variables for the year 2050 (generated according to land use changes that occurred between years 2002 and 2011). Arid vegetation had an important negative effect on habitat suitability for all species, and minimum temperature of the coldest month was important for four of the five species. Thamnophis cyrtopsis was the species with the lowest tolerance to minimum temperatures. The maximum temperature of the warmest month was important for T. scalaris and T. cyrtopsis. Low percentages of agriculture were positive for T. eques and T. melanogaster but, at higher values, agriculture had a negative effect on habitat suitability for both species. Elevation was the most important variable to explain T. eques and T. melanogaster potential distribution while distance to Abies forests was the most important variable for T. scalaris and T. scaliger. All species had a high proportion of their potential distribution in the TMVB. However, according to our models, all Thamnophis species will experience reductions in their potential distribution in this region. T. scalaris will suffer the biggest reduction because this species is limited by high temperatures and will not be able to shift its distribution upward, as it is already present in the highest elevations of the TMVB.

Highlights

Land use and climate change are affecting the abundance and distribution of species, altering biological communities, ecosystems, and their associated services to humans (Parmesan & Yohe, 2003; Cardinale et al, 2012; Kortsch et al, 2015; Nadeau, Urban & Bridle, 2017)
We modeled the potential distribution of the five Thamnophis species that occur in the Trans-Mexican Volcanic Belt (TMVB) (T. cyrtopsis, T. eques, T. melanogaster, T. scalaris, and T. scaliger)
Low agriculture percentages were positive for T. eques and T. melanogaster but, at higher values, agriculture had a negative effect on habitat suitability for both species

Summary

Introduction

Land use and climate change are affecting the abundance and distribution of species, altering biological communities, ecosystems, and their associated services to humans (Parmesan & Yohe, 2003; Cardinale et al, 2012; Kortsch et al, 2015; Nadeau, Urban & Bridle, 2017) Both factors are the main contributors to the global decline of reptiles (Ribeiro et al, 2009; Schneider-Maunoury et al, 2016; Sunny, González-Fernández & D’Addario, 2017). Through species occurrence data and environmental information, we can generate environmental niche models that can be used to predict the location of particular areas where environmental conditions are favorable for the presence of the species of study (Suárez-Atilano, 2015)

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