TY - JOUR T1 - Lightella neohaematopini: A new lineage of highly reduced endosymbionts coevolving with chipmunk lice of the genus Neohaematopinus JF - Frontiers in Microbiology Y1 - 2022 DO - 10.3389/fmicb.2022.900312 A1 - Jana Říhová A1 - Kayce C. Bell A1 - Eva Nováková A1 - Václav Hypša SP - 16 pp KW - coevolution KW - genome evolution KW - insect symbionts KW - lice KW - symbiosis AB -

Sucking lice (Anoplura) are known to have established symbiotic associations multiple times with different groups of bacteria as diverse as Enterobacteriales, Legionellales, and Neisseriales. This diversity, together with absence of a common coevolving symbiont (such as Buchnera, in aphids), indicates that sucking lice underwent a series of symbiont acquisitions, losses, and replacements. To better understand evolution and significance of louse symbionts, genomic and phylogenetic data are needed from a broader taxonomic diversity of lice and their symbiotic bacteria. In this study, we extend the known spectrum of the louse symbionts with a new lineage associated with Neohaematopinus pacificus, a louse species that commonly parasitizes North American chipmunks. The recent coevolutionary analysis showed that rather than a single species, these lice form a cluster of unique phylogenetic lineages specific to separate chipmunk species (or group of closely related species). Using metagenomic assemblies, we show that the lice harbor a bacterium which mirrors their phylogeny and displays traits typical for obligate mutualists. Phylogenetic analyses place this bacterium within Enterobacteriaceae on a long branch related to another louse symbiont, “Candidatus Puchtella pedicinophila.” We propose for this symbiotic lineage the name “Candidatus Lightella neohaematopini.” Based on the reconstruction of metabolic pathways, we suggest that like other louse symbionts, L. neohaematopini provides its host with at least some B vitamins. In addition, several samples harbored another symbiotic bacterium phylogenetically affiliated with the Neisseriales-related symbionts described previously from the lice Polyplax serrata and Hoplopleura acanthopus. Characterizing these bacteria further extend the known diversity of the symbiotic associations in lice and show unique complexity and dynamics of the system.

VL - 13 UR - https://www.frontiersin.org/articles/10.3389/fmicb.2022.900312/full IS - 900312 ER - TY - THES T1 - A standardized pipeline for isolation and assembly of genomes from symbiotic bacteria in whole louse genomic sequence data T2 - Bioinformatics Y1 - 2023 A1 - Mohammad Mikail Bala SP - 51 pp KW - Columbicola eowilsoni KW - Columbicola koopae KW - Columbicola masoni AB -

Many insects are known to harbour intracellular and heritable bacteria (endosymbionts), which provide their hosts with adaptive traits. Whole insect gDNA shotgun sequencing projects often sequence the genome of endosymbiont, in addition to the insect’s genome. There are approximately 600 whole genome shotgun libraries from insects available on the public repository (NCBI), which can be mined to obtain endosymbiont genomes. The assembly and annotation of endosymbiont genomes can contribute towards the exploration of their role as obligate symbiotic partners. However, de novo assembly of an endosymbiont genome, continues to be challenging, when the host and/or enteric bacterial gDNA is present in the library as well. So far, whole genome sequence data has been mined by investigators, who manually interrogate the data at multiple steps, a process that is time consuming and difficult to replicate. Here I developed and evaluated a novel strategy that reduces intervention required by the researcher. The strategy consists of two steps: 1) filtering of de novo assembled endosymbiont contigs using Blastn search against a custom reference database and 2) reconstruction of the genome through de novo assembly of reads associated with filtered contigs. Illumina HiSeq libraries were simulated in silico and the pipeline was deployed using the simulated data to test the efficacy of the method. The mean endosymbiont genome recovery from simulated data was 91.27% with a range of 100%-76%. When the method was tested with “real” whole louse shotgun sequencing libraries obtained from a public repository, the results were mixed. The strategy was accurate in contig selection when the louse contained an endosymbiont which had a small genome enriched for AT bases, with a mean percent genome recovery of 98.38% and the range of 100% - 95.88%. However, in other cases involving symbionts with larger genomes, the resulting genomes appeared to be incomplete and require further evaluation.

JF - Bioinformatics PB - Virginia Commonwealth University CY - Richmond, Virginia VL - Master of Science UR - https://scholarscompass.vcu.edu/etd/7213/ ER - TY - JOUR T1 - Evidencia parasitológica sobre la fdogenia de los homínidos y los cébidos JF - Revista de Biología Tropical Y1 - 1996 A1 - Retana-Salazar,Axel P. SP - 391 EP - 394 KW - cladism KW - coevolution KW - lice KW - parasites KW - systematics AB -

Una revisión sistemática de los ectoparásitos piojos de los hominoideos y los ceboideos apoya a la hipótesis filogenética "Troglodita" de los primates, según la cual Horno es el grupo hermano de Pan y Gorilla el grupo hermano de ambos. El análisis filogénetico de la matriz obtenida con los piojos de los primates muestra un C.I. = 0.71, para la hipótesis troglodita, incluyendo en el análisis a los ceboideos.

A systematic revision of the ectoparasites (lice) of the hominoids and ceboids supports the Trogloditian hypothesis, according to which .the genus Homo is the sister group of Pan, and the genus Gorilla the sister group of both. The phylogenetic analysis of this matrix derived from the study of primate lice shows an C.I. of 0 .71 for the Trogloditian hypothesis including the ceboids in the analisis

https://tropicalstudies.org/rbt/attachments/volumes/vol44-2A/07_Retana_Filogenia.pdf

VL - 44 UR - http://revistas.ucr.ac.cr/index.php/rbt/article/view/21624 IS - 2 ER - TY - JOUR T1 - Phylogenomics from low‐coverage whole‐genome sequencing JF - Methods in Ecology and Evolution Y1 - 2019 DO - 10.1111/2041-210X.13145 A1 - Feng Zhang A1 - Yinhuan Ding A1 - Chao‐Dong Zhu A1 - Xin Zhou A1 - Michael C. Orr A1 - Stefan Scheu A1 - Yun‐Xia Luan SP - 507 EP - 517 KW - desktop PC KW - genome assembly KW - hybrid enrichment KW - single-copy orthologs KW - ultraconserved elements AB -

1.Phylogenetic studies are increasingly reliant on next‐generation sequencing (NGS). Transcriptomic and hybrid‐enrichment sequencing techniques remain the most prevalent methods for phylogenomic data collection due to their relatively low demands for computing powers and sequencing prices, compared to whole genome shotgun sequencing (WGS). However, the transcriptome‐based method is constrained by the availability of fresh materials and hybrid enrichment is limited by genomic resources necessary in probe designs, especially for non‐model organisms.

2. We present a novel WGS‐based pipeline for extracting essential phylogenomic markers through rapid de novo genome assembling from low‐coverage genome data, employing a series of computationally efficient bioinformatic tools. We tested the pipeline on a Hexapoda dataset and a more focused Phthiraptera dataset (genome sizes 0.1–2 Gbp), and further investigated the effects of sequencing depth on target assembly success rate based on raw data of six insect genomes (0.1–1 Gbp).

3. Each genome assembly was completed in 2–24 hours on desktop PCs. We extracted 872–1,615 near‐universal single‐copy orthologs (BUSCOs) per species. This method also enables development of ultraconserved element (UCE) probe sets; we generated probes for Phthiraptera based on our WGS assemblies, containing 55,030 baits targeting 2,832 loci, from which we extracted 2,125–2,272 UCEs. Resulting phylogenetic trees all agreed with currently‐accepted topologies, indicating that markers produced in our methods were valid for phylogenomic studies. We also showed that 10–20× sequencing coverage was sufficient to produce hundreds to thousands of targeted loci from BUSCO sets, and even lower coverage (5×) was required for UCEs.

4. Our study demonstrates the feasibility of conducting phylogenomics from low‐coverage WGS for a wide range of organisms without reference genomes. This new approach has major advantages in data collection, particularly in reducing sequencing cost and computing consumption, while expanding loci choices.

VL - 10 UR - https://besjournals.onlinelibrary.wiley.com/doi/epdf/10.1111/2041-210X.13145 IS - 4 JO - Methods Ecol Evol ER - TY - JOUR T1 - Apes, lice and prehistory JF - Journal of Biology Y1 - 2009 DO - 10.1186/jbiol114 A1 - Robin A Weiss SP - 8 pp AB -

Although most epidemic human infectious diseases are caused by recently introduced pathogens, cospeciation of parasite and host is commonplace for endemic infections. Occasional host infidelity, however, provides the endemic parasite with an opportunity to survive the potential extinction of its host. Such infidelity may account for the survival of certain types of human lice, and it is currently exemplified by viruses such as HIV.


VL - 8 UR - http://jbiol.biomedcentral.com/articles/10.1186/jbiol114 IS - 20 JO - J BiolJournal of Biology ER - TY - JOUR T1 - Phylogeny of the lice (Insecta: Phthiraptera) inferred from small subunit rRNA JF - Zoologica Scripta Y1 - 2003 A1 - Stephen C. Barker A1 - Michael F. Whiting A1 - Kevin P. Johnson A1 - Murrell,Anna SP - 407 EP - 414 AB -

There has been much argument about the phylogenetic relationships of the four suborders of lice (Insecta: Phthiraptera). Lyal's study of the morphology of lice indicated that chewing/biting lice (Mallophaga) are paraphyletic with respect to sucking lice (Anoplura). To test this hypothesis we inferred the phylogeny of 33 species of lice from small subunit (SSU) rRNA sequences (18S rRNA). Liposcelis sp. from the Liposcelididae (Psocoptera) was used for outgroup reference. Phylogenetic relationships among the four suborders of lice inferred from these sequences were the same as those inferred from morphology. The Amblycera is apparently the sister-group to all other lice whereas the Rhynchophthirina is apparently sister to the Anoplura; these two suborders are sister to the Ischnocera, i.e. (Amblycera (Ischnocera (Anoplura, Rhynchophthirina))). Thus, the Mallophaga (Amblycera, Ischnocera, Rhynchophthirina) is apparently paraphyletic with respect to the Anoplura. Our analyses also provide evidence that: (i) each of the three suborders of lice that are well represented in our study (the Amblycera, Ischnocera, and Anoplura) are monophyletic; (ii) the Boopiidae is monophyletic; (iii) the genera Heterodoxus and Latumcephalum (Boopiidae) are more closely related to one another than either is to the genus Boopia (also Boopiidae); (iv) the Ricinidae and Laemobothridae may be sister-taxa; (v) the Philopteridae may be paraphyletic with respect to the Trichodectidae; (vi) the genera Pediculus and Pthirus are more closely related to each other than either is to the genus Pedicinus; and (vii) in contrast to published data for mitochondrial genes, the rates of nucleotide substitution in the SSU rRNA of lice are not higher than those of other insects, nor do substitution rates in the suborders differ substantially from one another.

VL - 32 UR - http://phthiraptera.info/sites/phthiraptera.info/files/42823pdf.pdf IS - 3 ER - TY - JOUR T1 - Phthiriasis in Primates: a sidelight on phylogeny JF - Proceedings of the Royal Society of Medicine Y1 - 1929 A1 - Wigglesworth,V. B. SP - 829 EP - 830 KW - Gert KW - Pedicinus KW - Pediculus KW - Phylogeny KW - Primates KW - Pthirus VL - 22 UR - http://phthiraptera.info/sites/phthiraptera.info/files/43188.pdf N1 - 101 ER - TY - JOUR T1 - Eyes in the Siphunculata JF - Proceedings of the Zoological Society of London Y1 - 1948 A1 - Webb,J. E. SP - 575 EP - 577 KW - Antarctophthirus KW - Augen KW - Haematomyzus KW - Haematopinus KW - Hybophthirus KW - Lepidophthirus KW - Linognathus KW - Microthoracius KW - Pecaroecus KW - Pedicinus KW - Pediculus KW - Pthirus KW - Solenopotes KW - Troester VL - 118 UR - http://phthiraptera.info/sites/phthiraptera.info/files/43117.pdf N1 - 218, 1 fig., 1 pls. ER - TY - JOUR T1 - Anoplura from British Columbia and some adjacent areas JF - Journal of the Entomological Society of British Columbia Y1 - 1966 A1 - Spencer,George J. SP - 23 EP - 90 KW - Antarctophthirus KW - arboricola KW - Artiodactyla KW - Carnivora KW - Echinophthirius horridus KW - Fahrenholzia KW - ferrisi KW - Haematopinus KW - Haemodipsus ventricosus KW - Hesperomydis KW - Hoplopleura acanthopus KW - host list KW - humanus humanus KW - Insectivora KW - Lagomorpha KW - Linognathus pedalis KW - marmotae KW - Microphthirus uncinatus KW - Neohaematopinus inornatus KW - North America KW - oenomydis KW - Pedicinus eurygaster KW - Pediculus humanus capitis KW - Perissodactyla KW - Pinnipedia KW - Polyplax KW - Primates KW - Proechinophthirius KW - Pthirus pubis KW - rodentia KW - sciuricola KW - sciurinus KW - sciuropteri KW - setosus KW - Solenopotes KW - stenopsis KW - suis KW - Troester VL - 63 UR - http://www.phthiraptera.info/sites/phthiraptera.info/files/41484.pdf N1 - 881 ER - TY - JOUR T1 - The hatching of Insects from the egg, and the appearance of air in the tracheal system JF - Quarterly Journal of Microscopial Science Y1 - 1931 A1 - Sikes,Enid K. A1 - Wigglesworth,V. B. SP - 165 EP - 192 KW - development KW - egg KW - Haematopinus KW - larva KW - Pedicinus KW - Pediculus KW - Polyplax KW - Pthirus KW - Tracheensystem KW - Troester VL - 74 UR - http://phthiraptera.info/sites/phthiraptera.info/files/42951.pdf N1 - 179, 8 figs. ER - TY - JOUR T1 - Die Embryologie der Anopluren und Mallophagen JF - Zeitschrift für Parasitenkunde Y1 - 1937 A1 - Schölzel,G. SP - 730 EP - 770 KW - development KW - egg KW - Haematopinus KW - head KW - histology KW - larva KW - Linognathus KW - Mundwerkzeuge KW - Pedicinus KW - Pediculus KW - Pthirus KW - Troester VL - 9 UR - http://phthiraptera.info/sites/phthiraptera.info/files/42926.pdf N1 - 638 ER - TY - JOUR T1 - Über die Bedeutung der äußeren Parasiten für die Phylogenie der Säugetiere und des Menschen JF - Zeit. f. Morphol. Anthropol. Y1 - 1915 A1 - Schwalbe,G. SP - 585 EP - 590 KW - Mallophaga KW - parasitophyletic KW - Pedicinus KW - Pediculus KW - Primates KW - Troester VL - 17 N1 - 1071 ER - TY - JOUR T1 - Die Symbiose der Läuse und Federlinge JF - Zeitschrift für Morphologie und Ökologie der Tiere Y1 - 1931 A1 - Ries,Erich SP - 233 EP - 367 KW - anatomy KW - Haematomyzus KW - Haematopinus KW - Haemodipsus KW - histology KW - Hoplopleura KW - Linognathus KW - Mallophaga KW - Pedicinus KW - Pediculus KW - Polyplax KW - Pthirus KW - Symbiose KW - Systematik KW - Troester VL - 20 UR - http://phthiraptera.info/sites/phthiraptera.info/files/42864.pdf IS - 2 N1 - 290 ER - TY - JOUR T1 - Beobachtungen der Arten von Pediculus JF - Zeit. Ges. Naturwiss. Y1 - 1864 A1 - Nitzsch,Christian Ludwig SP - 21 EP - 32 KW - Artiodactyla KW - Carnivora KW - Europe KW - Haematopinus KW - Haemodipsus lyriocephalus KW - Hoplopleura KW - Insectivora KW - Lagomorpha KW - Linognathus setosus vituli stenopsis KW - Pedicinus eurygaster KW - Pediculus humanus KW - Perissodactyla KW - Polyplax reclinata KW - polyplax serrata KW - Polyplax spinigera KW - Primates KW - rodentia KW - Troester VL - 23 UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/42712-BHL.pdf N1 - 583 ER - TY - JOUR T1 - Studien über Mallophagen und Anopluren JF - Arkiv für Zoologi Y1 - 1910 DO - http://dx.doi.org/10.5962/bhl.part.26907 A1 - Mjöberg,Erik SP - 1 EP - 296 KW - Acanthopinus KW - Anoplura KW - Antarctophthirus KW - Arctophthirus KW - Artiodactyla KW - asini KW - atax KW - Echinophthirius horridus KW - Enderleinellus KW - Gazella KW - Haematomyzus KW - Haematopinus KW - Haemodipsus lyriocephalus KW - Hamadryas KW - Hoplopleura acanthopus KW - Lagomorpha KW - Linognathus setosus angulatus KW - mtax KW - n.gen. KW - n.sp. KW - neohaematopinus KW - Neohaematopinus laeviusculus KW - Pedicinus KW - Pediculus humanus mjoebergi KW - Perissodactyla KW - PHP KW - Polyplax KW - Primates KW - Proboscidea KW - Pthirus pubis KW - sciurinus KW - suis KW - systematic KW - Troester KW - viceps stenopsis VL - 6 UR - https://www.biodiversitylibrary.org/part/26907 IS - 13 N1 - a; 073 U2 - pdf ER - TY - JOUR T1 - Lice from foreign mammals in Danish collections JF - Entomologiske Meddelelser Y1 - 1937 A1 - Maltbaek,J. SP - 20 EP - 21 KW - Antarctophthirus KW - Haematopinus suis KW - leptocephalus KW - Pedicinus eurygaster KW - Pediculus humanus humanus KW - Polyplax KW - Prolinognathus KW - Troester VL - 20 UR - http://www.phthiraptera.info/sites/phthiraptera.info/files/5873.pdf IS - 1 N1 - c; 046 U2 - pdf ER - TY - CONF T1 - The lice of primates T2 - Third International Congress of Parasitology Y1 - 1974 A1 - Ludwig,Herbert Wolfgang SP - Section C3 (1) KW - Docophthirus KW - Lemurpediculus KW - Lemurphthirus KW - parasitophyletic KW - Pedicinus KW - Pediculus humanus mjoebergi KW - Phthirpediculus KW - Phylogeny KW - Primates KW - Pthirus gorillae KW - Sathrax KW - Troester KW - Wirtsspezifität KW - Wirtswechsel JF - Third International Congress of Parasitology VL - Münich N1 - Ablage 1050 ER - TY - CHAP T1 - Parasites and the Phylogeny of the Catarrhine Primates T2 - Taxonomy and phylogeny of old world Primates with refernces to the origin of man Y1 - 1968 A1 - Kuhn,Hans-Jürg ED - Chiarelli,B. KW - parasitophyletic KW - Pedicinus KW - Pediculus KW - Phylogeny KW - Primates KW - Pthirus KW - Troester KW - Wirtsspezifität KW - Wirtswechsel JF - Taxonomy and phylogeny of old world Primates with refernces to the origin of man PB - Rosenberg & Sellier CY - Torino N1 - 590; Taxonomy and phylogeny of old world Primates with refernces to the origin of man. ER - TY - JOUR T1 - Ecto-parasites of the monkeys, apes and man. JF - Science Y1 - 1913 A1 - Kellogg,Vernon Lyman SP - 601 EP - 602 KW - Pedicinus KW - Pediculus KW - Primates KW - Pthirus KW - Troester VL - 38 UR - http://www.phthiraptera.info/sites/phthiraptera.info/files/5654.pdf N1 - 640 U2 - pdf ER - TY - JOUR T1 - A note on Australien Pediculids JF - Proceedings of the Royal Society of Queensland Y1 - 1913 A1 - T. Harvey Johnston A1 - Harrison,Launcelot J. S. SP - 105 EP - 109 KW - Artiodactyla KW - Carnivora KW - Haematopinus suis KW - Haemodipsus ventricosus KW - Lagomorpha KW - Linognathus setosus vituli ovillus KW - Pedicinus eurygaster KW - Pediculus humanus KW - Perissodactyla KW - Polyplax KW - Polyplax spinulosa KW - Pthirus pubis KW - rodentia KW - Troester VL - 24 UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/5619.pdf N1 - 066 U2 - pdf ER - TY - CHAP T1 - Liste des hôtes et de leurs parasites T2 - Recherches de parasitologie comparée Indochinoise Y1 - 1938 A1 - Houdemer,T. E. ED - Bussière,R. SP - 163, 177 EP - 191 KW - Asia KW - Haematomyzus KW - Haematopinus KW - Pedicinus KW - Pediculus humanus KW - Polyplax KW - Troester JF - Recherches de parasitologie comparée Indochinoise CY - Paris N1 - 1186; Recherches de parasitologie comparée Indochinoise ER - TY - CHAP T1 - Dicères épizioques T2 - Histoire naturelle des Insectes. Aptères Tomb 3 Y1 - 1844 A1 - Gervais,François Louis Paul ED - Walckenaer,Charles Athanase Baron de SP - 290 EP - 361 KW - asini KW - Echinophthirius horridus KW - Enderleinellus nitzschi KW - Haematopinus eurysternus KW - Haemodipsus lyriocephalus KW - Haemodipsus ventricosus KW - Hoplopleura acanthopus KW - Linognathus setosus KW - Microthoracius cameli KW - Pedicinus eurygaster KW - Pediculus humanus KW - Polyplax spinulosa KW - Prolinognathus KW - Pthirus pubis KW - serrata KW - Solenopotes KW - spiculifer KW - spinigera KW - stenopsis KW - suis KW - Troester KW - Umfassende JF - Histoire naturelle des Insectes. Aptères Tomb 3 PB - Librairie Encyclopédique de Roret CY - Paris VL - Aptères III; VIII; III+IV (incl Atlas) UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/42212-BHL.pdf N1 - 537; Histoire naturelle des Insectes. The url provided is linked to page 313 & 314 of volume 3 of the book found in the Biodiversity Heritage Library ER - TY - JOUR T1 - Läusestudie V. Die Kaudalregion der weiblichen Läuse JF - Prag. Arch. Tiermed. Y1 - 1924 A1 - Ludwig Freund SP - 39 EP - 71 KW - abdomen KW - Antarctophthirus KW - Enderleinellus KW - genitalia KW - Haematopinus KW - Hoplopleura KW - Lepidophthirus KW - Linognathus KW - Morphologie allg. KW - neohaematopinus KW - Pedicinus KW - Pediculus KW - Polyplax KW - Pthirus KW - Solenopotes KW - Troester VL - 4 N1 - 736 ER - TY - JOUR T1 - Haarparasiten und Haarbau als Hinweise auf Blutsverwandschaft JF - Sitz. Ber. Ges. Naturforsch. Freunde Y1 - 1909 A1 - Friedenthal,Hans SP - 379 EP - 383 KW - biology KW - ecology KW - egg KW - parasitophyletic KW - Pedicinus KW - Pediculus KW - Primates KW - Pthirus KW - Troester KW - Wirtsspezifität VL - 1909 IS - 7 N1 - 043 ER - TY - JOUR T1 - Bemerkungen zu der Arbeit G. Schwalbes: "Über die Bedeutung der äusseren Parasiten für die Phylogenie der Säugetiere und des Menschen." JF - Zeitschrift für Morphologie und Anthropologie Y1 - 1920 A1 - Fahrenholz,Heinrich SP - 361 EP - 364 (301 KW - Mallophaga KW - parasitophyletic KW - Pedicinus KW - Pediculus KW - Primates KW - Troester VL - 21 UR - http://www.jstor.org/stable/25747835 N1 - 989 ER - TY - JOUR T1 - Beiträge zur Kenntnis der Anopluren JF - Jahresbericht des Niedersächsischen Zoologischen Vereins Y1 - 1912 A1 - Fahrenholz,Heinrich SP - 1 EP - 60 KW - egg KW - Enderleinellus KW - Hoplopleura KW - larva KW - Pedicinus KW - Pediculus KW - Polyplax gracilis KW - system KW - Troester VL - 1910-1912 UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/5341.pdf IS - 2-4 N1 - 030, 23 fig., 3 Tafeln U2 - pdf ER - TY - JOUR T1 - Diagnosen neuer Anopluren. III. JF - Zoologischer Anzeiger Y1 - 1916 A1 - Fahrenholz,Heinrich SP - 87 EP - 93 KW - Artiodactyla KW - Enderleinellus KW - Haematopinus KW - Hoplopleura KW - Linognathus KW - Pedicinus KW - Pediculus KW - Primates KW - rodentia KW - Troester VL - 48 UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/5346.pdf N1 - 1078 U2 - pdf ER - TY - JOUR T1 - Anopluren des Zoologischen Museums zu Hamburg (3. Beitrag zur Kenntnis der Anopluren) JF - Jahrbuch der Hamburgischen Wissenschaftlichen Anstalten Y1 - 1917 A1 - Fahrenholz,Heinrich SP - 1 EP - 22 KW - Haematopinus suis KW - Linognathus coassus (= Solenopotes bivipilosus) KW - Pedicinus obtusus KW - Pediculus humanus capitis KW - Troester VL - 34 UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/42144.pdf N1 - 267, (Beiheft erst 1917) ER - TY - JOUR T1 - The male genital armature in the order Anoplura, or sucking lice JF - Annals of the Entomological Society of America Y1 - 1932 A1 - Ewing,Henry Ellsworth SP - 657 EP - 669 KW - genitalia KW - Pedicinus KW - Pediculus KW - Phthirpediculus KW - Troester VL - 25 UR - http://www.phthiraptera.info/sites/phthiraptera.info/files/5329.pdf IS - 4 N1 - 635 U2 - pdf ER - TY - BOOK T1 - Principali insetti dannosi, utili ed innocui alle piante, agli animali domestici ed all'uomo. 8th. Ed. Y1 - 1953 A1 - Castellani,Omero SP - 95 KW - Haematomyzus KW - Haematopinus KW - Haemodipsus KW - Hoplopleura KW - Linognathus KW - Mallophaga KW - Pedicinus KW - Pthirus KW - Symbiose Pediculus KW - Systematik KW - Troester PB - Fratelli Palombi CY - Rome VL - Basel 1953 N1 - 289; Birkhäuser ER - TY - JOUR T1 - Anoplura (Siphunculata) - Vshi JF - Opredelitel nasekomykh yevropeyskoy tshasti SSSR. Y1 - 1964 A1 - Dimitri Ivanovich Blagoveshtchensky SP - 160 EP - 163 KW - Anoplura KW - Antarctophthirus KW - Artiodactyla. KW - Asien (pal.) KW - Carnivora KW - Echinophthirius KW - Enderleinellus KW - Eulinognathus KW - Europe KW - Gert KW - Haematopinus KW - Haemodipsus KW - Hoplopleura KW - key KW - Lagomorpha KW - Linognathus. Systematik KW - neohaematopinus KW - Pedicinus KW - Pediculus KW - Perissodactyla KW - Pinnipedia KW - Polyplax KW - Primates KW - Pthirus KW - rodentia KW - Schizophthirus KW - Solenopotes VL - 342-334 UR - http://phthiraptera.info/sites/phthiraptera.info/files/41880.pdf N1 - 296 ER - TY - JOUR T1 - Citations d´Anoploures africains JF - Revue de Zoologie et de Botanique Africaines Y1 - 1969 A1 - Benoit,Pierre L. G. SP - 166 EP - 169 KW - Africa KW - Cercopitheci KW - Enderleinellus KW - Gert KW - Hoplopleura KW - Lemurphhtirus galagus KW - Neohaematopinus heliosciuri KW - Pedicinus KW - Pediculus schaeffi KW - Polyplax KW - Primates KW - rodentia KW - stigmosus VL - 80 UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/41858.pdf N1 - 1141 ER - TY - JOUR T1 - Alphabetical list of the hosts of Phthiraptera from the collection of the Institute of Parasitology of the Faculty of Medicine of Paris. JF - Ann. Parasitol. Hum. Comp. Y1 - 1958 A1 - Muhammad Atiqur Rah Ansari SP - 267 EP - 283 KW - acanthopus KW - apri KW - Artiodactyla KW - asini KW - Gert KW - Haematopinus KW - Haemodipsus KW - Hoplopleura KW - humanus KW - Lagomorpha KW - Linognathus KW - lyriocephalus KW - neohaematopinus KW - Pedicinus KW - Pediculus KW - Perissodactyla KW - Polyplax KW - Primates KW - Pthirus KW - Pthirus pubis KW - rodentia KW - Schizophthirus KW - serrata KW - Solenopotes KW - stenopsis KW - suis KW - ventricosus AB -

Publication in French.

French title: Liste alphabétique des hôtes de Phthiraptera de la collection de L´Institute de Parasitologie de la Faculté de Médicine de Paris

VL - 33 UR - http://phthiraptera.info/sites/phthiraptera.info/files/41775.pdf IS - 3 N1 - 126. (Zool. Rec. 95, 102, 1960) ER - TY - BOOK T1 - Phthiraptera (Insecta) T2 - The Arthropod Parasites of Vertebrate in Africa South of the Sahara Y1 - 1980 A1 - Ledger,John A. SP - 327 JF - The Arthropod Parasites of Vertebrate in Africa South of the Sahara PB - South African Institute for Medical Research CY - Johannesburg VL - IV UR - http://www.phthiraptera.info/sites/phthiraptera.info/files/0521-2.pdf N1 - An extensive book on the lice South of the Sahara in Africa. Contents and taxa covered are as follows (n.b. see additional copies of this reference for the louse index A - H and the host index: CONTENTS Cont.: IBIDOECUS, 117, 118+ ibis, Comatomenopon, 32+, 33 icterodes, Anatoecus, 120, 120t ignotum, Colpocephalum, 45, 45t ilmasae, Brueelia, 143 immaculatu:, Penenirmus, 149 impar, Psittacomenopon, 37 imponderabilica, Brueelia, 143 impressum, Colpocephalum, 42 inaequalis, Anatoecus, 120 inaequalis, Felicola (Felicola), 185 inaequalis, Menacanthus, 57 INCIDIFRONS, 94+, I46 incisa, Saemundssonia, 136 incisum, Meromenopon, 53 incisus, Actornithophilus, 76 incoensis, Lunaceps, 168 incompletus, Neophilopterus, 118 incomposita, Piagetiella, 30 inexpectans, Hoplooleura, 213 inexpectans, Neopsittaconirmus gracilis, 160 infans, Austromenopon sternophilum, 74 infans, Longimenopon, 80 insolitus, Craspedorrhyncius, 126 integer, Saemundssonia, 135 intermedia, Hoplopleura, 212t, 213 intermedius, Craspedorrhynchus, 126 intermedius, Felicola (Protelicola), 183, 184t intermedius, Sturnidoecus, 145 invadens, Myrsidea, 64 irritans, Sturnidoecus, 144 ISCHNOCERA, 87 ismailiae, Hoplopleura, 213 isogenos, Goniodes, 102 jonesi, Polyplax, 228, 229t jordani, Aegypoecus, 127 jordani, Procavicola (Meganarionoides), 191 kaiseri, Polyplax, 229 keleri, Ardeicola, 134 keleri, Austrogoniodes, 98 KELERIMENOPON, 49 kelloggi, Laemobothrion (Eulaemobothrion), 83 keniae, Neohaematopinus, 219 keniensis, Ardeicola, 133 keniensis, Myrsidae, 63, 63t kilimandjarensis, Quadraceps, 153 kimi, Linognathus, 242 kivuensis, Goniocotes clayae, 100 kori, Otidoecus, 166 kosswigi, Saemundssonia, 137 kratochvili, Brueelia, 143 kratochvili, Saernundssonia, 139 KURODAIA, 35 LAEMOBOTHRIIDAE, 23, 82 LAEMOBOTHRION, 82 LAGOPOECUS, 175 lahorensis, Philopterus, 123 lais, Brueelia, 143 lamelligeri, Colpocephalum, 39 lanceolatum, Pseudomenopon, 49 lari, Saemundssonia, 139 lata, Hohorstiella, 52 laticaudata, Saemundssonia, 140 laticeps, Felicola (Suricatoecus), 183 laticeps, Hoplopleura, 214 latifrons Buceronirmus, 171 latifrons, Cuculoecus, 125 latifrons, Myrsidea, 62 latirostris, Cuculicola, 171 latus, Haematopinus, 209 c lawrensis, Eulinognathus, 222 lawrensis, Numidilipeurus, 163 legatus, Quadraceps, 159 LEMURPHTHIRUS, 218 LEPIDOPHTHIRUS, 206 leptocephalus, Prolinognathus, 237, 237t leptomelas, Philopterus, 123 leptopygos, Colpocephalum, 41 lerouxi, Damalinia (Tricholipeurus), 200 leucocephala, Brueelia, 142 leucogaster, Craspedorrhynchus, 126 leucoproctus, Ardeicola, 135 leucotis, Turacoeca, 31 leucopleura, Degeeriella, 173 leucoxanthum, Holomenopon, 70 lewisi, Linognathus, 239 liberiae, Felicola (Felicola). 185 limbata, Damalinia (Bovicola), 256 limbatus, Cuculicola, 171 limnotragi, Linognathus, 241 limosae, Actornithophilus, 80 limosae, Austromenopoy 75 limosae, Saemundssoni , 138 limosella, Lunaceps, 169 lindfieldi, Procavicola (Condylocephalus), 192 lineata, Oamalinia (Tricholipeurus), 201 lineatus, Falcolipeurus, 105 lineatus, Quadraceps eugramnicus, 158 lingulatus, Quadraceps punctatus, 157+, 158 LINOGNATHIDAE, 236 LINOGNATHUS, 239 LIPEURUS, 161 lobaticeps, Saemundssonia, 140 lobodontis, Antarctophthirus, 206 lockleyi, Saemundssonia, 139 longicephalus, Anatoecus, 120 longicuneatus, Buceronirmus, 171 LONGIMENOPON, 80 longipes, Kelerimenopon, 50t longipes, Kurodaia, 37 longissimum, Colpocephalum, 40 longum, Gruimenopon, 77 lootensi, Goniodes, 103 lopesi, Amyrsidea, 56 lopesi, Procavicola (Procavicola), 189 lopesi, Sturnideocus, 145 lophiomydis, Eulinognathus, 222 lophocerus, Chapinia, 61 lotus, Quadraceps, 156 lucidum, Nosopon, 51 lucidum, Nosopon lucidum, 52 ludwigfreundi, Trinoton, 60 lugubris, Pseudonirmus, 114+ LUNACEPS, 168 lurida, Fulicoffula, 130 luridum, Trinoton, 60 lusius, Somaphantus, 53 lutescens, Austromenopon, 74 lyallpurensis, Actornithophi lybartota, Neopsittaconirmus lus, 80 , 160 machadoi, Eurytrichodectes, machadoi, Menacanthus, 57 MACHAERILAEMUS, 26+, 46 macilentus, Heleonomus, 76 187 macquariensis, Austrogoniodes, 98 macrocephalus, Anatoecus, 120 macrocephalus, Haematopinus, 251 macrocephalus, Quadraceps, 154 macrorhini, Lepidophthirus, 206, 206+ macrurus, Felicola (Felicola), 184 maculatus, Ardeicola, 134 maculatus, Ricinus, 85 madagascariensis, Austromenopon, 75 magnini, Brueelia, 143 major, Procaviphilus, 195 malleus, Machaerilaemus, 46 maranensis, Cuclotogaster, 168 marginatus, Penenirmus, 149 marina, Saemundssonia, 136 martinaglia, Damalinia (Damalinia), 198 masudi, Menacanthus, 57 matosi, Ciconiphilus, 35 matschieli, Trichodectes (Lutrida), 181 maxbeieri, Holomenopon, 71 maximum, Laemobothrion (Laemobothrion), 83, 83+ medius, Rhynonirmus, 166 meinertzhageni, Carduiceps, 119, 119+ meinertzhageni , Co1 umbicol a mei nertzhageni , 107 meinertzhageni, Cuclotogaster, 167 meinertzhageni, Degeeriella, 173 meinertzhageni, Haematopinus, 208 meinertzhageni, Ricinus, 86 melanocephalus, Saemundssonia, 140 melittoscopus, Craspedorrhynchus, 126 MENACANTHUS, 55, 56 MENOPON, 54 MENOPONIDAE, 23 meridiana, Saemundssonia, 140 meridionalis, Columbicola meinertzhageni, 107 meridionalis, Polyplax, 228 MEROMENOPON, 53 meropis, Meromenopon, 53 meropis, Meropoecus, 140 MEROPOECUS, 140 meyeri, Austromenopon, 74 micrandum, Austromenopon, 75 microsomaticus, Philopterus excisus, 123, 123+, 124+ milvus, Nosopon, 52 MIMEMAMENOPON, 50 minimus, Felicola (Felicola), 185 minor, Dasyonyx (Dasyonyx),'I94 minor. Haematooinus. 208 minor; Saemund;sonia, 137 minuta, Werneckia, 211, 211+ miopitheci, Pedicinus (Neopedicinus), 232 mirabilis, Halipeurus (Halipeurus), 116 mirabilis, Rediella, 81 mirabilis, Trabeculus, 111 mitratus, Syrrhaptoecus, 177 mjoebergi, Clayia, 54 modesta, Hohorstiella, 52 mokeetsi, Procavicola (Procavicola), 188, 188+ monilis, Falcolipeurus, 105 montana, Myrsidea, 64, 64+ moreli, Brueelia, 143 moschatus, Damalinia (Tricholipeurus), 201 moucheti, Clayia, 55 moucheti, Cuclotogaster, 167 moucheti, Goniodes, 102 muesebecki, Procavicola (Meganarionoides), 191 mugimaki, Ricinus, 85 MULCTICOLA, 121 mulleri, Hoplopleura, 214 munda, Brueelia, 142 mungos, Felicola (Suricatoecus), 183 murphyi, Docophoroides, 129 mutabilis, Menacanthus, 57 mylomydis, Hoplopleura, 214 myomyis, Hoplopleura, 214 myotomydis, Polyplax, 227, 227+ MYRSIDEA, 24+, 61 mystax, Rallicola, 148 nairobiensis, Dasyonyx (Neodasyonyx), 194 nancyae, Eidmaniella, 68 nanum, Colpocephalum, 43 napiforme, Colpocephalum, 42 nasvikae, Hoplopleura, 214 natalensis, Damalinia (Damalinia), 199 natalensis, Procavicola (Procavicola), 190 natalensis, Solenopotes, 238, 238t NAUBATES, 115 navigans, Austromenopon, 72 nawabi, Brueelia, 143 nebulosa, Brueelia. 144 neOafriCanUs, Felicola (Parafelicola), 186, 186t NEOHAEMATOPINUS. 219 NEOLINDGNATHIDAE, 209 NEOLINOGNATHUS, 209 NEDMENOPON, 28+, 50 NEOPHILOPTERUS, 118 NEOPSITTACONIRMUS, 96+, 160 neotheileri, Damalinia (Damalinia), 198, 198t nesotragi, Linognathus, 243 neumanni, Hoplopleura, 214, 214t neumanni, Procavicola (Meganarionoides), 190, 19Ot nevilli, Linognathus, 239, 240 nigrae, Colpocephalum, 39 nigrolimbatus, Perineus, 112 nigrolineatus, Turnicola, 146 nigromaculatus, Goniocotes, 100 nirmoideus, Penenirmus, 149 nisi, Craspedorrhynchus, 126 nisus, Degeeriella, 172 NITZSCHIELLA, 103, 104t nivea, Brueelia, 143 nobilis, Clayia, 54 normifer, Quadraceps, 157 NOSOPON, 51 notata, Cuclotogaster, 167 notophallus, Hybophthirus, 230, 230+ numenii, Lunaceps, 169 numidae, Goniodes, 101 numidae, Lipeurus, 162 numidae, Menacanthus, 56, 245 NUMIDICOLA, 53 NUMIDILIPEURUS, 96+, 161, 162 nychthemerus, Quadraceps, 159 obovata, Myrsidea, 63 obscura, Paraclisis, 112 obscurior, Colilipeurus radiatus, 161 obscurus, Quadraceps, 155 obtusus, Anatoecus, 120 occidentalis, Cuclotogaster, 167, 246 ocellatus, Actornithophilus, 80 ochraceus, Actornithophilus, 78 ochropi, Quadraceps, 154+, 155 octodentatus, Anatoecus, 120 oculatus, Dasyonyx (Dasyonyx), 194 ODORIPHILA, 31 oenae, Columbicola streptopeliae, 108, 108t oenomydis, Hoplopleura, 214 ogmorhini, Antarctophthirus, 206, 206t olivaceae, Colpocephalum, 40 opima, Cuclotogaster, 167 oreas, Colpocephalum, 39 oreophilus, Goniodes, 102 orioli, Menacanthus. 57 ornats Damalinia (Damalinia), 198 orna.us, Philopterus, 124 ornatus, Quadraceps, 158 ortygometrae, Rallicola, 147, 147+ oryx, Haematopinus, 208 oryx, Linognathus, 241 ossifragae, Austromenopon, 72 OTIDOECUS, 166 otomydis, Polyplax, 226 ourebiae, Damalinia (Tricholipeurus), 200 ourebiae, Linognathus, 244 ovalis, Cumningsiella, 150 ovalis, Dasyonyx (Dasyonyx), 193 ovalis, Trichodectes (Stachiella), 181, 181t ovatus, Menacanthus, 57 ovillus, Linognathus, 258, 258+ ovis, Damalinia (Bovicola), 257, 257+ OXYLIPEURUS, 163 oxyrrhynchus, Polyplax, 228 pachycnemis, Buceronirmus, 171 pakenhami, Damalinia (Tricholipeurus), 201 paleata, Degeeriella regalis, 174 pallasi, Quadraceps, 154 pallescens, Laemobothrion (Eulaemobothrion), 83 pallida, Amyrsidea powelli, 56 pallidior, Colilipeurus colius, 161 pallidulus, Menacanthus, 245, 247 pallidus, Cuculicola, 171 pallidus, Quadraceps punctatus, 157+, 158 paludosus, Actornithophilus, 80 panamensis, Linognathus, 241 PARACLISIS, 112 paradoxa, Polyplax, 226 paradoxus, Eurytrichodectes, 187, 187t parae, Brueelia, 143 paralaticeps, Felicola (Suricatoecus), 183 parataterae, Polyplax, 225 paraxeri, Werneckia, 211 parkeri, Damalinia (Tricholipeurus), 200 parviclypeatus, Anatoecus, 120 parvus, Anatoecus, 120 parvus, Columbicola meinertzhageni, 107 parvus, Procavicola (Procavicola), 189 passerinus, Philopterus, 124 patas, Pedicinus (Neopedicinus), 232, 232t patellatus, Actornithophilus, 79 patersoni, Anatoecus, 120 patersoni, Hoplopleura, 215, 215t patevi, Penenirmus, 149 paucum, Austromenopon sternophilum, 74 paulschulzei, Quadraceps ornatus, 158 paululum, Austromenopon, 73 pavlovskyi. Penenirmus, 149 PECTINOPYGUS, 130 pectoralis, Mulcticola, 121 pedalis, Linognathus, 258 pederiformis, Episbates, 111 PEDICINIDAE, 231 PEDICINUS, 231 PEDICULIDAE, 234 pediculoides, Actornithophilus, 80 PEDICULUS, 234 pelagicum, Austromenopon, 73 pelagicus, Halipeurus (Synnautes), 116+, 117 pelea, Damalinia (Bovicola), 197 peleus, Linognathus, 240 pellucida, Eidmanniella, 68 PELMATOCERANDRA, 111 pelomydis, Hoplopleura, 215 penelopes, Lipeurus, 110 PENENIRMUS. 95+, 148 percnopteri, Colpocephalum, 43 PERINEUS, 112 perlatus, Goniodes, 101 perspicuus, Aegypoecus. 127 peusi, Saemundssonia, 137 pflegeri, Pseudomenopon, 49 phacochoeri, Haematopinus, 208, 209t phaeonotus, Quadraceps, 159 phaeopi, Lunaceps, 169 phaeopodis, Austromenopon, 74 phaetona, Saemundssonia, 136 phalaropi, Quadraceps, 156 phasidus, Lipeurus, 162 PHILOCEANUS, 92+, 110, 114 PHILOPTERIDAE, 87, 88+, 89+, 91 PHILOPTERUS, 93+, 122 phlyctopygus, Degeeriella, 174 phoenicopteri, Anaticola, 109 phoeniculi, Odoriphila, 31 phthisica, Polyplax, 227 phylloscopi, Menacanthus, 57 piageti, Austromenopon sternophilum, 74 Piagetia, 30 PIAGETIELLA, 30 piceus, Actornithophilus, 76 PICICOLA, 175 pictus, Pedicinus (Neopedicinus) pictus, 233 pilosum, Pseudomenopon, 48, 48t pinguis, Austromenopon, 72 placentella, Cuclotogaster, 168 placodus, Halipeurus (Halipeurus), 116 plataleae, Ardeicola, 133+, 134 plataleae, Colpocephalum, 41 plataleae, Ibidoecus, 118 platycephalus, Saemundssonia, 136 platyclypeatus, Neophilopterus, 118 platyclypeatus, Turnicola, 146 platygaster, Saemundssonia, 138 _ platystomus, Craspedorrhynchus, 126 PLEGADIPHILUS, 26+, 58 plegadis, Plegadiphilus, 58 plesia, Polyplax, 229 plocei, Machaerilaemus, 47 plumifera, Clayia, 55 podicipis, Aquanirmus, 132 polykomi, Pedicinus (Neopedicinus) pictus, 233 POLYPLACIDAE, 216 POLYPLAX, 223 popellus, Austromenopon, 72 porzanae, Incidifrons, 146 powelli, Amyrsidea, 56, 245 praecisa, Polyplax, 224 praelautus, Neolinognathus, 209+, 210 praomydis, Polyplax, 224 prehensus, Anatoecus, 120 pretoriensis, Procavicola (Procavicola), 189 princeps, Quadraceps, 156 priniae, Penenirmus, 149 prioni, Naubates, 115 PROCAVICOLA, 188 PROCAVIPHILUS, 195 procellariae, Halipeurus (Halipeurus), 116, 116t productus, Bucerophagus, 47 PROECHINOPHTHIRIUS, 207 PROENDERLEINELLUS, 222 PROLINOGNATHUS, 236 proterva, Myrsidea, 64 PSEUDOMENOPON, 48 PSEUDONIRMUS, 113 PSITTACOMENOPON, 37 psittaculae, Kelerimenopon (Lorimenopon), 50 pternistis. Cuclotogaster, 167 pternistis, Goniocotes clayae, 100 pteroclurus, Neomenopon, 50 pterodromae, Saemundssonia, 137 pterodromi, Naubates, 115 PTEROPHILUS, 67 PTHIRIDAE, 235 PTHIRUS, 235 ptilostomi, Myrsidea, 63 ptyadis, Quadraceps, 154 pubis, Pthirus, 235, 236t puellula, Saemundssonia, 137 puffinus, Longimenopon, 80 punctatus, Quadraceps, 158 punctatus, Quadraceps punctatus, 157+, 158 punctifer, Degeeriella, 173+, 174 pusillus, Menacanthus, 57 pustulosa, Eidmanniella, 69 pustulosus, Actornithophilus, 79 putum, Austromenopon, 74 pyargus, Nosopon lucidum, 52 pygaspis, Anatoecus, 120, 120+ pygidiale, Colpocephalum, 40 pygidialis, Felicola (Felicola), 184 pygostyli, Eureum, 66 qadrii, Pseudomenopon, 49 QUADRACEPS, 96+, 151 quadrangular-is, Brueelia, 142 quadrifasciata, Myrsidea, 64 quadripertusus, Haematopinus, 254 quadripunctatus, Falcolipeurus, 105 quadripustulatus, Ciconiphilus, 34+, 34 quadripustulatus, Falcolipeurus, 105, 1054 quadrisetaceus, Quadraceps, 152 queleae, Myrsidea, 65 querquedulae, Trinoton, 60 radiatus, Colilipeurus radiatus, 161, 161t radui, Sturnidoecus, 144 rahmi, Felicola (Felicola), 185 RALLICOLA, 94+, 147 randi, Anatoecus, 120 raphiceri, Linognathus, 242 RATEMIA, 230 RATEMIIDAE, 230 ravus, Quadraceps, 155 raymondi, Lipeurus, 162 reclinata, Polyplax, 223 recurvirostrae, Cirrophthirius, 150+, 151, 151t REDIELLA, 81 reduncae, Damalinia (Tricholipeurus), 200 reduncae, Linognathus, 240 refractariolus, Sturnidoecus, 145 regalis, Degeeriella, 173+, 174 regressus, Quadraceps punctatus, 158 remota, Saemundssonia, 140 rhaphidius, Ardeicola, 133 RHYNCHOPHTHIRINA, 202 RHYNONIRMUS, 96+, 165 RICINIDAE, 23, 84 RICINUS, 84 rima, Degeeriella, 172 robertsi, Fe'licola (Felicola), 185 robertsi, Philoceanus, 114, 114t robertsi, Procaviphilus, 196 robusta, Chapinia, 61, 61t robustisetosus, Craspedorrhynchus, 126 rosalindae, Cuclotogaster, 167 roseinnesi, Polyplax, 225 rostratulae, Pseudomenopon, 48 rostratus, Acidoproctus, 106 rostratus, Strigiphilus, 128 rotundata, Fulicoffula, 130 rotundatus, Craspedorrhynchus, 126 rotundifrons, Menopon, 52 rubroviolaceus, Anatoecus, 120 rufa, Degeeriella, 173 ruficeps, Dasyonyx (Neodasyonyx), 194 rukenyae, Hoplopleura, 215 rustica, Myrsidea, 62 ruwenzorornis, Splendoroffula, 164+, 165 sabulosus, Actornithophilus, 80 sachtlebeni, Splendoroffula, 165 SAEMUNDSSONIA, 87+, 88+, 94+, 135 saliemi, Brueelia, 142 salimalii, Colpocephalum, 41 salimalii, Turturicola, 109 sanfti, Anatoecus, 120 sarae, Neophilopterus, 118 sarothurae, Rallicola, 148 satbhai, Myrsidea, 65 scalaris, Carduiceps, 119 schaeffi, Pediculus, 235, 235t scharfi, Colpocephalum, 41 schillingi, Trabeculus, 111 SCHIZOPHTHIRUS, 216 schoutedeni, Lipeurus, 162 schulzi, Prolinognathus, 237, 237t schusteri, Quadraceps, 156 SCIPIO, 217 scleroderma, Turacoeca, 31t, 31 scleroptilus, Goniodes, 102 sclerotis, Procaviphilus, 195 scolopacis, Rhynonirmus, 165 scolopacisphaeopodis, Saemundssonia, 137 Scopinum, Colpocephalum, 40 scotopeliae, Kurodaia, 37 scotornis, Mulcticola, 121 scutifer. Procavicola (Meganarionoides), 191 secretarius, Falcolipeurus, 106 stcundarius, Ctenigogus, 46 sedes, Actornithophilus, 78 seguyi, Myrsidea, 64 sellatus, Quadraceps, 159 semifissus, Quadraceps, 150+, 155+, 156 semiluctus, Heleonomus, 76 semitheileri, Damalinia (Damalinia), 199 senegalensis, Alcedoecus, 127 senegalensis, Ardeicola, 134 senegalensis, Columbicola streptopeliae, 108, 108t senegalensis, Quadraceps, 152 senegalensis, Strigiphilus, 129 senegalensis, Sturnidoecus, 145 separatus, Quadraceps, 159 sephaenae, Cuclotogaster, 168 serrata, Polyplax, 223 serraticus, Procaviphilus, 195 serratus, Ricinus, 85, 85t serrilimbus, Penenirmus, 149 setigerum, Holomenopon, 71, 71t setosa, Pelmatocerandra, 111, lilt setosum, Coloceras, 104 setosus, Felicola (Felicola), 185 setosus, Linognathus, 243 setzeri, Hoplopleura, 215 sexualis, Sturnidoecus, 145 shoana, Procavicola (Procavicola), 189 signatus, Ardeicola, 134 signatus, Quadraceps, 155 silvai, Lipeurus, 162 similis, Quadraceps, 155 simplex, Docophoroides, 130 simplicatds, Anatoecus, 120 simsi, Bedfordiella, 115 sinensis, Lagopoecus, 246 sjoestedti, Myrsidea, 63 smallwoodae, Dasyonyx (Dasyonyx), 193, 193t smallwoodae, Polyplax, 228 smithersi. Ardeicola, 134 smithi, Colpocephalum, 40 snodgrassi, Cuculiphilus (C.), 67 socotranus, Pectinopygus, 132 sofioticum, Coloceras, 104 sohni, Austromenopon, 74 SOLENOPOTES, 238 solivaga, Polyplax, 227 solivagus, Anatoecus, 120 solus, Philopterus, 125 SOMAPHANTUS, 28+, 53 somereni, Hoplopleura, 215 sordidus, Lipeurus, 110 spathulatus, Craspedorrhynchus, 125+, 126 spenceri, Austromenopon, 74 spicatus, Linognathus, 239 spiculifer, Hoplopleura, 215 spineum, Colpocephalum, 44 spinifer, Damalinia (Tricholipeurus), 200 spiniger, Heterodoxus, 81, 82t spinosa, Clayia, 54 spinosissimus, Alenaphthirus, 220 spinulosa, Polyplax, 223, 225t spinulosus, Actornithophilus, 80 SPLENDOROFFULA, 163, 164 squalidum, Trinoton, 60 squamata, Clayia, 54 squamulata, Ratemia, 251 squatarolae, Austromenopon, 75 srivastava, Myrsidea, 65 stamneri, Austromenopon, 73 stamneri, Fulicoffula, 130 stamneri, Saemundssonia, 137 steatomydis, Polyplax, 229 stellaris, Ardeicola, 135 stenopsis, Linognathus, 256, 257+ sternae, Saemundssonia, 136+, 139 sternatus, Procavicola (Procavicola), 189 sternophilum, Menopon, 74 stigmosus, Lemurphthirus, 219 straeleni, Trinoton, 60 straminea, Brueelia, 141, 141+, 142t stramineus, Menacanthus, 24+, 245, 247, 247t strepsiceros, Neopsittaconirmus, 160 strepsilaris, Quadraceps, 155 streptopeliae, Columbicola streptopeliae, 108, 108t streptopeliae, Hohorstiella, 52 stresemanni, Saemundssonia, 139 STRIGIPHILUS, 127 strigis, Strigiphilus, 128+, 128 striolatus, Quadraceps ornatus, 158 STRUTHIOLIPEURUS, 90+, 104 struthionis, Struthiolipeurus, 105 sturni, Sturnidoecus, 144+, 145, 145t STURNIDOECUS, 144 suahelicus, Neohaematopinus, 219 subacutus, Sturnidoecus, 145 subanaspila, Myrsidea, 63, 63t subcuspidata, Capraiella, 170, 170t sublingulatus, Quadraceps punctatus, 158 subpachygaster, Kurodaia, 36 subparvus, Procavicola (Procavicola), 189 subpenicillatum,.Colpocephalum, 40 subrostratus, Felicola (Felicola), 184, 184t subrotunda, Eidmanniella, 68, 68t subrotunda, Turacoeca, 31+, 31 subtaterae, Polyplax, 225 subtheresae, Clayia, 54+, 55 subtilis, Brueelia, 144 subtilis, Splendoroffula, 164 subzebra, Colpocephalum, 39 sudanensis, Pterophilus, 68, 68t sudanica, Turturicola, 108 suis, Haematopinus, 252, 252t sulae, Pectinopygus, 131 surdasteri, Eulinognathus, 221 suturalis, Falcolipeurus, 106 SYRRHAPTOECUS, 176 tadornae, Holomenopon, 71 taschenbergi, Acidoproctus, 106 taterae, Polyplax, 225 tauracobia, Splendoroffula, 164t, 165 taurotragi, Haematopinus, 207+, 208 taurotragus, Linognathus, 240 taurus, Buceroninus, 172 tendeiroi, Anatoecus, 120 tendeiroi, Procavicola (Meganarionoides), 190 tenuis, Brueelia, 142 tetralicis, Actornithophilus, 78 textoris, Sturnidoecus, 145 thalissodromae, Saemundssonia, 136 thamnomydis, Polyplax, 228 theileri, Damalinia (Damalinia), 198 theresae, Brueelia, 142 theresae, Clayia, 55 theresae, Columbicola, 107 theresae, Splendoroffula, 164 thompsoni, Rallicola, 148 thompsoni, Saemundssonia, 138 thompsoni, Turturicola, 108 thorntoni, Procavicola (Procavicola), 188 threskiornis, Ibidoecus, 118 threskiornis, Plegadiphilus, 59 thripias, Picicola, 175, 175t tibiale, Colpocephalum, 40 tibialis, Linognathus, 242 timnermanni-, Ricinus, 86 tinctus, Ricinus, 86 tinnunculi, Laemobothrion (Laemobothrion), 82, 83t titan, Piagetiella, 30 ER - TY - JOUR T1 - Haemophirus galeopitheci Mjöberg rediscovered; with the description of a new family of sucking lice JF - Proceedings of the Entomological Society of Washington Y1 - 1969 A1 - Johnson,Phyllis True SP - 420 EP - 428 AB -

The genus Hamophthirius Mjoberg, and species H. galeopitheci Mjoberg, from a Bornean dermopteran, Cynocephalus variegatus, are redescribed, and a new family, Hamophthiriidae, named to contain the species. H. galeopitheci is of primary occurance on C. variegata and is not related to either the hoplopleurid lice infesting tree shrews and lemurs, or to the primate infesting lice: Pthirus, Pediculus, and Pedicinus. Therefore the structure of Hamophthirius offers no new evidence of relationships amoung lice found on insectivores and primates. However, since dermopterans and bats are considered to have arisen from the same stock, the prsence of a primary anopluran species on a dermapteran suggests that the absence of Anoplura on bats represents a secondary loss.

VL - 71 UR - https://phthiraptera.myspecies.info/sites/phthiraptera.info/files/0422.pdf IS - 3 U2 - pdf ER -