Validity of the Diplostomoidea and Diplostomida (Digenea, Platyhelminthes) Upheld in Phylogenomic Analysis

Sean A. Locke; Alex Van Dam; Monica Caffara; Hudson Alves Pinto; Danimar Lopez-Hernandez; Christopher Blanar

doi:10.1016/j.ijpara.2018.07.001

Validity of the Diplostomoidea and Diplostomida (Digenea, Platyhelminthes) Upheld in Phylogenomic Analysis

Sean A. Locke
, Alex Van Dam
, Monica Caffara
, Hudson Alves Pinto
, Danimar Lopez-Hernandez
, Christopher Blanar

Department of Biological Sciences

Research output: Contribution to journal › Article › peer-review

87 Scopus citations

Abstract

Higher systematics within the Digenea, Carus 1863 have been relatively stable since a phylogenetic analysis of partial nuclear ribosomal markers (rDNA) led to the erection of the Diplostomida Olson, Cribb, Tkach, Bray, and Littlewood, 2003. However, recent mitochondrial (mt) genome phylogenies suggest this order might be paraphyletic. These analyses show members of two diplostomidan superfamilies are more closely related to the Plagiorchiida La Rue, 1957 than to other members of the Diplostomida. A recent phylogeny based on partial cytochrome c oxidase I also indicates one of the groups implicated, the Diplostomoidea Poirier, 1886, is non-monophyletic. To determine if these results were robust to additional taxon sampling, we analyzed mt genomes from seven diplostomoids in three families. To choose between phylogenetic alternatives based on mt genomes and the prior rDNA-based topology, we analyzed hundreds of ultra-conserved genomic elements assembled from shotgun sequencing. The Diplostomida was paraphyletic in the mt genome phylogeny but supported in the ultra-conserved genomic element phylogeny. We speculate this mitonuclear discordance is related to ancient, rapid radiation in the Digenea. Both ultra-conserved genomic elements and mt genomes support the monophyly of the Diplostomoidea and show congruent relationships within it. The Cyathocotylidae Mühling, 1898 are early diverging descendants of a paraphyletic clade of Diplostomidae Poirier, 1886, in which are nested members of the Strigeidae Railliet, 1919; the results support prior suggestions that the Crassiphialinae Sudarikov, 1960 will rise to the family level. Morphological traits of diplostomoid metacercariae appear to be more useful for differentiating clades than those of adults. We describe a new species of Cotylurus Szidat, 1928, resurrect a species of Hysteromorpha Lutz, 1931, and find support for a species of Alaria Schrank, 1788 of contested validity. Complete rDNA operons from seven diplostomoid species are provided as a resource for future studies.

Original language	American English
Pages (from-to)	1043-1059
Number of pages	17
Journal	International Journal of Parasitology
Volume	48
Issue number	13
DOIs	https://doi.org/10.1016/j.ijpara.2018.07.001
State	Published - Nov 2018

Bibliographical note

Publisher Copyright:
© 2018 Australian Society for Parasitology

Funding

We are indebted to Brandon Ballengée (McGill University, Canada), Kimberly Bates (Winona State University, USA), Matías J. Cafaro (University of Puerto Rico at Mayagüez, UPRM, Puerto Rico), Gary Conboy (University of Prince Edward Island, Canada), Martin Kalbe (Max Planck Institute for Evolutionary Biology, Germany), David Kerstetter (Nova Southeastern University, USA), Audrey J. Majeske (UPRM), J. Daniel McLaughlin (Concordia University, Canada), and Le Nichoir Wildlife Rehabilitation Centre, Canada for providing hosts, worms, or laboratory access. Lutz Froenicke and staff at the University of California, Davis Genome Center, USA are gratefully acknowledged. Isabel Blasco-Costa (Natural History Museum of Geneva, Switzerland) provided constructive suggestions that improved an earlier version of the manuscript, as did two anonymous reviewers. Early phases of this study were supported by the Canadian Federal Government's Genomics Research Development Initiative, a Natural Sciences and Engineering Research Council (NSERC) Discovery Grant (A6979), and by Paul D.N. Hebert at the Center for Biodiversity Genomics, University of Guelph, Canada through funding from NSERC, Genome Canada, the Ontario Genomics Institute and the International Barcode of Life initiative. Major funding support was provided by the Puerto Rico Science, Technology and Research Trust to SL and computational support was provided by a National Science Foundation, Extreme Science and Engineering Discovery Environment (XSEDE) grant (BIO170048) to SL and AVD. We are indebted to Brandon Ballengée (McGill University, Canada), Kimberly Bates (Winona State University, USA), Matías J. Cafaro (University of Puerto Rico at Mayagüez, UPRM, Puerto Rico), Gary Conboy (University of Prince Edward Island, Canada), Martin Kalbe (Max Planck Institute for Evolutionary Biology, Germany), David Kerstetter (Nova Southeastern University, USA), Audrey J. Majeske (UPRM), J. Daniel McLaughlin (Concordia University, Canada), and Le Nichoir Wildlife Rehabilitation Centre, Canada for providing hosts, worms, or laboratory access. Lutz Froenicke and staff at the University of California, Davis Genome Center, USA are gratefully acknowledged. Isabel Blasco-Costa (Natural History Museum of Geneva, Switzerland) provided constructive suggestions that improved an earlier version of the manuscript, as did two anonymous reviewers. Early phases of this study were supported by the Canadian Federal Government’s Genomics Research Development Initiative, a Natural Sciences and Engineering Research Council (NSERC) Discovery Grant ( A6979 ), and by Paul D.N. Hebert at the Center for Biodiversity Genomics, University of Guelph, Canada through funding from NSERC, Genome Canada, the Ontario Genomics Institute and the International Barcode of Life initiative. Major funding support was provided by the Puerto Rico Science, Technology and Research Trust to SL and computational support was provided by a National Science Foundation, Extreme Science and Engineering Discovery Environment (XSEDE) grant ( BIO170048 ) to SL and AVD.

Funders	Funder number
Extreme Science and Engineering Discovery Environment
UPRM
University of Prince Edward Island, Canada), Martin Kalbe
University of Puerto Rico at Mayagüez
XSEDE	BIO170048
National Science Foundation
Genome Canada
Winona State University
Natural Sciences and Engineering Research Council of Canada	A6979
Ontario Genomics Institute
Concordia University
Puerto Rico Science, Technology and Research Trust

ASJC Scopus Subject Areas

Infectious Diseases
Parasitology

Keywords

Strigeida
Diplostomida
Phylogenomics
Metacercaria
Nuclear-mitochondrial discordance
Cotylurus
Hysteromorpha
Alaria

Disciplines

Biology
Life Sciences

Access to Document

10.1016/j.ijpara.2018.07.001

Cite this

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title = "Validity of the Diplostomoidea and Diplostomida (Digenea, Platyhelminthes) Upheld in Phylogenomic Analysis",

abstract = "Higher systematics within the Digenea, Carus 1863 have been relatively stable since a phylogenetic analysis of partial nuclear ribosomal markers (rDNA) led to the erection of the Diplostomida Olson, Cribb, Tkach, Bray, and Littlewood, 2003. However, recent mitochondrial (mt) genome phylogenies suggest this order might be paraphyletic. These analyses show members of two diplostomidan superfamilies are more closely related to the Plagiorchiida La Rue, 1957 than to other members of the Diplostomida. A recent phylogeny based on partial cytochrome c oxidase I also indicates one of the groups implicated, the Diplostomoidea Poirier, 1886, is non-monophyletic. To determine if these results were robust to additional taxon sampling, we analyzed mt genomes from seven diplostomoids in three families. To choose between phylogenetic alternatives based on mt genomes and the prior rDNA-based topology, we analyzed hundreds of ultra-conserved genomic elements assembled from shotgun sequencing. The Diplostomida was paraphyletic in the mt genome phylogeny but supported in the ultra-conserved genomic element phylogeny. We speculate this mitonuclear discordance is related to ancient, rapid radiation in the Digenea. Both ultra-conserved genomic elements and mt genomes support the monophyly of the Diplostomoidea and show congruent relationships within it. The Cyathocotylidae M{\"u}hling, 1898 are early diverging descendants of a paraphyletic clade of Diplostomidae Poirier, 1886, in which are nested members of the Strigeidae Railliet, 1919; the results support prior suggestions that the Crassiphialinae Sudarikov, 1960 will rise to the family level. Morphological traits of diplostomoid metacercariae appear to be more useful for differentiating clades than those of adults. We describe a new species of Cotylurus Szidat, 1928, resurrect a species of Hysteromorpha Lutz, 1931, and find support for a species of Alaria Schrank, 1788 of contested validity. Complete rDNA operons from seven diplostomoid species are provided as a resource for future studies.",

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author = "Locke, \{Sean A.\} and \{Van Dam\}, Alex and Monica Caffara and \{Alves Pinto\}, Hudson and Danimar Lopez-Hernandez and Christopher Blanar",

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AU - Locke, Sean A.

AU - Van Dam, Alex

AU - Caffara, Monica

AU - Alves Pinto, Hudson

AU - Lopez-Hernandez, Danimar

AU - Blanar, Christopher

PY - 2018/11

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N2 - Higher systematics within the Digenea, Carus 1863 have been relatively stable since a phylogenetic analysis of partial nuclear ribosomal markers (rDNA) led to the erection of the Diplostomida Olson, Cribb, Tkach, Bray, and Littlewood, 2003. However, recent mitochondrial (mt) genome phylogenies suggest this order might be paraphyletic. These analyses show members of two diplostomidan superfamilies are more closely related to the Plagiorchiida La Rue, 1957 than to other members of the Diplostomida. A recent phylogeny based on partial cytochrome c oxidase I also indicates one of the groups implicated, the Diplostomoidea Poirier, 1886, is non-monophyletic. To determine if these results were robust to additional taxon sampling, we analyzed mt genomes from seven diplostomoids in three families. To choose between phylogenetic alternatives based on mt genomes and the prior rDNA-based topology, we analyzed hundreds of ultra-conserved genomic elements assembled from shotgun sequencing. The Diplostomida was paraphyletic in the mt genome phylogeny but supported in the ultra-conserved genomic element phylogeny. We speculate this mitonuclear discordance is related to ancient, rapid radiation in the Digenea. Both ultra-conserved genomic elements and mt genomes support the monophyly of the Diplostomoidea and show congruent relationships within it. The Cyathocotylidae Mühling, 1898 are early diverging descendants of a paraphyletic clade of Diplostomidae Poirier, 1886, in which are nested members of the Strigeidae Railliet, 1919; the results support prior suggestions that the Crassiphialinae Sudarikov, 1960 will rise to the family level. Morphological traits of diplostomoid metacercariae appear to be more useful for differentiating clades than those of adults. We describe a new species of Cotylurus Szidat, 1928, resurrect a species of Hysteromorpha Lutz, 1931, and find support for a species of Alaria Schrank, 1788 of contested validity. Complete rDNA operons from seven diplostomoid species are provided as a resource for future studies.

AB - Higher systematics within the Digenea, Carus 1863 have been relatively stable since a phylogenetic analysis of partial nuclear ribosomal markers (rDNA) led to the erection of the Diplostomida Olson, Cribb, Tkach, Bray, and Littlewood, 2003. However, recent mitochondrial (mt) genome phylogenies suggest this order might be paraphyletic. These analyses show members of two diplostomidan superfamilies are more closely related to the Plagiorchiida La Rue, 1957 than to other members of the Diplostomida. A recent phylogeny based on partial cytochrome c oxidase I also indicates one of the groups implicated, the Diplostomoidea Poirier, 1886, is non-monophyletic. To determine if these results were robust to additional taxon sampling, we analyzed mt genomes from seven diplostomoids in three families. To choose between phylogenetic alternatives based on mt genomes and the prior rDNA-based topology, we analyzed hundreds of ultra-conserved genomic elements assembled from shotgun sequencing. The Diplostomida was paraphyletic in the mt genome phylogeny but supported in the ultra-conserved genomic element phylogeny. We speculate this mitonuclear discordance is related to ancient, rapid radiation in the Digenea. Both ultra-conserved genomic elements and mt genomes support the monophyly of the Diplostomoidea and show congruent relationships within it. The Cyathocotylidae Mühling, 1898 are early diverging descendants of a paraphyletic clade of Diplostomidae Poirier, 1886, in which are nested members of the Strigeidae Railliet, 1919; the results support prior suggestions that the Crassiphialinae Sudarikov, 1960 will rise to the family level. Morphological traits of diplostomoid metacercariae appear to be more useful for differentiating clades than those of adults. We describe a new species of Cotylurus Szidat, 1928, resurrect a species of Hysteromorpha Lutz, 1931, and find support for a species of Alaria Schrank, 1788 of contested validity. Complete rDNA operons from seven diplostomoid species are provided as a resource for future studies.

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Validity of the Diplostomoidea and Diplostomida (Digenea, Platyhelminthes) Upheld in Phylogenomic Analysis

Abstract

Bibliographical note

Funding

ASJC Scopus Subject Areas

Keywords

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