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Autori principali: Afonso, Luís, Lagrotteria, Alessandro, Lavrador, Ana Sofia, Suarez-Bregua, Paula, Álvarez-González, Miguel, Valente, Raul, Jensen, Mads Reinholdt, Saavedra, Camilo, Morais, Daniel Kumazawa, Sousa-Pinto, Isabel, Pierce, Graham J, Magalhães, Catarina, Correia, Ana Mafalda
Natura: Artículo científico
Lingua:en
Pubblicazione: Molecular ecology resources 2026
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Accesso online:https://pubmed.ncbi.nlm.nih.gov/41992680/
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author Afonso, Luís
Lagrotteria, Alessandro
Lavrador, Ana Sofia
Suarez-Bregua, Paula
Álvarez-González, Miguel
Valente, Raul
Jensen, Mads Reinholdt
Saavedra, Camilo
Morais, Daniel Kumazawa
Sousa-Pinto, Isabel
Pierce, Graham J
Magalhães, Catarina
Correia, Ana Mafalda
author_facet Afonso, Luís
Lagrotteria, Alessandro
Lavrador, Ana Sofia
Suarez-Bregua, Paula
Álvarez-González, Miguel
Valente, Raul
Jensen, Mads Reinholdt
Saavedra, Camilo
Morais, Daniel Kumazawa
Sousa-Pinto, Isabel
Pierce, Graham J
Magalhães, Catarina
Correia, Ana Mafalda
Afonso, Luís
Lagrotteria, Alessandro
Lavrador, Ana Sofia
Suarez-Bregua, Paula
Álvarez-González, Miguel
Valente, Raul
Jensen, Mads Reinholdt
Saavedra, Camilo
Morais, Daniel Kumazawa
Sousa-Pinto, Isabel
Pierce, Graham J
Magalhães, Catarina
Correia, Ana Mafalda
collection PubMed - marine biology
contents Navigating Cetacean Mitochondrial Genome Data: Identifying Coverage and Deficiencies in Public Repositories. Afonso, Luís Lagrotteria, Alessandro Lavrador, Ana Sofia Suarez-Bregua, Paula Álvarez-González, Miguel Valente, Raul Jensen, Mads Reinholdt Saavedra, Camilo Morais, Daniel Kumazawa Sousa-Pinto, Isabel Pierce, Graham J Magalhães, Catarina Correia, Ana Mafalda Cetacea Animals Genome, Mitochondrial DNA, Mitochondrial Sequence Analysis, DNA Databases, Genetic Genetic reference databases underpin a wide range of molecular approaches used to study cetacean biodiversity, including environmental DNA (eDNA), yet their reliability depends critically on data completeness, taxonomic accuracy, and metadata quality. Here, we present the first global assessment of mitochondrial sequence availability for cetaceans, evaluating taxonomic coverage, geographic representation, metadata completeness, and the distribution of five commonly targeted mitochondrial markers (12S rRNA, 16S rRNA, D-loop, cytochrome oxidase I, and cytochrome b). We retrieved 17,569 cetacean accessions from the NCBI Nucleotide database and an additional 259 COI-only records from BOLD Systems. Sequence availability was strongly biased toward Delphinidae and Balaenopteridae, whereas several families, notably Ziphiidae, were markedly underrepresented. We also identified discrepancies between database records and currently accepted cetacean taxonomy (e.g., outdated genera, non-accepted species, and collapsed higher-level taxa). Among markers, the D-loop dominated database representation, largely as standalone sequences (12,437 records), reflecting historical and current sequencing priorities and underscoring its continued relevance for population-level studies and eDNA marker development. Only 38% of accessions included geographic metadata, with georeferenced records concentrated primarily in the Americas and the Northwest Pacific, while large regions, including much of Africa, remained poorly represented. Although broad geographic patterns mirrored known family distributions, pronounced regional and taxonomic gaps persist. Our results highlight critical deficiencies in mitochondrial reference databases for cetaceans and emphasise the need for improved metadata standards, targeted sequencing of underrepresented taxa and regions, and open data sharing to enhance the effectiveness and global applicability of eDNA-based cetacean monitoring.
format Artículo científico
id pubmed_41992680
institution PubMed
language en
publishDate 2026
publisher Molecular ecology resources
record_format pubmed
spellingShingle Navigating Cetacean Mitochondrial Genome Data: Identifying Coverage and Deficiencies in Public Repositories.
Afonso, Luís
Lagrotteria, Alessandro
Lavrador, Ana Sofia
Suarez-Bregua, Paula
Álvarez-González, Miguel
Valente, Raul
Jensen, Mads Reinholdt
Saavedra, Camilo
Morais, Daniel Kumazawa
Sousa-Pinto, Isabel
Pierce, Graham J
Magalhães, Catarina
Correia, Ana Mafalda
Cetacea
Animals
Genome, Mitochondrial
DNA, Mitochondrial
Sequence Analysis, DNA
Databases, Genetic
Navigating Cetacean Mitochondrial Genome Data: Identifying Coverage and Deficiencies in Public Repositories. Afonso, Luís Lagrotteria, Alessandro Lavrador, Ana Sofia Suarez-Bregua, Paula Álvarez-González, Miguel Valente, Raul Jensen, Mads Reinholdt Saavedra, Camilo Morais, Daniel Kumazawa Sousa-Pinto, Isabel Pierce, Graham J Magalhães, Catarina Correia, Ana Mafalda Cetacea Animals Genome, Mitochondrial DNA, Mitochondrial Sequence Analysis, DNA Databases, Genetic Genetic reference databases underpin a wide range of molecular approaches used to study cetacean biodiversity, including environmental DNA (eDNA), yet their reliability depends critically on data completeness, taxonomic accuracy, and metadata quality. Here, we present the first global assessment of mitochondrial sequence availability for cetaceans, evaluating taxonomic coverage, geographic representation, metadata completeness, and the distribution of five commonly targeted mitochondrial markers (12S rRNA, 16S rRNA, D-loop, cytochrome oxidase I, and cytochrome b). We retrieved 17,569 cetacean accessions from the NCBI Nucleotide database and an additional 259 COI-only records from BOLD Systems. Sequence availability was strongly biased toward Delphinidae and Balaenopteridae, whereas several families, notably Ziphiidae, were markedly underrepresented. We also identified discrepancies between database records and currently accepted cetacean taxonomy (e.g., outdated genera, non-accepted species, and collapsed higher-level taxa). Among markers, the D-loop dominated database representation, largely as standalone sequences (12,437 records), reflecting historical and current sequencing priorities and underscoring its continued relevance for population-level studies and eDNA marker development. Only 38% of accessions included geographic metadata, with georeferenced records concentrated primarily in the Americas and the Northwest Pacific, while large regions, including much of Africa, remained poorly represented. Although broad geographic patterns mirrored known family distributions, pronounced regional and taxonomic gaps persist. Our results highlight critical deficiencies in mitochondrial reference databases for cetaceans and emphasise the need for improved metadata standards, targeted sequencing of underrepresented taxa and regions, and open data sharing to enhance the effectiveness and global applicability of eDNA-based cetacean monitoring.
title Navigating Cetacean Mitochondrial Genome Data: Identifying Coverage and Deficiencies in Public Repositories.
topic Cetacea
Animals
Genome, Mitochondrial
DNA, Mitochondrial
Sequence Analysis, DNA
Databases, Genetic
url https://pubmed.ncbi.nlm.nih.gov/41992680/