Sylvie Pichelin scite author profile

Ecological factors may influence the number of parasites encountered and, thus, parasite species richness. These factors include diet, gregarity, conspecific and total host density, habitat, body size, vagility, and migration. One means of examining the influence of these factors on parasite species richness is through a comparative analysis of the parasites of different, but related, host species. In contrast to most comparative studies of parasite species richness of fish, which have been conducted by using data from the literature, the present study uses data obtained by the investigators. Coral reef fishes vary widely in the above ecological factors and are frequently parasitized by a diverse array of parasites. We, therefore, chose to investigate how the above ecological factors influence parasite species richness in coral reef fishes. We investigated the endoparasite species richness of 21 species of butterfly fishes (Chaetodontidae) of New Caledonia. We mapped the diet characters on the existing butterfly fish phylogeny and found that omnivory appears to be ancestral. We also mapped the estimated endoparasite species richness, coded from low to high parasite species richness, on the existing butterfly fish phylogeny and found that low parasite species richness appears to be associated with the ancestral state of omnivory. Different dietary and social strategies appear to have evolved more than once, with the exception of obligate coralivory, which appears to have evolved only once. Finally, after controlling for phylogenetic relationships, we found that only the percentage of plankton in the diet and conspecific host density were positively correlated with endoparasite species richness.

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The status of the Diplosentidae (Acanthocephala: Palaeacanthocephala) and a new family of acanthocephalans from Australian wrasses (Pisces: Labridae)

Pichelin

Cribb²

2001

FOLIA PARASIT

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The taxonomy and biology of the Polystomatidae (Monogenea) in Australian freshwater turtles (Chelidae, Pleurodira)

Pichelin

1995

Journal of Natural History

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The trematodes of groupers (Serranidae: Epinephelinae): knowledge, nature and evolution

et al. 2002

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Groupers (Epinephelinae) are prominent marine fishes distributed in the warmer waters of the world. Review of the literature suggests that trematodes are known from only 62 of the 159 species and only 9 of 15 genera; nearly 90% of host-parasite combinations have been reported only once or twice. All 20 families and all but 7 of 76 genera of trematodes found in epinephelines also occur in non-epinephelines. Only 12 genera of trematodes are reported from both the Atlantic-Eastern Pacific and the Indo-West Pacific. Few (perhaps no) species are credibly cosmopolitan but some have wide distributions across the Indo-West Pacific. The hierarchical 'relatedness' of epinephelines as suggested by how they share trematode taxa (families, genera, species) shows little congruence with what is known of their phylogeny. The major determinant of relatedness appears to be geographical proximity. Together these attributes suggest that host-parasite co-evolution has contributed little to the evolution of trematode communities of epinephelines. Instead, they appear to have arisen through localized episodes of host-switching, presumably both into and out of the epinephelines. The Epinephelinae may well be typical of most groups of marine fishes both in the extent to which their trematode parasites are known and in that, apparently, co-evolution has contributed little to the evolution of their communities of trematodes.

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Parasites of recruiting coral reef fish larvae in New Caledonia

Cribb

Pichelin

Dufour

et al. 2000

International Journal for Parasitology

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A discussion on the Heteracanthocephalidae Petrochenko, 1956 (Acanthocephala: Palaeacanthocephala)

2002

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Several heteracanthocephalid specimens were recovered from the flatfish Rhombosolea leporina (Günther), a host of Heteracanthocephalus peltorhamphi (Baylis, 1944) Petrochenko, 1956 from New Zealand. Unlike H. peltorhamphi, these new specimens have trunk spines. Measurements and proboscis armament of the new specimens are consistent with the worms being Aspersentis minor Edmonds & Smales, 1992 originally described from the Australian flounder Rhombosolea tapirina Günther. A review of the family Heteracanthocephalidae Petrochenko, 1956 was undertaken to assess the validity of its four genera and eight species. The validity of Aspersentis megarhynchus (Linstow, 1892) Golvan, 1960 (syn. Echinorhynchus megarhynchus Linstow, 1892) is questioned. E. megarhynchus is not considered to be an heteracanthocephalid and is relegated to a species inquirenda. A. megarhynchus (Linstow, 1892) of Golvan (1960) nec E. megarhynchus Linstow, 1892 is considered a synonym of A. austrinus Van Cleave, 1929. The monotypic genus Heteracanthocephalus Petrochenko, 1956 is proposed as a synonym of Aspersentis Van Cleave, 1929 because there appear to be insufficient morphological differences between them. Aspersentis peltorhamphi n. comb. is proposed for Heteracanthocephalus peltorhamphi. The monotypic genus Sachalinorhynchus Krotov & Petrochenko in Petrochenko, 1956 is considered valid, but the other heteracanthocephalid genus, Bullockrhynchus Chandra, Rao & Shyamasundari, 1985, also monotypic, is not. B. indicus Chandra, Rao & Shyamasundari, 1985 possesses more features resembling rhadinorhynchids than heteracanthocephalids but only females are known, and therefore the genus and species cannot be placed. There are currently four valid species of Aspersentis and one of Sachalinorhynchus.

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A review of the Arhythmacanthidae (Acanthocephala) with a description ofHeterosentis hirsutusn. sp. FromCnidoglanis macrocephala(Plotosidae) in Australia

Pichelin

Cribb

1999

Parasite

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Concinnocotyla (Monogenea: Polystomatidae), a new genus for the polystome from the Australian lungfish Neoceratodus forsteri

1991

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Pseudopolystoma australensis is redescribed from new material from the Australian lungfish Neoceratodus forsteri (Dipnoi) from a natural population in Queensland, Australia. It is transferred to a new genus, Concinnocotyla, as Concinnocotyla australensis n. comb. in a new subfamily, the Concinnocotylinae. The genus Concinnocotyla differs from all other polystome genera in each of the following characters: haptoral suckers bilaterally symmetrical rather than radially symmetrical, with elaborate skeleton of sclerites rather than no sclerites; hamuli, a single pair between marginal hooklets I and II rather than between II and III; a pocket posteriorly on each caecum that opens dorsally; sperm-filled sac between pockets; testes numerous, discrete, cylindrical; seminal vesicle large, discrete, muscular; penis elongate, muscular, unarmed, extensile; penis-bulb large, muscular, with intrinsic glands; host, a dipnoan. A detailed description of the adult parasite is presented and its unique features are discussed. The absence of a true oral sucker is noted. Confirmation of a polystome from a natural population of Australian lungfish has interesting evolutionary implications.

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Sylvie Pichelin

Endoparasite species richness of New Caledonian butterfly fishes: host density and diet matter

The status of the Diplosentidae (Acanthocephala: Palaeacanthocephala) and a new family of acanthocephalans from Australian wrasses (Pisces: Labridae)

The taxonomy and biology of the Polystomatidae (Monogenea) in Australian freshwater turtles (Chelidae, Pleurodira)

The trematodes of groupers (Serranidae: Epinephelinae): knowledge, nature and evolution

Parasites of recruiting coral reef fish larvae in New Caledonia

A discussion on the Heteracanthocephalidae Petrochenko, 1956 (Acanthocephala: Palaeacanthocephala)

A review of the Arhythmacanthidae (Acanthocephala) with a description ofHeterosentis hirsutusn. sp. FromCnidoglanis macrocephala(Plotosidae) in Australia

Concinnocotyla (Monogenea: Polystomatidae), a new genus for the polystome from the Australian lungfish Neoceratodus forsteri

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