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Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta

BACKGROUND: How species colonize new environments is still a fundamental question in ecology and evolution, assessable by evaluating range characteristics of invasive species. Here we propose a model approach to evaluate environmental conditions and species features to predict niche changes in non-e...

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Autores principales: Espindola, Sayra, Parra, Juan L., Vázquez-Domínguez, Ella
Formato: Online Artículo Texto
Lenguaje:English
Publicado: PeerJ Inc. 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6800977/
https://www.ncbi.nlm.nih.gov/pubmed/31637143
http://dx.doi.org/10.7717/peerj.7923
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author Espindola, Sayra
Parra, Juan L.
Vázquez-Domínguez, Ella
author_facet Espindola, Sayra
Parra, Juan L.
Vázquez-Domínguez, Ella
author_sort Espindola, Sayra
collection PubMed
description BACKGROUND: How species colonize new environments is still a fundamental question in ecology and evolution, assessable by evaluating range characteristics of invasive species. Here we propose a model approach to evaluate environmental conditions and species features to predict niche changes in non-equilibrium contexts. It incorporates potentially range-limiting processes (fundamental niche), hence allowing for better predictions of range shifts, differentiation of analog and non-analog conditions between the native and non-native (invaded) ranges, and identification of environmental conditions not currently available but likely in the future. We apply our approach with the worldwide invasive slider-turtle Trachemys scripta. METHODS: We estimated the native and non-native realized niches of T. scripta and built its fundamental niche based on key features of the turtle’s temperature physiological tolerance limits and survival-associated factors. We next estimated response functions adjusted to the physiological predictor variables and estimated habitat suitability values, followed by a comprehensive set of analyses and simulations to compare the environmental conditions occupied by T. scripta (at its native and non-native ranges). RESULTS: Climatic space analysis showed that the T. scripta’s non-native realized niche is 28.6% greater than the native one. Response curves showed that it does not use its entire range of temperature tolerances (density curves for native: 5.3–23.7 °C and non-native: 1.7–28.4 °C ranges). Whether considering the mean temperature of the warmest or the coldest quarter, it occupies a wider range of temperatures along its non-native distribution. Results of the response curves for worldwide (global) and across Mexico (regional) comparisons showed it occupies analog and non-analog conditions between its native and invaded ranges, exhibiting also unoccupied suitable climatic conditions. DISCUSSION: We demonstrate that T. scripta occupies a wider subset of its fundamental niche along its non-native range (within its physiological tolerances), revealing that the species observed niche shift corresponds to a different subset of its fundamental niche (niche unfilling). We also identified suitable environmental conditions, globally and regionally, where the slider turtle could potentially invade. Our approach allows to accurately predict niche changes in novel or non-equilibrium contexts, which can improve our understanding about ecological aspects and geographic range boundaries in current and potential invasions.
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spelling pubmed-68009772019-10-21 Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta Espindola, Sayra Parra, Juan L. Vázquez-Domínguez, Ella PeerJ Biogeography BACKGROUND: How species colonize new environments is still a fundamental question in ecology and evolution, assessable by evaluating range characteristics of invasive species. Here we propose a model approach to evaluate environmental conditions and species features to predict niche changes in non-equilibrium contexts. It incorporates potentially range-limiting processes (fundamental niche), hence allowing for better predictions of range shifts, differentiation of analog and non-analog conditions between the native and non-native (invaded) ranges, and identification of environmental conditions not currently available but likely in the future. We apply our approach with the worldwide invasive slider-turtle Trachemys scripta. METHODS: We estimated the native and non-native realized niches of T. scripta and built its fundamental niche based on key features of the turtle’s temperature physiological tolerance limits and survival-associated factors. We next estimated response functions adjusted to the physiological predictor variables and estimated habitat suitability values, followed by a comprehensive set of analyses and simulations to compare the environmental conditions occupied by T. scripta (at its native and non-native ranges). RESULTS: Climatic space analysis showed that the T. scripta’s non-native realized niche is 28.6% greater than the native one. Response curves showed that it does not use its entire range of temperature tolerances (density curves for native: 5.3–23.7 °C and non-native: 1.7–28.4 °C ranges). Whether considering the mean temperature of the warmest or the coldest quarter, it occupies a wider range of temperatures along its non-native distribution. Results of the response curves for worldwide (global) and across Mexico (regional) comparisons showed it occupies analog and non-analog conditions between its native and invaded ranges, exhibiting also unoccupied suitable climatic conditions. DISCUSSION: We demonstrate that T. scripta occupies a wider subset of its fundamental niche along its non-native range (within its physiological tolerances), revealing that the species observed niche shift corresponds to a different subset of its fundamental niche (niche unfilling). We also identified suitable environmental conditions, globally and regionally, where the slider turtle could potentially invade. Our approach allows to accurately predict niche changes in novel or non-equilibrium contexts, which can improve our understanding about ecological aspects and geographic range boundaries in current and potential invasions. PeerJ Inc. 2019-10-17 /pmc/articles/PMC6800977/ /pubmed/31637143 http://dx.doi.org/10.7717/peerj.7923 Text en ©2019 Espindola et al. https://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ) and either DOI or URL of the article must be cited.
spellingShingle Biogeography
Espindola, Sayra
Parra, Juan L.
Vázquez-Domínguez, Ella
Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta
title Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta
title_full Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta
title_fullStr Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta
title_full_unstemmed Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta
title_short Fundamental niche unfilling and potential invasion risk of the slider turtle Trachemys scripta
title_sort fundamental niche unfilling and potential invasion risk of the slider turtle trachemys scripta
topic Biogeography
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6800977/
https://www.ncbi.nlm.nih.gov/pubmed/31637143
http://dx.doi.org/10.7717/peerj.7923
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