DNA metabarcoding Passerine bird feces at tree-line uncovers little intra- and inter-species dietary overlap

dc.contributor.author Bookwalter, Jamie ca
dc.contributor.author Niyas, Afaq M Mohamed ca
dc.contributor.author Caballero-López, Berta ca
dc.contributor.author Villari, Caterina ca
dc.contributor.author Marco-Tresserras, Jana ca
dc.contributor.author Burgas, Albert ca
dc.contributor.author Ferrandiz-Rovira, Mariona ca
dc.contributor.author Claramunt-López, Bernat ca
dc.contributor.other Consorci del Museu de Ciències Naturals de Barcelona ca
dc.date.accessioned 2023-11-07T13:19:41Z
dc.date.available 2023-11-07T13:19:41Z
dc.date.issued 2023-07-04
dc.description.abstract High-elevation insectivorous birds are currently confronted with the reality of a changing climate, land use shifts, and the decline of many prey groups. The diet dynamics among many imperiled animals in this group are still unresolved. Exam- ining the diets of tree-line Passerine birds to the species level of the prey allows for stronger population predictions. This study uses DNA metabarcoding to identify prey arthropods from adult Passerine bird feces at and slightly below tree-line in a Pyrenean forest. Our objective was to quantify the intra-and inter-species richness and overlap of Passerine bird diet over time and space. The results showed that adult Passerine diets have high inter- and intra-species dietary variability and low inter- and intra-species dietary overlap. The lack of association between dietary richness and open space, season, and eleva- tion and lack of differences between dietary overlap and open space and elevation suggest high-elevation Passerine birds have very high dietary flexibility. The results also showed that aphids known to be pests to conifers, and other conifer pests, were prevalent in the birds’ diets. The Passerine diets and high rate of rare dietary items are mainly in line with other recent DNA metabarcoding studies. Implications for the long-term projections relative to tree-line Passerine populations are discussed. ca
dc.description.abstract High-elevation insectivorous birds are currently confronted with the reality of a changing climate, land use shifts, and the decline of many prey groups. The diet dynamics among many imperiled animals in this group are still unresolved. Exam- ining the diets of tree-line Passerine birds to the species level of the prey allows for stronger population predictions. This study uses DNA metabarcoding to identify prey arthropods from adult Passerine bird feces at and slightly below tree-line in a Pyrenean forest. Our objective was to quantify the intra-and inter-species richness and overlap of Passerine bird diet over time and space. The results showed that adult Passerine diets have high inter- and intra-species dietary variability and low inter- and intra-species dietary overlap. The lack of association between dietary richness and open space, season, and eleva- tion and lack of differences between dietary overlap and open space and elevation suggest high-elevation Passerine birds have very high dietary flexibility. The results also showed that aphids known to be pests to conifers, and other conifer pests, were prevalent in the birds’ diets. The Passerine diets and high rate of rare dietary items are mainly in line with other recent DNA metabarcoding studies. Implications for the long-term projections relative to tree-line Passerine populations are discussed. en
dc.description.abstract High-elevation insectivorous birds are currently confronted with the reality of a changing climate, land use shifts, and the decline of many prey groups. The diet dynamics among many imperiled animals in this group are still unresolved. Exam- ining the diets of tree-line Passerine birds to the species level of the prey allows for stronger population predictions. This study uses DNA metabarcoding to identify prey arthropods from adult Passerine bird feces at and slightly below tree-line in a Pyrenean forest. Our objective was to quantify the intra-and inter-species richness and overlap of Passerine bird diet over time and space. The results showed that adult Passerine diets have high inter- and intra-species dietary variability and low inter- and intra-species dietary overlap. The lack of association between dietary richness and open space, season, and eleva- tion and lack of differences between dietary overlap and open space and elevation suggest high-elevation Passerine birds have very high dietary flexibility. The results also showed that aphids known to be pests to conifers, and other conifer pests, were prevalent in the birds’ diets. The Passerine diets and high rate of rare dietary items are mainly in line with other recent DNA metabarcoding studies. Implications for the long-term projections relative to tree-line Passerine populations are discussed. es
dc.format.extent 11 p. ca
dc.identifier http://hdl.handle.net/2072/536774
dc.identifier.entitat consorcis ca
dc.identifier.uri http://hdl.handle.net/11703/132822
dc.language eng ca
dc.provenance Recercat (Dipòsit de la Recerca de Catalunya) ca
dc.rights CC-BY ca
dc.rights.notes © The Author(s) 2023 ca
dc.rights.uri https://creativecommons.org/licenses/by/4.0/ ca
dc.subject ADN ca
dc.subject Passeriformes ca
dc.subject Excrements ca
dc.subject Alimentació animal ca
dc.subject Afídids ca
dc.subject Aràcnids ca
dc.subject Insectes ca
dc.subject DNA en
dc.subject Passeriformes en
dc.subject Feces en
dc.subject Alimentación animal en
dc.subject Aphididae en
dc.subject Arachnida en
dc.subject Insects en
dc.subject ADN es
dc.subject Paseriformes es
dc.subject Excrementos es
dc.subject Animal feeding es
dc.subject Afídidos es
dc.subject Arácnidos es
dc.subject Insectos es
dc.subject.category Ciència i tecnologia ca
dc.subject.forma articles ca
dc.title DNA metabarcoding Passerine bird feces at tree-line uncovers little intra- and inter-species dietary overlap ca
dc.type text ca
dc.type.driver info:eu-repo/semantics/article ca
dc.type.driver info:eu-repo/semantics/publishedVersion ca
metadadalocal.dependencia 8008920

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