Le phylum des <i>Acanthocephala.</i> Deuxième note. La classe des <i>Eoacanthocephala</i> (Van Cleave 1936)

Golvan, Yves J.

doi:10.1051/parasite/1959341005

Cited by 32 publications

(17 citation statements)

References 1 publication

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…The third acanthocephalan order Eoacanthocephala was erected by Van Cleave (1936) [13] who first recognized Acanthocephala as a phylum. These three ordinal groups of Acanthocephala were elevated to the class level based on the number of cement glands and trunk spination [14] and these three acanthocephalan classes were supported by subsequent taxonomic works [15,16]. The fourth class Polyacanthocephala was erected to adjust the monogeneric family Polyacanthorhynchidae [17].…”

Section: Introductionmentioning

confidence: 99%

The complete mitochondrial genome sequence of Southwellina hispida supports monophyly of Palaeacanthocephala (Acanthocephala: Polymorphida)

Gazi

Kim

Park

2015

Parasitology International

View full text Add to dashboard Cite

Section: Introductionmentioning

confidence: 99%

The complete mitochondrial genome sequence of Southwellina hispida supports monophyly of Palaeacanthocephala (Acanthocephala: Polymorphida)

Gazi

Kim

Park

2015

Parasitology International

View full text Add to dashboard Cite

“…Three major taxonomic groups were recognized as classes in the phylum Acanthocephala: Archiacanthocephala, Palaeacanthocephala, and Eoacanthocephala (Golvan, 1959a(Golvan, , 1960(Golvan, , 1961(Golvan, , 1962. The three groups are distinguished by location of lacunar canals, the persistence of ligament sacs in females, number and type of cement glands in males, number and arrangement of proboscis hooks, intermediate and definitive hosts, and host ecology (Bullock, 1969;Dunagan and Miller, 1991).…”

Section: Introductionmentioning

confidence: 99%

Phylogenetic Relationships of the Acanthocephala Inferred from 18S Ribosomal DNA Sequences

Near

Garey

Nadler

1998

Molecular Phylogenetics and Evolution

138

View full text Add to dashboard Cite

“…Deux auteurs, Golvan (12) et Van Cleave (29) envisagent dans ce groupe l'existence de deux lign6es 6volutives distinctes: d'une part les Eoacanthoc~phales et d'autre part les Pal6acanthoc6-phales et les Archiacanthoc6phales. Une hypoth6se consisterait aiors h envisager une 6volu-tion ind6pendante de la structure flagellaire dans ces deux lign6es phyl6tiques distinctes.…”

Section: Discussionunclassified

[A new type of flagellar structure. Type 9+n]

Marchand¹,

Mattei²

1977

The Journal of Cell Biology

View full text Add to dashboard Cite

The ultrastructural study of the Eoacanthocephala sperm cell shows a variation from 0 to 5 in the number of the axial fibers in the axoneme. All the species of the order Eoacanthocephala available to us show this variation; moreover, every individual possesses simultaneously several different structural types. So, we are dealing with a new flagellar organization: 9+n, with 0 -< n -< 5.In the Quadrigyridae and the Tenuisentidae families, n varies from 0 to 4, with a maximum of 2 for most individuals, exceptionally at 1 for some individuals. In the Neoechinorhynchidae family, n varies from 0 to 5 with a conspicuous prevalence of 3 (from 84 to 99%, according to the individual).These results prompted us to reexamine the two other orders of Acanthocephala in which the structural types 9+2 or 9+0 have been considered as fixed. Indeed, we have found a few flagella the structure of which is different from the prevalent one. It seems, therefore, that the number of the central fibers of the axoneme in the Acanthocephala sperm cell is never absolutely fixed.Apr~s Fawcett et Porter (11) de nombreux auteurs ont EtudiE l'ultrastructure des cils et des flagelles, dEmontrant la quasi universalitE du module dit 9+2. Cependant quelques exceptions portant sur le nombre des fibres centrales ont EtE constat6es. Ainsi, un flagelle de type 9+0 existe chez une eugrEgarine (9), un acanthocEphale (16), une ann61ide (2), divers insectes (4, 23) et des poissons (7,19). Le type 9+1 a EtE trouvE chez des insectes (8, 21), une algue (20) et des plathelminthes (27, 28). Ce dernier cas, toutefois, diff~re des prEcEdents, i'61Ement axial ~tant nettement plus complexe que les microtubules habituels. Le type 9+3 existe chez des insectes (5, 22) et des arachnides (6,22,25), le type 9+7, encore chez un insecte (22). Dans tous ces cas, le type de structure est unique pour une esp~ce ceUulaire donnEe.Nous avons d6ja d6crit une exception ~ cette r~gle chez un EocanthocEphale: Acanthosentis tilapiae (17). Dans les spermatozoides de cette esp~ce EtudiEs en coupe ultrafine, on trouve des sections de flagelles pr6sentant zero, une deux, ou trois fibres centrales. Cette premiere constatation nous avait fait envisager l'existence d'un flagelle poss6dant trois fibres centrales de longueurs tr~s inEgales. Mais l'Etude de spermatozoides in toto en coloration n6gative a rEv616 chez le m~me animal, l'existence de quatre types de flagelles. La ou les fibres centrales, lorsqu'elles existent, s'Etendent sur route la longueur du flagelle.Chez Acanthosentis ies pourcentages des quatre types varient largement selon les individus. Ce manque de fixitE nous a pouss6s h explorer d'autres esp~ces choisies parmi les diffErentes families d'EoacanthocEpales afin de reconnaltre s'il

show abstract

Le phylum des Acanthocephala. Deuxième note. La classe des Eoacanthocephala (Van Cleave 1936)

Cited by 32 publications

References 1 publication

The complete mitochondrial genome sequence of Southwellina hispida supports monophyly of Palaeacanthocephala (Acanthocephala: Polymorphida)

The complete mitochondrial genome sequence of Southwellina hispida supports monophyly of Palaeacanthocephala (Acanthocephala: Polymorphida)

Phylogenetic Relationships of the Acanthocephala Inferred from 18S Ribosomal DNA Sequences

[A new type of flagellar structure. Type 9+n]

Contact Info

Product

Resources

About