Ecological Niche Model used to examine the distribution of an invasive, non-indigenous coral

All organisms have a set of ecological conditions (or niche) which they depend on to survive and establish in a given habitat. The ecological niche of a species limits its geographical distribution. In the particular case of non-indigenous species (NIS), the ecological requirements of the species im...

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Veröffentlicht in:Marine environmental research 2015-02, Vol.103, p.115-124
Hauptverfasser: Carlos-Júnior, L.A., Barbosa, N.P.U., Moulton, T.P., Creed, J.C.
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container_start_page 115
container_title Marine environmental research
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creator Carlos-Júnior, L.A.
Barbosa, N.P.U.
Moulton, T.P.
Creed, J.C.
description All organisms have a set of ecological conditions (or niche) which they depend on to survive and establish in a given habitat. The ecological niche of a species limits its geographical distribution. In the particular case of non-indigenous species (NIS), the ecological requirements of the species impose boundaries on the potential distribution of the organism in the new receptor regions. This is a theoretical assumption implicit when Ecological Niche Models (ENMs) are used to assess the potential distribution of NIS. This assumption has been questioned, given that in some cases niche shift may occur during the process of invasion. We used ENMs to investigate whether the model fit with data from the native range of the coral Tubastraea coccinea Lesson, 1829 successfully predicts its invasion in the Atlantic. We also identified which factors best explain the distribution of this NIS. The broad native distributional range of T. coccinea predicted the invaded sites well, especially along the Brazilian coast, the Caribbean Sea and Gulf of Mexico. The occurrence of T. coccinea was positively related to calcite levels and negatively to eutrophy, but was rather unaffected to other variables that often limit other marine organisms, suggesting that this NIS has wide ecological limits, a trait typical of invasive species. •We used an Ecological Niche Model (ENM) to investigate factors driving the successful invasion of an invasive coral species.•The broad native distributional range of the species allowed good model prediction of invaded areas.•The occurrence of the species correlated with calcite levels and eutrophy.•The species is not limited by several other variables usually important to marine species' establishment.
doi_str_mv 10.1016/j.marenvres.2014.10.004
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subjects Animal Distribution
Animals
Anthozoa - physiology
Benthic ecology
Boundaries
Calcite
Conservation of Natural Resources
Corals
Distribution dynamics
Ecological Niche Models
Ecological niches
Ecology
Ecosystem
Equatorial and southern Atlantic
Introduced Species
Invasive species
Marine
Mathematical models
Models, Biological
Organisms
Tubastraea coccinea
title Ecological Niche Model used to examine the distribution of an invasive, non-indigenous coral
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