Fecal matters: implementing classical Coleoptera species lists with metabarcoding data from passerine bird feces

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 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 2023-06-29
dc.description.abstract Diversity inventories are critical to creating accurate species range maps and estimating population sizes, which in turn lead to better informed landscape and wildlife management decisions. Metabarcoding has facilitated large-scale environmental diversity surveys. However, the use of a metabarcoding approach with bird feces to survey arthropod diversity is still rela- tively undeveloped. The aim of this study was to see if and how a metabarcoding approach with bird feces could contribute to a saproxylic Coleoptera survey of traditional insect traps. We compared two methods of surveying saproxylic Coleoptera diversity (metabarcoding birds feces and deploying traditional traps) over two elevations in a mountain system. The two methods caught different species and different levels of functional guild richness. The metabarcoding method successfully recorded both distinct and overlapping portions of diversity from traditional collections, and the approach was also effec- tive in signaling the presence of both rare species and nine country records. Our results show that metabarcoding Passerine bird feces can be successful when used alongside traditional collection methods to capture a broad diversity of saproxylic Coleoptera. This method, however, has quantitative and qualitative limitations, including the inability to produce species abundance data as well as the generation of false positives and negatives due to biases within the metabarcoding pipeline. Implications for insect conservation As many terrestrial ecosystems lose insect diversity, insect diversity surveys are essential to understand the scope of the loss. Despite metabarcoding approach shortcomings, the declining costs and shorter survey and processing time required for this approach compared to traditional survey methods indicate that it can be a valuable addition to the toolkit for saproxylic Coleoptera diversity survey ca
dc.description.abstract Diversity inventories are critical to creating accurate species range maps and estimating population sizes, which in turn lead to better informed landscape and wildlife management decisions. Metabarcoding has facilitated large-scale environmental diversity surveys. However, the use of a metabarcoding approach with bird feces to survey arthropod diversity is still rela- tively undeveloped. The aim of this study was to see if and how a metabarcoding approach with bird feces could contribute to a saproxylic Coleoptera survey of traditional insect traps. We compared two methods of surveying saproxylic Coleoptera diversity (metabarcoding birds feces and deploying traditional traps) over two elevations in a mountain system. The two methods caught different species and different levels of functional guild richness. The metabarcoding method successfully recorded both distinct and overlapping portions of diversity from traditional collections, and the approach was also effec- tive in signaling the presence of both rare species and nine country records. Our results show that metabarcoding Passerine bird feces can be successful when used alongside traditional collection methods to capture a broad diversity of saproxylic Coleoptera. This method, however, has quantitative and qualitative limitations, including the inability to produce species abundance data as well as the generation of false positives and negatives due to biases within the metabarcoding pipeline. Implications for insect conservation As many terrestrial ecosystems lose insect diversity, insect diversity surveys are essential to understand the scope of the loss. Despite metabarcoding approach shortcomings, the declining costs and shorter survey and processing time required for this approach compared to traditional survey methods indicate that it can be a valuable addition to the toolkit for saproxylic Coleoptera diversity survey en
dc.description.abstract Diversity inventories are critical to creating accurate species range maps and estimating population sizes, which in turn lead to better informed landscape and wildlife management decisions. Metabarcoding has facilitated large-scale environmental diversity surveys. However, the use of a metabarcoding approach with bird feces to survey arthropod diversity is still rela- tively undeveloped. The aim of this study was to see if and how a metabarcoding approach with bird feces could contribute to a saproxylic Coleoptera survey of traditional insect traps. We compared two methods of surveying saproxylic Coleoptera diversity (metabarcoding birds feces and deploying traditional traps) over two elevations in a mountain system. The two methods caught different species and different levels of functional guild richness. The metabarcoding method successfully recorded both distinct and overlapping portions of diversity from traditional collections, and the approach was also effec- tive in signaling the presence of both rare species and nine country records. Our results show that metabarcoding Passerine bird feces can be successful when used alongside traditional collection methods to capture a broad diversity of saproxylic Coleoptera. This method, however, has quantitative and qualitative limitations, including the inability to produce species abundance data as well as the generation of false positives and negatives due to biases within the metabarcoding pipeline. Implications for insect conservation As many terrestrial ecosystems lose insect diversity, insect diversity surveys are essential to understand the scope of the loss. Despite metabarcoding approach shortcomings, the declining costs and shorter survey and processing time required for this approach compared to traditional survey methods indicate that it can be a valuable addition to the toolkit for saproxylic Coleoptera diversity survey es
dc.format.extent 13 p. ca
dc.identifier http://hdl.handle.net/2072/536470
dc.identifier.entitat consorcis ca
dc.identifier.uri http://hdl.handle.net/11703/132821
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 Ocells ca
dc.subject Passeriformes ca
dc.subject Coleòpters ca
dc.subject Alimentació animal ca
dc.subject Metagenòmica ca
dc.subject Insectes saproxílics ca
dc.subject Excrements ca
dc.subject Birds en
dc.subject Passeriformes en
dc.subject Beetles en
dc.subject Alimentación animal en
dc.subject Metagenomics en
dc.subject Saproxylic insects en
dc.subject Feces en
dc.subject Aves es
dc.subject Paseriformes es
dc.subject Coleópteros es
dc.subject Animal feeding es
dc.subject Metagenómica es
dc.subject Insectos saproxilicos es
dc.subject Excrementos es
dc.subject.category Ciència i tecnologia ca
dc.subject.forma articles ca
dc.title Fecal matters: implementing classical Coleoptera species lists with metabarcoding data from passerine bird feces 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

Apareix a les col·leccions

Fitxers