DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots

DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots

Abstract DNA barcoding identification needs a good characterization of intraspecific genetic divergence to establish the limits between species. Yet, the number of barcodes per species is many times low and geographically restricted. A poor coverage of the species distribution range may hamper ident...

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Main Authors: Álvaro Gaytán, Johannes Bergsten, Tara Canelo, Carlos Pérez‐Izquierdo, Maria Santoro, Raul Bonal
Format: Article
Language:English
Published: Wiley 2020-10-01
Series:Ecology and Evolution
Subjects:
cytochrome c oxidase subunit I
glacial refugia
intraspecific genetic divergence
Lepidoptera
Online Access:https://doi.org/10.1002/ece3.6733
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spelling doaj-6efe0e2ee71e46158c544ebf134dbab42021-04-02T15:30:34ZengWileyEcology and Evolution2045-77582020-10-011019107541077210.1002/ece3.6733DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspotsÁlvaro Gaytán0Johannes Bergsten1Tara Canelo2Carlos Pérez‐Izquierdo3Maria Santoro4Raul Bonal5Department of Ecology Environment and Plant Sciences Stockholm University Stockholm SwedenDepartment of Zoology Swedish Museum of Natural History Stockholm SwedenForest Research Group INDEHESA University of Extremadura Plasencia SpainForest Research Group INDEHESA University of Extremadura Plasencia SpainResearch Group on Genetic and Cultural Biodiversity – IREC – (CSIC, UCLM, JCCM) Ciudad Real SpainResearch Group on Genetic and Cultural Biodiversity – IREC – (CSIC, UCLM, JCCM) Ciudad Real SpainAbstract DNA barcoding identification needs a good characterization of intraspecific genetic divergence to establish the limits between species. Yet, the number of barcodes per species is many times low and geographically restricted. A poor coverage of the species distribution range may hamper identification, especially when undersampled areas host genetically distinct lineages. If so, the genetic distance between some query sequences and reference barcodes may exceed the maximum intraspecific threshold for unequivocal species assignation. Taking a group of Quercus herbivores (moths) in Europe as model system, we found that the number of DNA barcodes from southern Europe is proportionally very low in the Barcoding of Life Data Systems. This geographical bias complicates the identification of southern query sequences, due to their high intraspecific genetic distance with respect to barcodes from higher latitudes. Pairwise intraspecific genetic divergence increased along with spatial distance, but was higher when at least one of the sampling sites was in southern Europe. Accordingly, GMYC (General Mixed Yule Coalescent) single‐threshold model retrieved clusters constituted exclusively by Iberian haplotypes, some of which could correspond to cryptic species. The number of putative species retrieved was more reliable than that of multiple‐threshold GMYC but very similar to results from ABGD and jMOTU. Our results support GMYC as a key resource for species delimitation within poorly inventoried biogeographic regions in Europe, where historical factors (e.g., glaciations) have promoted genetic diversity and singularity. Future European DNA barcoding initiatives should be preferentially performed along latitudinal gradients, with special focus on southern peninsulas.https://doi.org/10.1002/ece3.6733cytochrome c oxidase subunit Iglacial refugiaintraspecific genetic divergenceLepidoptera
collection DOAJ
language English
format Article
sources DOAJ
author Álvaro Gaytán
Johannes Bergsten
Tara Canelo
Carlos Pérez‐Izquierdo
Maria Santoro
Raul Bonal
spellingShingle Álvaro Gaytán
Johannes Bergsten
Tara Canelo
Carlos Pérez‐Izquierdo
Maria Santoro
Raul Bonal
DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots
Ecology and Evolution
cytochrome c oxidase subunit I
glacial refugia
intraspecific genetic divergence
Lepidoptera
author_facet Álvaro Gaytán
Johannes Bergsten
Tara Canelo
Carlos Pérez‐Izquierdo
Maria Santoro
Raul Bonal
author_sort Álvaro Gaytán
title DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots
title_short DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots
title_full DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots
title_fullStr DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots
title_full_unstemmed DNA Barcoding and geographical scale effect: The problems of undersampling genetic diversity hotspots
title_sort dna barcoding and geographical scale effect: the problems of undersampling genetic diversity hotspots
publisher Wiley
series Ecology and Evolution
issn 2045-7758
publishDate 2020-10-01
description Abstract DNA barcoding identification needs a good characterization of intraspecific genetic divergence to establish the limits between species. Yet, the number of barcodes per species is many times low and geographically restricted. A poor coverage of the species distribution range may hamper identification, especially when undersampled areas host genetically distinct lineages. If so, the genetic distance between some query sequences and reference barcodes may exceed the maximum intraspecific threshold for unequivocal species assignation. Taking a group of Quercus herbivores (moths) in Europe as model system, we found that the number of DNA barcodes from southern Europe is proportionally very low in the Barcoding of Life Data Systems. This geographical bias complicates the identification of southern query sequences, due to their high intraspecific genetic distance with respect to barcodes from higher latitudes. Pairwise intraspecific genetic divergence increased along with spatial distance, but was higher when at least one of the sampling sites was in southern Europe. Accordingly, GMYC (General Mixed Yule Coalescent) single‐threshold model retrieved clusters constituted exclusively by Iberian haplotypes, some of which could correspond to cryptic species. The number of putative species retrieved was more reliable than that of multiple‐threshold GMYC but very similar to results from ABGD and jMOTU. Our results support GMYC as a key resource for species delimitation within poorly inventoried biogeographic regions in Europe, where historical factors (e.g., glaciations) have promoted genetic diversity and singularity. Future European DNA barcoding initiatives should be preferentially performed along latitudinal gradients, with special focus on southern peninsulas.
topic cytochrome c oxidase subunit I
glacial refugia
intraspecific genetic divergence
Lepidoptera
url https://doi.org/10.1002/ece3.6733
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