Colpocephalum

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Colpocephalum
Colpocephalum scopinum NHMUK010653999 (cropped).jpg
C. scopinum (2 ♂; 4 ♀)
Colpocephalum fregili NHMUK010655422 (cropped rotated).jpg
C. fregili (♀; ♂)
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Psocodea
Family: Menoponidae
Genus: Colpocephalum
Nitzsch, 1818 [1]
Type species
Colpocephalum zebra [2]
Burmeister, 1838 [3]
Synonyms [4] :16
  • FerrisiaUchida, 1926 [5] (not Fullaway, 1923)
  • NeocolpocephalumEwing, 1933 [6]
  • CorvocolpocephalumConci, 1942 [7]
  • LiothellaEichler, 1947
  • PelecanigogusEichler, 1949
  • GalliferrisiaAnsari, 1951
And 19 more: [8]
  • AllocolpocephalumQadri, 1939
  • AquiligogusEichler & Zlotorzycka, 1971
  • BlagoveshtshenskyellaEichler, 1982
  • CariamigogusEichler, 1952
  • DimorphiventerEichler, 1944
  • FalcocephalumTendeiro, 1989
  • GalligogusEichler, 1947
  • GypsigogusEichler & Zlotorzycka, 1963
  • LanicephalumZlotorzycka, 1964
  • MegacolpocephalumMey, 1999
  • PicusphilusAnsari, 1951
  • PricebeeriaEichler & Zlotorzycka, 1971
  • PseudocolpocephalumQadri, 1936
  • RatitiphagusEichler, 1949
  • ScalarisomaKéler, 1939
  • ScopigogusEichler, 1952
  • TalegalligogusMey, 1982
  • TendeiroellaEichler, 1982
  • VulturigogusEichler & Zlotorzycka, 1963

Colpocephalum is a genus of chewing louse. [8] Christian Ludwig Nitzsch named the genus in 1818. The Plenary Powers of the International Commission on Zoological Nomenclature selected Colpocephalum zebraBurmeister, 1838 as its type species in the 1950s. There are approximately 135 species in this genus, and they are ectoparasites of birds in at least a dozen different orders.

Contents

Taxonomic history and the type species

Redi's 1671 plate. Nitzsch gave the name L. (C.) ochraceum to the species illustrated on the top. Redi Exp. Tab 11 Pulices avis Pluvialis.png
Redi's 1671 plate. Nitzsch gave the name L. (C.) ochraceum to the species illustrated on the top.

Colpocephalum was circumscribed by Christian Ludwig Nitzsch in 1818. Nitzsch classified this taxon as a subgenus of the genus Liotheum. He included four species, which in his taxonomy were called L. (C.) zebra, L. (C.) flavescens, L. (C.) subaequale, and L. (C.) ochraceum. [1] The first three species were nomina nuda ; only the last was accompanied with an indication to a previously-published illustration, namely a 17th-century illustration by Francesco Redi. [9] [10] He wrote the indication as "Pulex avis pluvialis Redi exp. fig. sup." [1] In order to keep this name valid, Theresa Clay and George Henry Evans Hopkins restricted Carl Linnaeus's 1758 name Pediculus charadrii to only the bottom figure of Redi's plate. [11] [12] Strictly applying the ICZN Code, the type species should have been Liotheum (Colpocephalum) ochraceum, as it was the only available name included in the original circumscription. [2] :278

However, in 1906, Louis Georges Neumann designated "Liotheum (Colpocephalum) zebraNitzsch" as the type species for this taxon instead. [13] Other phthirapterists followed Neumann's designation. In 1948, Hopkins petitioned the International Commission on Zoological Nomenclature (ICZN) to officially allow this species to remain the genus's type species instead of "Liotheum (Colpocephalum) ochraceum; this was published in 1951. [14] [2] :275,279 Hopkins also notes that L. (C.) ochraceum is congeneric with Colpocephalum uniseriatumPiaget, 1880, the type species of Actornithophilus , which would further complicate the situation. [2] :278–279 As the species C. zebra only became valid with Hermann Burmeister's species description of Colpocephalum zebra in 1838, [3] [2] :276 he requested that the Plenary Powers of the ICZN designate Colpocephalum zebraBurmeister, 1838 as the type species of Colpocephalum in order to "avoid disastrous confusion." [2] :279

Prior to petitioning the ICZN, Hopkins asked other experts in Mallophaga for their opinion on this matter. He received support from W. Büttiker, T. Clay, W. Eichler, K. C. Emerson  [ Wikidata ], L. R. Guimarães  [ Wikidata ], W. J. Jellison, S. v. Kéler, R. Meinertzhagen, E. O'Mahony, G. B. Thompson and F. L. Werneck; he received opposition from J. Bequaert and J. E. Webb, who both opposed the use of Plenary Powers in general. [14] :59 Later support came from Ernst Mayr. [15] [2] :285 In 1952, the ICZN voted 17 to 0 in favor of Hopkins's proposal. The members of the commission who voted affirmatively were, in the order their ballots were received, N. D. Riley, E. M. Hering, W. T. Calman, J. R. Dymond, B. Hankó  [ hu ], P. B. Bonnet, H. E. Vokes, A. do Amaral, J. Pearson, J. C. Bradley, F. Hemming, T. Esaki, H. Lemche, R. Mertens, Á. Cabrera, N. R. Stoll, and H. Boschma. A ballot was not received from T. Jaczewski, the remaining member of the commission. [2] :286 The decision was published as part of Opinion 342 in 1955. [2]

Biology

Species in this genus parasitize birds of at least 13 orders, including:

External video
Nuvola apps kaboodle.svg Video (.mov; 9.5 MB; 31 sec) of "highly mobile" C. turbinatum on a Galápagos hawk wing [29]

Colpocephalum species are examples of "rapid running l[ice]". [30] C. turbinatum, an ectoparasite of various birds including the Galápagos hawk, [4] [20] :754–757 has been described as "highly mobile". [29] Due to their speed, they can easily escape a bird trying to remove them through preening; this allows them to inhabit birds' breast, anal, and back regions, where slower lice would be readily removed. [30]

Colpocephalum species eat feathers; pigeons with large infestations of C. turbinatum can have almost all of their vent region feathers' fluff eaten. [31] High numbers of Colpocephalum can also damage a pigeon's flight feathers and decrease their flying power. [32] Colpocephalum lice can live within flight feathers' quills. [33] [32] In addition to eating feathers, C. turbinatum consume their hosts' skin. [34] Adults of this species have also been reported to engage in cannibalism in laboratory colonies, eating their own eggs and up to 80% of their nymphs. [35]

Species

The genus has approximately 135 species, including: [8]

Related Research Articles

<span class="mw-page-title-main">Louse</span> Order of insects

Louse is the common name for any member of the clade Phthiraptera, which contains nearly 5,000 species of wingless parasitic insects. Phthiraptera has variously been recognized as an order, infraorder, or a parvorder, as a result of developments in phylogenetic research.

<i>Mallophaga</i> Suborder of lice

The Mallophaga are a possibly paraphyletic section of lice, known as chewing lice, biting lice, or bird lice, containing more than 3000 species. These lice are external parasites that feed mainly on birds, although some species also feed on mammals. They infest both domestic and wild mammals and birds, and cause considerable irritation to their hosts. They have paurometabolis or incomplete metamorphosis.

<i>Haematomyzus</i> Genus of lice

The genus Haematomyzus includes three species of lice that differ so markedly from all other lice that the genus is placed in its own family Haematomyzidae, itself monotypic within the superfamily Rhynchophthirina. These unusual lice are ectoparasites of elephants and warthogs. Their mouthparts are elongated to form a drill-like structure that allows them to penetrate the thick skin of their host.

<span class="mw-page-title-main">Amblycera</span> Suborder of lice

The Amblycera are a large clade of chewing lice, parasitic on both birds and mammals. The Amblycera are considered the most primitive clade of lice.

A bird louse is any chewing louse of order Phthiraptera which parasitizes warm-blooded animals, especially birds. Bird lice may feed on feathers, skin, or blood. They have no wings, and their biting mouth parts distinguish them from true lice, which suck blood.

<span class="mw-page-title-main">Menoponidae</span> Family of lice

Menoponidae is a monophyletic family of lice in the superfamily of chewing lice, Amblycera, often referred to as the chicken body louse family. They are ectoparasites of a wide range of birds including chickens, which makes them important to understand for veterinary science and for human health. However, Menoponidae are not exclusive to poultry and are common parasites for migratory birds, with more and more species being discovered every year.

<span class="mw-page-title-main">Troctomorpha</span> Suborder of booklice

Troctomorpha is one of the three major suborders of Psocodea (barklice, booklice, and parasitic lice), alongside Psocomorpha and Trogiomorpha. There are more than 30 families and 5,800 described species in Troctomorpha. The order includes parasitic lice, which are most closely related to the booklice family Liposcelididae.

<i>Pyrops</i> Genus of planthoppers

Pyrops is a genus of planthoppers that occur primarily in southeast Asia, containing about 70 species. They are fairly large insects, with much of the length due to an elongated, upcurving, snout-like projection of the head. The wings are generally brightly patterned in contrasting colors, and they are popular among collectors.

<i>Menacanthus</i> Genus of lice

Menacanthus is a genus of chewing lice which parasitise birds. The taxonomy of this genus is highly uncertain. Most taxonomies have given this genus as having over a hundred species, but recent studies have synonymised dozens of species and found other names to be invalid. Some Menacanthus species remain to be discovered, or are synonymised in error. Menacanthus lice feed on the blood of a wide variety of birds, including chickens, by piercing the quills of feathers and gnawing the epidermis. In doing so, they can spread disease and lower egg production. In Menacanthus stramineus, eggs are incubated for four or five days, each of the three nymphal stages lasts for about three days, and adult life for about twelve days. Females produce as many as four eggs in a day, averaging 1.6 eggs a day, with egg production peaking 5–6 days after reaching adulthood. On sparrows, Menacanthus lice are particularly common, and are found in many different niches, consuming blood and feathers.

<span class="mw-page-title-main">Ricinidae</span> Family of lice

The Ricinidae are a family of a larger group Amblycera of the chewing lice. Most commonly they are ectoparasites of birds. The family includes the genus Ricinus.

<i>Ricinus</i> (insect) Genus of lice

Ricinus is a genus of chewing lice which parasitise birds. It is the largest genus of chewing lice found parasitizing Passeriformes.

<i>Ricinus vaderi</i> Species of louse

Ricinus vaderi is a species of chewing lice which parasitises the calandra lark in Azerbaijan. It is a member of Ricinus, the largest genus of chewing lice found parasitizing Passeriformes.

Strigiphilus is a genus of chewing louse in the suborder Ischnocera. It was circumscribed in 1910 by Eric Mjöberg.

Colpocephalum californici, the California condor louse, is an extinct species of chewing louse which parasitized the California condor. In an example of coextinction, it became extinct when the remaining, Critically Endangered California condors were deloused and treated with pesticides during a captive breeding program.

<i>Rallicola</i> Genus of lice

Rallicola is a genus of chewing louse. It is an ectoparasite of rails and other birds. It was named by Thomas Harvey Johnston and Launcelot Harrison in 1911. There are two subgenera aside from the nominotypical subgenus: Aptericola, whose species are found on kiwi birds, and Huiacola, a monospecific subgenus consisting of Rallicola extinctus, once found on the huia.

<i>Apterygon</i> Genus of lice

Apterygon is a genus of louse. It is endemic to New Zealand and is an ectoparasite of kiwi birds (Apteryx). Theresa Clay circumscribed the genus in 1961. In 1947, she had referred to this genus as "New Genus D", but it was not formally named as she needed to confirm the host of her specimen as well as additional material.

<i>Actornithophilus</i> Genus of lice

Actornithophilus is a genus of louse in the family Amblycera. It was circumscribed by Gordon Floyd Ferris in 1916. Its species are ectoparasites of birds in the order Charadriiformes.

<span class="mw-page-title-main">Trichodectidae</span> Family of lice

Trichodectidae is a family of louse in the suborder Ischnocera. Its species are parasites of mammals. The following 19 genera are recognized:

<span class="mw-page-title-main">Harrison's rule</span>

Harrison's rule is an observation in evolutionary biology by Launcelot Harrison which states that in comparisons across closely related species, host and parasite body sizes tend to covary positively.

Gyropidae is a family of lice in the order Psocodea. There are about 9 genera and more than 90 described species in Gyropidae.

References

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  2. 1 2 3 4 5 6 7 8 9 Hemming, Francis, ed. (1955). "Opinion 342. Designation, under the Plenary Powers, of type species for the nominal genera Lipeurus Nitzsch, 1818, Colpocephalum Nitzsch, 1818, and Gyropus Nitzsch, 1818 (Class Insecta, Order Mallophaga) in harmony with current nomenclatorial practice". Opinions and Declarations Rendered by the International Commission on Zoological Nomenclature. 10 (9): 271–298.
  3. 1 2 Burmeister, Hermann (1838). Kaukerfe. Gymnognatha. (Erste Hälfte; vulgo Orthoptera.). Handbuch der Entomologie. Vol. 2. Berlin: Theod. Chr. Friedr. Enslin. p. 438.
  4. 1 2 Palma, Ricardo L.; Peck, Stewart B. (2013). An annotated checklist of parasitic lice (Insecta: Phthiraptera) from the Galápagos Islands. pp. 18–19. doi:10.11646/zootaxa.3627.1.1. ISBN   978-1-77557-126-1. PMID   25325090.{{cite book}}: |journal= ignored (help)
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  15. Mayr, Ernst (1951). "Support for the proposal relating to the generic names Lipeurus, Colpocephalum, Gyropus and Eureum, all of Nitsch, 1818 (class Insecta, order Mallophaga)". The Bulletin of Zoological Nomenclature. 6 (7): 210.
  16. Girisgin, Ahmet Onur; Dik, Bilal; Girisgin, Oya (2013). "Chewing lice (Phthiraptera) species of wild birds in northwestern Turkey with a new host record". International Journal for Parasitology: Parasites and Wildlife. 2: 217–221. doi:10.1016/j.ijppaw.2013.07.001. PMC   3862523 . PMID   24533339.
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