David Ouvrard scite author profile

A revised classification for the world jumping plant-lice (Hemiptera: Psylloidea) is presented comprising all published family and genus-group names. The new classification consists of eight families: Aphalaridae, Carsidaridae, Calophyidae, Homotomidae, Liviidae, Phacopteronidae, Psyllidae and Triozidae. The Aphalaridae, Liviidae and Psyllidae are redefined, 20 family-group names as well as 28 genus-group names are synonymised, and one replacement name is proposed [Sureaca nomen nov., for Acaerus Loginova, 1976]. Forty two new species combinations are proposed resulting from new genus-group synonymies and a replacement name. One subfamily and three genera are considered taxa incertae sedis, and one genus a nomen dubium. Finally eight unavailable names are listed ( one family-group and seven genus-group names).

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Resolving the psyllid tree of life: phylogenomic analyses of the superfamily Psylloidea (Hemiptera)

Percy

Crampton‐Platt

Sveinsson

et al. 2018

Systematic Entomology

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Understanding evolutionary relationships in the superfamily Psylloidea is challenging due to the lack of clear morphological synapomorphies for many groups. Some families and many of the genera, including the two largest, Cacopsylla Ossiannilsson and Trioza Foerster, have long been acknowledged as nonmonophyletic and the circumscription of natural groups has remained fluid. We present the best phylogenetic hypothesis to date for Psylloidea and provide a working systematic framework to better reflect evolutionary relationships. A shotgun sequencing approach using mixed pool DNAs for more than 400 species resulted in recovery from de novo assemblies of near-complete mitogenomes (≥10 kb) for 359 species, and partial genomes (5-10 kb) for an additional 40 species. The resulting phylogeny improves and clarifies the family classification and resolves some of the longstanding uncertainties in relationships within and between genera. A whole-nuclear-genome scan approach (yielding data from an estimated 373 nuclear genes) using the anchored hybrid enrichment method for a representative subset of taxa confirms the placement of major groupings and overall tree topology recovered with the mitochondrial data. The data generated represent a major increase in molecular resources for this superfamily. In addition, we highlight areas of remaining uncertainty that require further sampling and/or additional sources of data. The phylogeny provides new insights for both evolutionary and applied research, and a backbone constraint tree allows the placement of taxa of particular interest or concern (e.g. pest taxa) with only small fragments of sequence available (e.g. DNA barcodes).

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Psyllid Host-Plants (Hemiptera: Psylloidea): Resolving a Semantic Problem

Burckhardt

Ouvrard

Queiroz

et al. 2014

Florida Entomologist

137

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18S rRNA Secondary Structure and Phylogenetic Position of Peloridiidae (Insecta, Hemiptera)

Ouvrard

Campbell

Bourgoin

et al. 2000

Molecular Phylogenetics and Evolution

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An updated classification of the jumping plant-lice (Hemiptera: Psylloidea) integrating molecular and morphological evidence

Burckhardt

Ouvrard

Percy

2021

EJT

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The classification of the superfamily Psylloidea is revised to incorporate findings from recent molecular studies, and to integrate a reassessment of monophyla primarily based on molecular data with morphological evidence and previous classifications. We incorporate a reinterpretation of relevant morphology in the light of the molecular findings and discuss conflicts with respect to different data sources and sampling strategies. Seven families are recognised of which four (Calophyidae, Carsidaridae, Mastigimatidae and Triozidae) are strongly supported, and three (Aphalaridae, Liviidae and Psyllidae) weakly or moderately supported. Although the revised classification is mostly similar to those recognised by recent authors, there are some notable differences, such as Diaphorina and Katacephala which are transferred from Liviidae to Psyllidae. Five new subfamilies and one new genus are described, and one secondary homonym is replaced by a new species name. A new or revised status is proposed for one family, four subfamilies, four tribes, seven subtribes and five genera. One tribe and eight genera / subgenera are synonymised, and 32 new and six revised species combinations are proposed. All recognised genera of Psylloidea (extant and fossil) are assigned to family level taxa, except for one which is considered a nomen dubium.

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David Ouvrard

A revised classification of the jumping plant-lice (Hemiptera: Psylloidea)

Resolving the psyllid tree of life: phylogenomic analyses of the superfamily Psylloidea (Hemiptera)

Psyllid Host-Plants (Hemiptera: Psylloidea): Resolving a Semantic Problem

18S rRNA Secondary Structure and Phylogenetic Position of Peloridiidae (Insecta, Hemiptera)

An updated classification of the jumping plant-lice (Hemiptera: Psylloidea) integrating molecular and morphological evidence

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