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Hauptverfasser: Erk, Cornelia P, Concha, Francisco J, Awruch, Cynthia, Finucci, Brittany, Cristiani, Franco, Guzmán-Castellanos, Ana B, da Silva, Charlene, Veríssimo, Ana
Format: Artículo científico
Sprache:en
Veröffentlicht: Journal of fish biology 2025
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Online-Zugang:https://pubmed.ncbi.nlm.nih.gov/40356200/
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author Erk, Cornelia P
Concha, Francisco J
Awruch, Cynthia
Finucci, Brittany
Cristiani, Franco
Guzmán-Castellanos, Ana B
da Silva, Charlene
Veríssimo, Ana
author_facet Erk, Cornelia P
Concha, Francisco J
Awruch, Cynthia
Finucci, Brittany
Cristiani, Franco
Guzmán-Castellanos, Ana B
da Silva, Charlene
Veríssimo, Ana
Erk, Cornelia P
Concha, Francisco J
Awruch, Cynthia
Finucci, Brittany
Cristiani, Franco
Guzmán-Castellanos, Ana B
da Silva, Charlene
Veríssimo, Ana
collection PubMed - marine biology
contents Genetic diversity in the American elephantfish (Chimaeriformes: Callorhinchus callorynchus) and among its congeners. Erk, Cornelia P Concha, Francisco J Awruch, Cynthia Finucci, Brittany Cristiani, Franco Guzmán-Castellanos, Ana B da Silva, Charlene Veríssimo, Ana Animals Genetic Variation Chile Argentina DNA, Mitochondrial Haplotypes Electron Transport Complex IV Fishes Sequence Analysis, DNA Phylogeny Understanding genetic population structure and connectivity is essential for effective species-specific management and conservation strategies. The American elephantfish Callorhinchus callorynchus is targeted and retained as incidental catch in commercial and recreational fisheries in Chile and Argentina. Its wide-ranging distribution across southern South America may require transnational co-operation to ensure sustainable use, but its current population structure is not known. In this work, we analysed the levels of genetic diversity and differentiation within C. callorynchus in South America using two mitochondrial markers, the control region (CR) and the cytochrome oxidase subunit I gene (CO1). Moreover, we assessed levels of genetic diversity within, and divergence among, the three extant callorhinchids (genus Callorhinchus), a group that exhibits allopatric geographical distributions in the southern hemisphere. Overall, sequence analyses of the mitochondrial CR and the CO1 revealed extremely low levels of sequence variation both within and among Callorhinchus species. Genetic homogeneity was found throughout the range of C. callorynchus coupled to low-frequency haplotype sharing across spatially distant locations in Chile and Argentina, suggesting gene flow along the South American coast. Moreover, our analyses supported a scenario of recent population expansion of the species in South America. Given the absence of dispersive eggs or juvenile stages in chondrichthyans, gene flow is mainly mediated by actively swimming adults. Based on the available data, gene flow in callorhinchids appears to occur along continuous coastal regions, with deep oceanic waters serving as strong barriers. Findings here provide an important baseline for future research on dispersal and gene flow in holocephalans.
format Artículo científico
id pubmed_40356200
institution PubMed
language en
publishDate 2025
publisher Journal of fish biology
record_format pubmed
spellingShingle Genetic diversity in the American elephantfish (Chimaeriformes: Callorhinchus callorynchus) and among its congeners.
Erk, Cornelia P
Concha, Francisco J
Awruch, Cynthia
Finucci, Brittany
Cristiani, Franco
Guzmán-Castellanos, Ana B
da Silva, Charlene
Veríssimo, Ana
Animals
Genetic Variation
Chile
Argentina
DNA, Mitochondrial
Haplotypes
Electron Transport Complex IV
Fishes
Sequence Analysis, DNA
Phylogeny
Genetic diversity in the American elephantfish (Chimaeriformes: Callorhinchus callorynchus) and among its congeners. Erk, Cornelia P Concha, Francisco J Awruch, Cynthia Finucci, Brittany Cristiani, Franco Guzmán-Castellanos, Ana B da Silva, Charlene Veríssimo, Ana Animals Genetic Variation Chile Argentina DNA, Mitochondrial Haplotypes Electron Transport Complex IV Fishes Sequence Analysis, DNA Phylogeny Understanding genetic population structure and connectivity is essential for effective species-specific management and conservation strategies. The American elephantfish Callorhinchus callorynchus is targeted and retained as incidental catch in commercial and recreational fisheries in Chile and Argentina. Its wide-ranging distribution across southern South America may require transnational co-operation to ensure sustainable use, but its current population structure is not known. In this work, we analysed the levels of genetic diversity and differentiation within C. callorynchus in South America using two mitochondrial markers, the control region (CR) and the cytochrome oxidase subunit I gene (CO1). Moreover, we assessed levels of genetic diversity within, and divergence among, the three extant callorhinchids (genus Callorhinchus), a group that exhibits allopatric geographical distributions in the southern hemisphere. Overall, sequence analyses of the mitochondrial CR and the CO1 revealed extremely low levels of sequence variation both within and among Callorhinchus species. Genetic homogeneity was found throughout the range of C. callorynchus coupled to low-frequency haplotype sharing across spatially distant locations in Chile and Argentina, suggesting gene flow along the South American coast. Moreover, our analyses supported a scenario of recent population expansion of the species in South America. Given the absence of dispersive eggs or juvenile stages in chondrichthyans, gene flow is mainly mediated by actively swimming adults. Based on the available data, gene flow in callorhinchids appears to occur along continuous coastal regions, with deep oceanic waters serving as strong barriers. Findings here provide an important baseline for future research on dispersal and gene flow in holocephalans.
title Genetic diversity in the American elephantfish (Chimaeriformes: Callorhinchus callorynchus) and among its congeners.
topic Animals
Genetic Variation
Chile
Argentina
DNA, Mitochondrial
Haplotypes
Electron Transport Complex IV
Fishes
Sequence Analysis, DNA
Phylogeny
url https://pubmed.ncbi.nlm.nih.gov/40356200/