Phylogeny of the suborder Psocomorpha: congruence and incongruence between morphology and molecular data (Insecta: Psocodea: ‘Psocoptera’)

@article{Yoshizawa2014PhylogenyOT,
  title={Phylogeny of the suborder Psocomorpha: congruence and incongruence between morphology and molecular data (Insecta: Psocodea: ‘Psocoptera’)},
  author={Kazunori Yoshizawa and Kevin P. Johnson},
  journal={Zoological Journal of the Linnean Society},
  year={2014},
  volume={171},
  pages={716-731}
}
The largest suborder of bark lice (Insecta: Psocodea: ‘Psocoptera’) is Psocomorpha, which includes over 3600 described species. We estimated the phylogeny of this major group with family-level taxon sampling using multiple gene markers, including both nuclear and mitochondrial ribosomal RNA and protein-coding genes. Monophyly of the suborder was strongly supported, and monophyly of three of four previously recognized infraorders (Caeciliusetae, Epipsocetae, and Psocetae) was also strongly… 
Systematic Position of the Enigmatic Psocid Family Lesneiidae (Insecta: Psocodea: Psocomorpha), With Description of Two New Species
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The systematic placement of an enigmatic psocid family restricted to Africa, Lesneiidae, was estimated by using a multiple gene data set and the relationships among these (sub)families and LesneIidae were ambiguous or questionable, showing the necessity of further investigations for elucidating their relationships and validating the status of these families.
Catalogue of Psocoptera (Insecta: Psocodea) types housed in the collection of the Museu de Zoologia da Universidade de São Paulo
TLDR
The taxa are presented alphabetically by suborders, infraorders, families, subfamilies, tribes and genera, followed by species (updated to the valid name), bibliographic citation, type category, description of the type condition with collection number and method of preservation.
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To understand the evolution of the gene arrangement of the mitochondrial genome within Psocomorpha and its phylogenetic implications, the mitochondrial genomes of 33 species of bark lice belonging to nine families in two infraorders were assembled and analysed.
Phylogenetic relationships of the genera of Ptiloneuridae (Psocodea, 'Psocoptera', Epipsocetae) and a test on the monophyly of Brasineura Silva-Neto & García Aldrete and Loneuroides García Aldrete.
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The phylogenetic relationships of the genera of Ptiloneuridae were inferred on the basis of morphological characters of adult specimens and a correction of nomenclature for the parts of the phallosome in Brasineura was made.
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TLDR
New psocid specimens from five amber-bearing outcrops in Spain that are Albian in age are presented and a new species is described, Libanoglaris hespericus sp.
Descriptions and records of Cladiopsocidae and Dolabellopsocidae (Insecta: Psocodea: 'Psocoptera') from Valle del Cauca and National Natural Park Gorgona, Colombia.
TLDR
The description of the nine new species from Valle del Cauca and NNP Gorgona, the new records for Colombia and identification keys to the neotropical species of both families are presented.
Multiple trans-Beringia dispersals of the barklouse genus Trichadenotecnum (Insecta: Psocodea: Psocidae)
TLDR
The distributional pattern of the barklouse genus Trichadenotecnum is an example of an Arcto-Tertiary relict, with centers of species diversity in Asia and Central America, and the formation of two disjunct centers of diversity can be explained by the restriction of distributional areas to temperate refugia during the Quaternary glaciations.
Phylogenomics of parasitic and non-parasitic lice (Insecta: Psocodea): Combining sequence data and Exploring compositional bias solutions in Next Generation Datasets.
TLDR
A phylogenomic analysis on the order Psocodea utilizing both transcriptome and genome sequencing and a dating analysis, with internal nodes calibrated by fossil evidence, suggests an origin of parasitism that predates the K-Pg boundary, allowing a stable ordinal level classification scheme to be proposed.
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References

SHOWING 1-10 OF 58 REFERENCES
Molecular systematics of the suborder Trogiomorpha (Insecta: Psocodea: ‘Psocoptera’)
TLDR
A new classification scheme for the Trogiomorpha is proposed, based on sequence data and morphological observations, and character states previously used to diagnose Psocathropetae are shown to be plesiomorphic.
Phylogeny and higher classification of suborder Psocomorpha (Insecta: Psocodea: 'Psocoptera')
TLDR
Based on the results of the cladistic analysis, a higher classification for Psocomorpha is proposed and six infraorders (two new − Archipsocetae, HemipsOCetae − and the four aforementioned) are recognized.
Molecular systematics of the bark lice infraorder Caeciliusetae (Insecta: Psocodea)
TLDR
A new classification is proposed for the infraorder Caeciliusetae, recognizing six families that will stabilize the higher‐level taxonomy of this group and help to identify groups in need of further work among these insects.
Phylogenetic relationships of the genera of Epipsocetae (Psocoptera: Psocomorpha)
TLDR
The phylogenetic relationships of the genera of Epipsocetae were inferred on the basis of 122 morphological characters of adult specimens, corroborating the monophyly of the group with ten synapomorphies and indicating that Cladiopsocidae is paraphyletic.
Molecular systematics of Psocomorpha (Psocoptera)
TLDR
The phylogenetic relationships within the suborder Psocomorpha were investigated using DNA sequences from the nuclear 18S and mitochondrial 16S, 12S and cytochrome oxidase I genes and found no evidence that Hemipsocidae should be removed from Psocetae.
How stable is the "Polyphyly of Lice" hypothesis (Insecta: Psocodea)?: a comparison of phylogenetic signal in multiple genes.
Morphology of male genitalia in lice and their relatives and phylogenetic implications
TLDR
This is the first study to provide morphological support for the polyphyly of lice and relatives based on morphological characters that are independent from the selective pressures of a parasitic lifestyle.
Multiple origins of parasitism in lice
TLDR
It is inferred that parasitism of vertebrates arose twice independently within Psocodea,once in the common ancestor of Amblycera and once in theCommon ancestor of all other parasitic lice.
Goodbye Halteria? The thoracic morphology of Endopterygota (Insecta) and its phylogenetic implications
TLDR
The phylogenetic reconstruction using characters of the thorax is impeded by functional constraints, parallel losses, a general trend to reinforce the skeleton and to simplify the muscular apparatus, and also by different specializations occurring in potential outgroup taxa.
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