The effect of reproductive occurrences and human descriptors on invasive pet distribution modelling: Trachemys scripta elegans in the Iberian Peninsula

Pet release is important for the introduction of invasive species but propagule pressure from this pathway is higher in areas with intense human presence. In fact, potential invaders are frequently released into areas with sub-optimal environmental conditions, and are not able to reproduce or establ...

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Bibliographic Details
Published in:Ecological modelling 2017-09, Vol.360, p.45-52
Main Authors: Banha, Filipe, Gama, Mafalda, Anastácio, Pedro Manuel
Format: Article
Language:English
Subjects:
Biological invasion
Freshwater
Habitat suitability
Pets
Propagule pressure
Red-eared slider turtle
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Summary:Pet release is important for the introduction of invasive species but propagule pressure from this pathway is higher in areas with intense human presence. In fact, potential invaders are frequently released into areas with sub-optimal environmental conditions, and are not able to reproduce or establish viable populations. SDMs are mainly focused on determining species environmental suitability and in the case of invasive species modelling these do not integrate the invasion as a process, missing the crucial human contribution. Our model aims to introduce novelty by incorporating variables representing human activities such as pet shop densities or human areas. These are directly related with the studied species invasion pathway. Here we investigate the binomial influence of reproductive occurrences and human-related variables on invasive pet distribution modelling. As our model species, we used the red-eared slider turtle, Trachemys scripta elegans (T.s.e.), an iconic invasive species with worldwide dissemination. Ten variables (predictors) were selected for T.s.e. modelling. These were four bioclimatic (BIO1=Annual Mean Temperature, BIO10=Mean Temperature of Warmest Quarter, BIO11=Mean Temperature of Coldest Quarter and BIO12=Annual Precipitation), three topographic (altitude, slope and the compound topographical index (CTI)), and three human variables (pet shop density, distance to urban areas and human density). To model suitability for T.s.e. establishment we tested four combinations of three sets of descriptor variables (human, environmental and both), with two types of occurrence records (reproductive or all records), at a global (worldwide) or regional scale (Iberian Peninsula (IP)). For each combination, an ensemble of niche-based models (NBMs) was built using nine different types of models implemented in BIOMOD2. In worldwide modelling, the use of reproductive occurrence records enables the most accurate predictions. At a regional scale, the combination of environmental and human variables promotes higher accuracy than using human variables alone. For worldwide and regional modelling, the most important variables are associated with temperature (Mean Temperature of Coldest Quarter; Annual Mean Temperature; Mean Temperature of Warmest Quarter). For regional modelling the human variable with highest importance was human density. Our approach may be useful for the management of released pet invaders, namely identifying high invasion risk areas where
ISSN:0304-3800
1872-7026
DOI:10.1016/j.ecolmodel.2017.06.026