Stable isotopes and diet uncover trophic-niche divergence and ecological diversification processes of endemic reptiles on Socotra Island

dc.contributor.author Martín, Natalia ca
dc.contributor.author Martínez, Sergi ca
dc.contributor.author Pujol-Buxóa, Eudald ca
dc.contributor.author Viñolas, Amador ca
dc.contributor.author Llorente, Gustavo A. ca
dc.contributor.author Sanpera, Carola ca
dc.contributor.author Vasconcelos, Raquel ca
dc.contributor.author Carranza, Salvador ca
dc.contributor.author Santos Santiró, Xavier ca
dc.contributor.other Consorci del Museu de Ciències Naturals de Barcelona ca
dc.coverage.spatial Iemen ca
dc.coverage.spatial Orient Mitjà ca
dc.coverage.spatial Iemen en
dc.coverage.spatial Orient Mitjà en
dc.coverage.spatial Iemen es
dc.coverage.spatial Orient Mitjà es
dc.date.accessioned 2020-12-16T12:24:53Z
dc.date.available 2020-12-16T12:24:53Z
dc.date.issued 2017-3-25
dc.description.abstract Ecological diversification on islands typically results in divergence of ecological niches. As diet is a majorcomponent of species niches, we hypothesize that sister species within island monophyletic groupsdiversify in their dietary preferences. We have examined this hypothesis in two Haemodracon and fourHemidactylus species endemic reptiles of from Socotra Island (Yemen), corresponding to two indepen-dent colonization events. Convergence i.e., similar dietary patterns of phylogenetically unrelated species,was also examined. Trophic niches were studied by the analysis of carbon and nitrogen stable isotopescombined with faecal samples. We collected tail tips (for isotopes) and faecal pellets during two visitsin 2013 and 2014 to Socotra. Specific trophic niche widths inferred from stable isotopes were estimatedfrom ellipse-based metrics, whereas interspecific differences were compared by linear mixed models andexamined in a phylogenetic framework. From faecal samples, diet variation among species was quanti-fied by the Bray-Curtis index. Isotope and dietary interspecific divergence was compared with Manteltests. For both isotopes, models detected interspecific differences between sister species i.e., trophic nichedivergence and also interspecific similarities of distant lineages that use similar microhabitats i.e., ecolog-ical convergence. We did not find any phylogenetic signal neither in the interspecific differences in 13Cnor in 15N isotopic values; thus species phylogenetically more closely related did not have more similarisotopic niches. The Mantel test demonstrated similar interspecific divergence using isotopes and faecalsamples. In a phylogenetic context, trophic-niche interspecific comparisons highlight some mechanismsthat are driving ecological diversification and speciation of Socotra Island. ca
dc.description.abstract Ecological diversification on islands typically results in divergence of ecological niches. As diet is a majorcomponent of species niches, we hypothesize that sister species within island monophyletic groupsdiversify in their dietary preferences. We have examined this hypothesis in two Haemodracon and fourHemidactylus species endemic reptiles of from Socotra Island (Yemen), corresponding to two indepen-dent colonization events. Convergence i.e., similar dietary patterns of phylogenetically unrelated species,was also examined. Trophic niches were studied by the analysis of carbon and nitrogen stable isotopescombined with faecal samples. We collected tail tips (for isotopes) and faecal pellets during two visitsin 2013 and 2014 to Socotra. Specific trophic niche widths inferred from stable isotopes were estimatedfrom ellipse-based metrics, whereas interspecific differences were compared by linear mixed models andexamined in a phylogenetic framework. From faecal samples, diet variation among species was quanti-fied by the Bray-Curtis index. Isotope and dietary interspecific divergence was compared with Manteltests. For both isotopes, models detected interspecific differences between sister species i.e., trophic nichedivergence and also interspecific similarities of distant lineages that use similar microhabitats i.e., ecolog-ical convergence. We did not find any phylogenetic signal neither in the interspecific differences in 13Cnor in 15N isotopic values; thus species phylogenetically more closely related did not have more similarisotopic niches. The Mantel test demonstrated similar interspecific divergence using isotopes and faecalsamples. In a phylogenetic context, trophic-niche interspecific comparisons highlight some mechanismsthat are driving ecological diversification and speciation of Socotra Island. en
dc.description.abstract Ecological diversification on islands typically results in divergence of ecological niches. As diet is a majorcomponent of species niches, we hypothesize that sister species within island monophyletic groupsdiversify in their dietary preferences. We have examined this hypothesis in two Haemodracon and fourHemidactylus species endemic reptiles of from Socotra Island (Yemen), corresponding to two indepen-dent colonization events. Convergence i.e., similar dietary patterns of phylogenetically unrelated species,was also examined. Trophic niches were studied by the analysis of carbon and nitrogen stable isotopescombined with faecal samples. We collected tail tips (for isotopes) and faecal pellets during two visitsin 2013 and 2014 to Socotra. Specific trophic niche widths inferred from stable isotopes were estimatedfrom ellipse-based metrics, whereas interspecific differences were compared by linear mixed models andexamined in a phylogenetic framework. From faecal samples, diet variation among species was quanti-fied by the Bray-Curtis index. Isotope and dietary interspecific divergence was compared with Manteltests. For both isotopes, models detected interspecific differences between sister species i.e., trophic nichedivergence and also interspecific similarities of distant lineages that use similar microhabitats i.e., ecolog-ical convergence. We did not find any phylogenetic signal neither in the interspecific differences in 13Cnor in 15N isotopic values; thus species phylogenetically more closely related did not have more similarisotopic niches. The Mantel test demonstrated similar interspecific divergence using isotopes and faecalsamples. In a phylogenetic context, trophic-niche interspecific comparisons highlight some mechanismsthat are driving ecological diversification and speciation of Socotra Island. es
dc.format.extent 49 p. ca
dc.identifier http://hdl.handle.net/2072/360797
dc.identifier.citation Zoologischer Anzeiger 267 (2017) 69–81 ca
dc.identifier.entitat consorcis ca
dc.identifier.uri http://hdl.handle.net/11703/120313
dc.language eng ca
dc.provenance Recercat (Dipòsit de la Recerca de Catalunya) ca
dc.rights CC-BY-NC-ND ca
dc.subject Isòtops estables en ecologia ca
dc.subject Conservació de la diversitat biològica ca
dc.subject Animals en perill d'extinció ca
dc.subject Rèptils ca
dc.subject Cadenes alimentàries (Ecologia) ca
dc.subject Stable isotopes in ecological research en
dc.subject Biodiversity conservation en
dc.subject Rare animals en
dc.subject Reptiles en
dc.subject Food chains (Ecology) en
dc.subject Isótopos estables en ecología es
dc.subject Conservación de la biodiversidad es
dc.subject Animales en vías de extinción es
dc.subject Reptiles es
dc.subject Cadenas tróficas (Ecología) es
dc.subject.category Ciència i tecnologia ca
dc.subject.forma articles ca
dc.title Stable isotopes and diet uncover trophic-niche divergence and ecological diversification processes of endemic reptiles on Socotra Island ca
dc.type text ca
dc.type.driver info:eu-repo/semantics/article ca
dc.type.driver info:eu-repo/semantics/acceptedVersion ca
metadadalocal.dependencia 8008920

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