Copepod phylogenomics supports Canuelloida as a valid order separate from Harpacticoida

[Display omitted] •This study is the largest phylogenomic analysis of copepods to date and includes the first transcriptome of Canuelloida.•All methods recover Canuelloida as a distinct order seperate from Harpacticoida.•Contrary to several recent studies, we find robust support for Cyclopoida and H...

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Published in	Molecular phylogenetics and evolution Vol. 206; p. 108311
Main Authors	Bernot, James P., Khodami, Sahar, Boyen, Jens, Troch, Marleen De, Boxshall, Geoffrey A., Arbizu, Pedro Martínez
Format	Journal Article
Language	English
Published	United States Elsevier Inc 01.05.2025
Subjects	amino acids Animals Bayes Theorem Calanoida Copepoda - classification Copepoda - genetics Cyclopoida freshwater Genomics Harpacticoida mitochondrial genome monophyly Phylogeny plankton Platycopioida Siphonostomatoida species species diversity superorder Transcriptome transcriptomics
Online Access	Get full text
ISSN	1055-7903 1095-9513 1095-9513
DOI	10.1016/j.ympev.2025.108311

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Abstract	[Display omitted] •This study is the largest phylogenomic analysis of copepods to date and includes the first transcriptome of Canuelloida.•All methods recover Canuelloida as a distinct order seperate from Harpacticoida.•Contrary to several recent studies, we find robust support for Cyclopoida and Harpacticoida as sister taxa. Copepods are small crustaceans that are ubiquitous in aquatic environments. They are particularly abundant in marine and freshwater plankton, marine sediments, and as parasites or commensals of other aquatic organisms. Despite their abundance and importance, phylogenetic relationships among copepods are poorly resolved. The validity of higher-level taxa, including several orders, has continued to be controversial throughout the 21st century. This study has two main goals: first, to use phylogenomic data to assess relationships among the four major copepod orders: Calanoida, Cyclopoida, Harpacticoida, and Siphonostomatoida, which together include more than 98 % of copepod species diversity, and second, to test the validity of the recently proposed order Canuelloida. Towards these goals, we sampled 28 copepod transcriptomes and genomes spanning 20 families and 5 orders, including the first transcriptome of a representative of Canuelloida. We identified 2,527 single copy protein coding genes comprising 939,460 amino acid (aa) positions and 530,269 informative sites. All phylogenetic analyses support a monophyletic Podoplea (i.e., the superorder comprising all copepod orders except for Calanoida and Platycopioida) with Calanoida as its sister taxon. We find robust support across all methods for Canuelloida as a distinct order separate from the traditionally recognized Harpacticoida (Oligoarthra). Contrary to several recent studies of smaller sets of nuclear genes or mitochondrial genomes, we recover Cyclopoida and Harpacticoida as sister taxa and find that gene tree discordance analysis rejects the alternative topologies. Transcriptomic data are promising for resolving the backbone of the copepod phylogeny but collecting and sequencing the nearly 15,000 species of copepods, many of which are infrequently encountered and less than 1 mm in size, remains a major hurdle.
AbstractList	[Display omitted] •This study is the largest phylogenomic analysis of copepods to date and includes the first transcriptome of Canuelloida.•All methods recover Canuelloida as a distinct order seperate from Harpacticoida.•Contrary to several recent studies, we find robust support for Cyclopoida and Harpacticoida as sister taxa. Copepods are small crustaceans that are ubiquitous in aquatic environments. They are particularly abundant in marine and freshwater plankton, marine sediments, and as parasites or commensals of other aquatic organisms. Despite their abundance and importance, phylogenetic relationships among copepods are poorly resolved. The validity of higher-level taxa, including several orders, has continued to be controversial throughout the 21st century. This study has two main goals: first, to use phylogenomic data to assess relationships among the four major copepod orders: Calanoida, Cyclopoida, Harpacticoida, and Siphonostomatoida, which together include more than 98 % of copepod species diversity, and second, to test the validity of the recently proposed order Canuelloida. Towards these goals, we sampled 28 copepod transcriptomes and genomes spanning 20 families and 5 orders, including the first transcriptome of a representative of Canuelloida. We identified 2,527 single copy protein coding genes comprising 939,460 amino acid (aa) positions and 530,269 informative sites. All phylogenetic analyses support a monophyletic Podoplea (i.e., the superorder comprising all copepod orders except for Calanoida and Platycopioida) with Calanoida as its sister taxon. We find robust support across all methods for Canuelloida as a distinct order separate from the traditionally recognized Harpacticoida (Oligoarthra). Contrary to several recent studies of smaller sets of nuclear genes or mitochondrial genomes, we recover Cyclopoida and Harpacticoida as sister taxa and find that gene tree discordance analysis rejects the alternative topologies. Transcriptomic data are promising for resolving the backbone of the copepod phylogeny but collecting and sequencing the nearly 15,000 species of copepods, many of which are infrequently encountered and less than 1 mm in size, remains a major hurdle. Copepods are small crustaceans that are ubiquitous in aquatic environments. They are particularly abundant in marine and freshwater plankton, marine sediments, and as parasites or commensals of other aquatic organisms. Despite their abundance and importance, phylogenetic relationships among copepods are poorly resolved. The validity of higher-level taxa, including several orders, has continued to be controversial throughout the 21st century. This study has two main goals: first, to use phylogenomic data to assess relationships among the four major copepod orders: Calanoida, Cyclopoida, Harpacticoida, and Siphonostomatoida, which together include more than 98 % of copepod species diversity, and second, to test the validity of the recently proposed order Canuelloida. Towards these goals, we sampled 28 copepod transcriptomes and genomes spanning 20 families and 5 orders, including the first transcriptome of a representative of Canuelloida. We identified 2,527 single copy protein coding genes comprising 939,460 amino acid (aa) positions and 530,269 informative sites. All phylogenetic analyses support a monophyletic Podoplea (i.e., the superorder comprising all copepod orders except for Calanoida and Platycopioida) with Calanoida as its sister taxon. We find robust support across all methods for Canuelloida as a distinct order separate from the traditionally recognized Harpacticoida (Oligoarthra). Contrary to several recent studies of smaller sets of nuclear genes or mitochondrial genomes, we recover Cyclopoida and Harpacticoida as sister taxa and find that gene tree discordance analysis rejects the alternative topologies. Transcriptomic data are promising for resolving the backbone of the copepod phylogeny but collecting and sequencing the nearly 15,000 species of copepods, many of which are infrequently encountered and less than 1 mm in size, remains a major hurdle. Copepods are small crustaceans that are ubiquitous in aquatic environments. They are particularly abundant in marine and freshwater plankton, marine sediments, and as parasites or commensals of other aquatic organisms. Despite their abundance and importance, phylogenetic relationships among copepods are poorly resolved. The validity of higher-level taxa, including several orders, has continued to be controversial throughout the 21st century. This study has two main goals: first, to use phylogenomic data to assess relationships among the four major copepod orders: Calanoida, Cyclopoida, Harpacticoida, and Siphonostomatoida, which together include more than 98 % of copepod species diversity, and second, to test the validity of the recently proposed order Canuelloida. Towards these goals, we sampled 28 copepod transcriptomes and genomes spanning 20 families and 5 orders, including the first transcriptome of a representative of Canuelloida. We identified 2,527 single copy protein coding genes comprising 939,460 amino acid (aa) positions and 530,269 informative sites. All phylogenetic analyses support a monophyletic Podoplea (i.e., the superorder comprising all copepod orders except for Calanoida and Platycopioida) with Calanoida as its sister taxon. We find robust support across all methods for Canuelloida as a distinct order separate from the traditionally recognized Harpacticoida (Oligoarthra). Contrary to several recent studies of smaller sets of nuclear genes or mitochondrial genomes, we recover Cyclopoida and Harpacticoida as sister taxa and find that gene tree discordance analysis rejects the alternative topologies. Transcriptomic data are promising for resolving the backbone of the copepod phylogeny but collecting and sequencing the nearly 15,000 species of copepods, many of which are infrequently encountered and less than 1 mm in size, remains a major hurdle. Copepods are small crustaceans that are ubiquitous in aquatic environments. They are particularly abundant in marine and freshwater plankton, marine sediments, and as parasites or commensals of other aquatic organisms. Despite their abundance and importance, phylogenetic relationships among copepods are poorly resolved. The validity of higher-level taxa, including several orders, has continued to be controversial throughout the 21st century. This study has two main goals: first, to use phylogenomic data to assess relationships among the four major copepod orders: Calanoida, Cyclopoida, Harpacticoida, and Siphonostomatoida, which together include more than 98 % of copepod species diversity, and second, to test the validity of the recently proposed order Canuelloida. Towards these goals, we sampled 28 copepod transcriptomes and genomes spanning 20 families and 5 orders, including the first transcriptome of a representative of Canuelloida. We identified 2,527 single copy protein coding genes comprising 939,460 amino acid (aa) positions and 530,269 informative sites. All phylogenetic analyses support a monophyletic Podoplea (i.e., the superorder comprising all copepod orders except for Calanoida and Platycopioida) with Calanoida as its sister taxon. We find robust support across all methods for Canuelloida as a distinct order separate from the traditionally recognized Harpacticoida (Oligoarthra). Contrary to several recent studies of smaller sets of nuclear genes or mitochondrial genomes, we recover Cyclopoida and Harpacticoida as sister taxa and find that gene tree discordance analysis rejects the alternative topologies. Transcriptomic data are promising for resolving the backbone of the copepod phylogeny but collecting and sequencing the nearly 15,000 species of copepods, many of which are infrequently encountered and less than 1 mm in size, remains a major hurdle.Copepods are small crustaceans that are ubiquitous in aquatic environments. They are particularly abundant in marine and freshwater plankton, marine sediments, and as parasites or commensals of other aquatic organisms. Despite their abundance and importance, phylogenetic relationships among copepods are poorly resolved. The validity of higher-level taxa, including several orders, has continued to be controversial throughout the 21st century. This study has two main goals: first, to use phylogenomic data to assess relationships among the four major copepod orders: Calanoida, Cyclopoida, Harpacticoida, and Siphonostomatoida, which together include more than 98 % of copepod species diversity, and second, to test the validity of the recently proposed order Canuelloida. Towards these goals, we sampled 28 copepod transcriptomes and genomes spanning 20 families and 5 orders, including the first transcriptome of a representative of Canuelloida. We identified 2,527 single copy protein coding genes comprising 939,460 amino acid (aa) positions and 530,269 informative sites. All phylogenetic analyses support a monophyletic Podoplea (i.e., the superorder comprising all copepod orders except for Calanoida and Platycopioida) with Calanoida as its sister taxon. We find robust support across all methods for Canuelloida as a distinct order separate from the traditionally recognized Harpacticoida (Oligoarthra). Contrary to several recent studies of smaller sets of nuclear genes or mitochondrial genomes, we recover Cyclopoida and Harpacticoida as sister taxa and find that gene tree discordance analysis rejects the alternative topologies. Transcriptomic data are promising for resolving the backbone of the copepod phylogeny but collecting and sequencing the nearly 15,000 species of copepods, many of which are infrequently encountered and less than 1 mm in size, remains a major hurdle.
ArticleNumber	108311
Author	Troch, Marleen De Boxshall, Geoffrey A. Bernot, James P. Khodami, Sahar Arbizu, Pedro Martínez Boyen, Jens
Author_xml	– sequence: 1 givenname: James P. surname: Bernot fullname: Bernot, James P. email: james.bernot@uconn.edu organization: Department of Ecology and Evolutionary Biology, University of Connecticut, CT 06269, USA – sequence: 2 givenname: Sahar surname: Khodami fullname: Khodami, Sahar organization: German Centre for Marine Biodiversity Research, Senckenberg am Meer, Wilhelmshaven 26382, Germany – sequence: 3 givenname: Jens surname: Boyen fullname: Boyen, Jens organization: Marine Biology, Department of Biology, Ghent University, Ghent S8 B-9000, Belgium – sequence: 4 givenname: Marleen De surname: Troch fullname: Troch, Marleen De organization: Marine Biology, Department of Biology, Ghent University, Ghent S8 B-9000, Belgium – sequence: 5 givenname: Geoffrey A. surname: Boxshall fullname: Boxshall, Geoffrey A. organization: Life Sciences, Natural History Museum, London SW7 5BD, UK – sequence: 6 givenname: Pedro Martínez surname: Arbizu fullname: Arbizu, Pedro Martínez organization: German Centre for Marine Biodiversity Research, Senckenberg am Meer, Wilhelmshaven 26382, Germany
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Bull. doi: 10.1086/BBLv226n1p69
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Snippet	[Display omitted] •This study is the largest phylogenomic analysis of copepods to date and includes the first transcriptome of Canuelloida.•All methods recover... Copepods are small crustaceans that are ubiquitous in aquatic environments. They are particularly abundant in marine and freshwater plankton, marine sediments,...
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StartPage	108311
SubjectTerms	amino acids Animals Bayes Theorem Calanoida Copepoda - classification Copepoda - genetics Cyclopoida freshwater Genomics Harpacticoida mitochondrial genome monophyly Phylogeny plankton Platycopioida Siphonostomatoida species species diversity superorder Transcriptome transcriptomics
Title	Copepod phylogenomics supports Canuelloida as a valid order separate from Harpacticoida
URI	https://dx.doi.org/10.1016/j.ympev.2025.108311 https://www.ncbi.nlm.nih.gov/pubmed/39986405 https://www.proquest.com/docview/3169796480 https://www.proquest.com/docview/3200296065
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