Prosorhynchoides thomasi Bott, 2007, n. sp.

Prosorhynchoides thomasi n. sp. (Figs. 1–2) Type host: Plagiotremus tapeinosoma (Bleeker). Prevalence: 55 % (6 / 11) Other hosts: Plagiotremus rhinorhynchos (Bleeker). Prevalence: 85 % (5 / 6) Site of Infection: Intestine Type Locality: Lizard Island, Australia (14 ° 40 ’S, 145 ° 20 ’E) Deposition o...

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Main Author: Bott, Ashley Roberts-Thomson Nathan J.
Format: Text
Language:unknown
Published: Zenodo 2007
Subjects:
Online Access:https://dx.doi.org/10.5281/zenodo.6252026
https://zenodo.org/record/6252026
id ftdatacite:10.5281/zenodo.6252026
record_format openpolar
institution Open Polar
collection DataCite Metadata Store (German National Library of Science and Technology)
op_collection_id ftdatacite
language unknown
topic Biodiversity
Taxonomy
Animalia
Platyhelminthes
Trematoda
Plagiorchiida
Bucephalidae
Prosorhynchoides
Prosorhynchoides thomasi
spellingShingle Biodiversity
Taxonomy
Animalia
Platyhelminthes
Trematoda
Plagiorchiida
Bucephalidae
Prosorhynchoides
Prosorhynchoides thomasi
Bott, Ashley Roberts-Thomson Nathan J.
Prosorhynchoides thomasi Bott, 2007, n. sp.
topic_facet Biodiversity
Taxonomy
Animalia
Platyhelminthes
Trematoda
Plagiorchiida
Bucephalidae
Prosorhynchoides
Prosorhynchoides thomasi
description Prosorhynchoides thomasi n. sp. (Figs. 1–2) Type host: Plagiotremus tapeinosoma (Bleeker). Prevalence: 55 % (6 / 11) Other hosts: Plagiotremus rhinorhynchos (Bleeker). Prevalence: 85 % (5 / 6) Site of Infection: Intestine Type Locality: Lizard Island, Australia (14 ° 40 ’S, 145 ° 20 ’E) Deposition of Specimens: Queensland Museum, Brisbane, Australia; Holotype QM G 227597, Paratypes QM G 227598-227606 Etymology: This species is named after our friend and colleague, Mr Rick Thomas for all his encouragement and support. Description (Figures 1 & 2). Based on 11 whole-mounts. Body ellipsoidal, 1120–1496 (1289) × 272–560 (407), tegument spiny. Rhynchus a simple muscular sucker, 128–183 (161) long × 141–183 (162) wide. Mouth ventral, at midbody; pharynx, spherical 87–148 (116) long × 96–145 (115) wide. Caecum, sac-like, extends anteriorly beyond anterior margin of ovary, 170–331 (213) long. Testes, two, round, symmetrical, between pharynx and posterior extremity of body, with anterior testicular margin occasionally overlapping pharynx; anterior testis 93–173 (142) long × 96–173 (144) wide; posterior testis 100–170 (137) long × 100–180 (142) wide. Cirrus-sac (Figure 2) median to sinistral, 308–475 (367) long × 70–106 (89) wide, extending to mid-level of posterior testis. Seminal vesicle ovoid 37–80 (61) long × 48–167 (82) wide, within proximal portion of cirrus-sac. Pars prostatica straight, highly glandular, 241–286 (261) long, joins with seminal vesicle. Ejaculatory duct narrow, short. Genital atrium ovoid containing hook-shaped genital lobe with 2 projections. Common genital pore median ventro-subterminal. Ovary, pre-testicular, spherical, 98–173 (139) long × 105–183 (147) wide, antero-dextral to pharynx, 562–784 (642) from posterior extremity. Mehlis’ gland dextral, between posterior testis and ovary. Laurer’s canal not seen. Vitelline follicles forming two compact lateral groupings at level of posterior third of rhynchus, extending anteriorly to 109–164 (133) from anterior extremity. Vitelline ducts open into öötype within Mehlis’ gland. Uterus voluminous and convoluted, ascending sinistrally to level of vitelline follicles, then descending and opening into genital atrium. Eggs numerous, tanned, oval 13–22 (18) long × 7–12 (10) wide. Excretory pore terminal. Excretory vesicle I shaped, extending to anterior quarter of body. Discussion . Prosorhynchoides Dollfus, 1929 includes a large number of species grouped together due to the common feature of having a simple sucker for a rhynchus and pre-testicular ovary (Overstreet and Curran, 2002). The present species conforms to this diagnosis. The genus is in need of a major revision (see Overstreet and Curran, 2002) and has received some attention recently (Bott and Cribb, 2005 a; Bott and Cribb, 2005 b) though further disentanglement of the various synonymies is required. Bucephalopsis Diesing, 1855, Neobucephalopsis Dayal, 1948 and Bucephaloides Hopkins, 1954 are considered junior synonyms of Prosorhynchoides (see Overstreet and Curran, 2002). Within Prosorhynchoides , gut morphology is considered important for species differentiation (Overstreet and Curran, 2002). An important distinguishing feature of the present species is the testes, which are symmetrical. Only eight of the sixty-three species that we can find assigned to Prosorhynchoides , Bucephalopsis , Neobucephalopsis and Bucephaloides possess testes that are symmetrical or nearly symmetrical. We compared figures and descriptions of these seven to the present species. Of these, the unusual specimen of Prosorhynchoides gracilescens (Rudolphi, 1819) (with symmetrical rather than tandem testes) reported by Bartoli et al.(2006), Prosorhynchoides garuai (Verma, 1936) Bott & Cribb, 2005, Prosorhynchoides productiovalis (Lebedev, 1968) Bott & Cribb, 2005, Prosorhynchoides magnum (Verma, 1936) Bott & Cribb, 2005, Prosorhynchoides mehrai (Agarwal & Agarwal, 1986) Bott & Cribb, 2005 and Bucephalopsis rhynchobati Wang, 1985, differ from our specimens by having posteriorly rather than anteriorly directed caecum. We propose B. rhynchobati Wang, 1985, be recombined with Prosorhynchoides to become Prosorhynchoides rhynchobati (Wang, 1985) Roberts-Thomson & Bott, n. comb. as it conforms to the diagnosis of Prosorhynchoides . Prosorhynchoides gauhatiensis (Gupta, 1953) Bott & Cribb, 2005, and Prosorhynchoides thapari (Dayal, 1948) Bott & Cribb, 2005, both have a caecum directed anteriorly like in the present species. However, their caeca recurve anteriorly. Both species also have ovaries situated anterior to the caecum whereas the ovary of P. thomasi n. sp. is always posterior to the anterior extremity of the caecum. Specimens examined were morphologically distinct from other members of the genus and justify distinct species status. Dyer et al . (1988) examined specimens of Plagiotremus tapeinosoma and P. laudandus finding bucephalids that were identified as Prosorhynchoides koreana (Ozaki, 1928) Bott & Cribb, 2005, and specimens were not figured or described. Although, on initial inspection, bucephalids found in the present study appear similar to P. ko rea na , they exhibit a number of differences. The caecum in the new species extends anteriorly from the pharynx, whereas in P. k o re - ana , it initially extends anteriorly then turns posteriorly with caecal termination posterior to the pharynx. The genital pore in P. koreana is sinistral whereas in the present species the genital pore is median. Additionally, P. koreana has ovary and testes posterior to the pharynx, whereas the current species has an ovary extending anteriorly to the pharynx. Prosorhynchoides koreana was described from the fresh water catfish, Silurus asotus (Ozaki, 1928). We suggest that examining the specimens of Prosorhynchoides from Plagiotremus laudandus from Okinawa, Japan would be of interest to assess if they are conspecific with P. th oma si n. sp. or indeed a new species. Currently the habitat range reported for P. koreana (fresh and seawater) is exceptional and would pose interesting questions about the identity of suitable intermediate hosts. Adoption of what can be termed traditional bucephalid transmission (larger fish eating smaller fish) has also been observed in the cleaner wrasse: Labroides dimidiatus , L. bicolour and Bodianus axilaris (Jones et al., 2003; Jones et al., 2004). The mimicry of cleaner wrasse colouration and behaviour is strikingly apparent within the genus Plagiotremus . By mimicking cleaner wrasse, fang blennies are able to approach fish in the same manner as cleaner wrasse. Members of this genus were found primarily at cleaning stations and were frequently observed darting in to feed on cleaner wrasse ‘clients’. Cleaner wrasse have become hosts to bucephalids by cleaning ‘clients,’ or nipping fins, flesh, or mucus (Jones et al., 2004). Plagiotremus species undertake only micropredatory behaviour, with a diet of mucous, scales and fins (Randall, 1990). The bucephalid faunas of fang blennies and cleaner wrasse differ. Bucephalids from the genus Rhipidocotyle are found in cleaner wrasse and while R. labroidei Jones, Grutter & Cribb, 2003 exploits the symbiotic relationship between cleaner wrasse and their ‘clients’, P. thomasi n. sp. exploits the mimicry of cleaner wrasse by Plagiotremus spp. This study also included examination of 86 other blennies from 15 species from the northern (Lizard Island) and southern (Heron Island) Great Barrier Reef. Three other species of the tribe Nemophini were examined with no digeneans being found in the intestines of eight specimens of Petroscirtes fallax , three specimens of Meiacanthus lineatus and two specimens of Meiacanthus grammistes . It is plausible that this transmission pathway is unique within the Blenniidae to the tribe Nemophini and further restricted to the genus Plagiotremus . It is interesting to note that P. thomasi n. sp. was not found from the southern Great Barrier Reef (Heron Island) even though the type-host, Plagiotremus tapeinosoma , was examined on three occasions. Bucephalid definitive hosts are known to include piscivorous members of the Apogonidae, Carangidae, Scombridae, Sphyraenidae and Serranidae on the Great Barrier Reef. The dietary adoption of fin biting by fang blennies has allowed the Bucephalidae to colonise an unlikely host family in the Blenniidae. Acknowledgements. The authors wish to thank the staff of Lizard and Heron Island Research Stations. Dr Tom Cribb, Tavis Anderson, Saioa Martinez, Pete Cook, Dr Matt Nolan, Conor Jones, Jon Yantsch, Bart McKenzie, Dr Gaines Tyler and Dr Gaby Munoz from the University of Queensland for their advice and assistance with collections. Dr Craig Hayward (University of Tasmania) kindly made comments about an earlier draft of the manuscript. : Published as part of Bott, Ashley Roberts-Thomson Nathan J., 2007, Exploiting mimicry: Prosorhynchoides thomasi n. sp. (Digenea: Bucephalidae) from the fang blenny genus Plagiotremus (Bleeker) (Blenniidae) from off Lizard Island on the Great Barrier Reef, Australia, pp. 61-64 in Zootaxa 1514 on pages 61-64, DOI: 10.5281/zenodo.177276 : {"references": ["Overstreet, R. M. & Curran, S. S. (2002) Superfamily Bucephaloidea Poche, 1907. In: Gibson, D. I., Jones, A. & Bray, R. A. (Eds) Keys to the digenean parasites of vertebrates, CAB International, Wallingford, U. K. pp 67 - 110.", "Bott, N. J. & Cribb, T. H. (2005 a) First report of a bucephalid digenean from an apogonid teleost: Prosorhynchoides apogonis n. sp. from Cheilodipterus macrodon on the southern Great Barrier Reef, Australia. Systematic Parasitology, 60, 33 - 37.", "Bott, N. J. & Cribb, T. H. (2005 b) Prosorhynchoides lamprelli n. sp. (Digenea: Bucephalidae) from the brassy trevally, Caranx papuensis (Teleostei: Carangidae), from off Lizard Island on the Great Barrier Reef, Australia. Zootaxa, 1059, 33 - 38.", "Bartoli, P., Gibson, D. I. & Bray, R. A. (2006) Prosorhynchoides gracilescens (Rudolphi, 1819) (Digenea: Bucephalidae) from Lophius piscatorius L. is a species complex: a redescription of this species (sensu stricto) from the western Mediterranean and the description of P. borealis n. sp. from the northern North-east Atlantic. Systematic Parasitology, 63, 203 - 221.", "Dyer, W. G., Williams, E. H. & Williams, L. B. (1988) Digenetic trematodes of marine fishes of Okinawa, Japan. Journal of Parasitology, 74, 638 - 645.", "Ozaki, Y. (1928) Some Gasterostomatous Trematodes. Japanese Journal of Zoology, 2, (1), 35 - 60.", "Jones, C. M., Grutter, A. S. & Cribb, T. H. (2003) Rhipidocotyle labroidei n. sp. (Digenea: Bucephalidae) from Labroides dimidiatus (Valenciennes) (Labridae). Zootaxa, 327, 1 - 5.", "Jones, C. M., Grutter, A. S. & Cribb, T. H. (2004) Cleaner fish become hosts: a novel form of parasite transmission. Coral Reefs, In Press,"]}
format Text
author Bott, Ashley Roberts-Thomson Nathan J.
author_facet Bott, Ashley Roberts-Thomson Nathan J.
author_sort Bott, Ashley Roberts-Thomson Nathan J.
title Prosorhynchoides thomasi Bott, 2007, n. sp.
title_short Prosorhynchoides thomasi Bott, 2007, n. sp.
title_full Prosorhynchoides thomasi Bott, 2007, n. sp.
title_fullStr Prosorhynchoides thomasi Bott, 2007, n. sp.
title_full_unstemmed Prosorhynchoides thomasi Bott, 2007, n. sp.
title_sort prosorhynchoides thomasi bott, 2007, n. sp.
publisher Zenodo
publishDate 2007
url https://dx.doi.org/10.5281/zenodo.6252026
https://zenodo.org/record/6252026
long_lat ENVELOPE(-64.456,-64.456,-65.688,-65.688)
ENVELOPE(-45.633,-45.633,-60.600,-60.600)
ENVELOPE(-114.067,-114.067,-74.833,-74.833)
ENVELOPE(167.667,167.667,-72.800,-72.800)
ENVELOPE(-81.366,-81.366,50.550,50.550)
ENVELOPE(167.217,167.217,-77.483,-77.483)
ENVELOPE(167.350,167.350,-78.117,-78.117)
ENVELOPE(-112.719,-112.719,58.384,58.384)
ENVELOPE(8.897,8.897,62.618,62.618)
ENVELOPE(-81.183,-81.183,51.200,51.200)
ENVELOPE(-63.343,-63.343,-64.690,-64.690)
geographic Queensland
Lizard Island
Brisbane
Bray
Randall
Dyer
Fang
Hayward
Heron Island
Verma
Gaby
The Fang
geographic_facet Queensland
Lizard Island
Brisbane
Bray
Randall
Dyer
Fang
Hayward
Heron Island
Verma
Gaby
The Fang
genre North East Atlantic
genre_facet North East Atlantic
op_relation http://publication.plazi.org/id/FFFEFFE5060BDA1F924BF64CFFEEA463
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http://publication.plazi.org/id/FFFEFFE5060BDA1F924BF64CFFEEA463
https://dx.doi.org/10.5281/zenodo.177277
https://dx.doi.org/10.5281/zenodo.6252025
https://zenodo.org/communities/biosyslit
op_rights Open Access
Creative Commons Zero v1.0 Universal
https://creativecommons.org/publicdomain/zero/1.0/legalcode
cc0-1.0
info:eu-repo/semantics/openAccess
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op_doi https://doi.org/10.5281/zenodo.6252026
https://doi.org/10.5281/zenodo.177276
https://doi.org/10.5281/zenodo.177277
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spelling ftdatacite:10.5281/zenodo.6252026 2023-05-15T17:39:01+02:00 Prosorhynchoides thomasi Bott, 2007, n. sp. Bott, Ashley Roberts-Thomson Nathan J. 2007 https://dx.doi.org/10.5281/zenodo.6252026 https://zenodo.org/record/6252026 unknown Zenodo http://publication.plazi.org/id/FFFEFFE5060BDA1F924BF64CFFEEA463 https://zenodo.org/communities/biosyslit https://dx.doi.org/10.5281/zenodo.177276 http://publication.plazi.org/id/FFFEFFE5060BDA1F924BF64CFFEEA463 https://dx.doi.org/10.5281/zenodo.177277 https://dx.doi.org/10.5281/zenodo.6252025 https://zenodo.org/communities/biosyslit Open Access Creative Commons Zero v1.0 Universal https://creativecommons.org/publicdomain/zero/1.0/legalcode cc0-1.0 info:eu-repo/semantics/openAccess CC0 Biodiversity Taxonomy Animalia Platyhelminthes Trematoda Plagiorchiida Bucephalidae Prosorhynchoides Prosorhynchoides thomasi article-journal ScholarlyArticle Taxonomic treatment Text 2007 ftdatacite https://doi.org/10.5281/zenodo.6252026 https://doi.org/10.5281/zenodo.177276 https://doi.org/10.5281/zenodo.177277 https://doi.org/10.5281/zenodo.6252025 2022-04-01T12:20:49Z Prosorhynchoides thomasi n. sp. (Figs. 1–2) Type host: Plagiotremus tapeinosoma (Bleeker). Prevalence: 55 % (6 / 11) Other hosts: Plagiotremus rhinorhynchos (Bleeker). Prevalence: 85 % (5 / 6) Site of Infection: Intestine Type Locality: Lizard Island, Australia (14 ° 40 ’S, 145 ° 20 ’E) Deposition of Specimens: Queensland Museum, Brisbane, Australia; Holotype QM G 227597, Paratypes QM G 227598-227606 Etymology: This species is named after our friend and colleague, Mr Rick Thomas for all his encouragement and support. Description (Figures 1 & 2). Based on 11 whole-mounts. Body ellipsoidal, 1120–1496 (1289) × 272–560 (407), tegument spiny. Rhynchus a simple muscular sucker, 128–183 (161) long × 141–183 (162) wide. Mouth ventral, at midbody; pharynx, spherical 87–148 (116) long × 96–145 (115) wide. Caecum, sac-like, extends anteriorly beyond anterior margin of ovary, 170–331 (213) long. Testes, two, round, symmetrical, between pharynx and posterior extremity of body, with anterior testicular margin occasionally overlapping pharynx; anterior testis 93–173 (142) long × 96–173 (144) wide; posterior testis 100–170 (137) long × 100–180 (142) wide. Cirrus-sac (Figure 2) median to sinistral, 308–475 (367) long × 70–106 (89) wide, extending to mid-level of posterior testis. Seminal vesicle ovoid 37–80 (61) long × 48–167 (82) wide, within proximal portion of cirrus-sac. Pars prostatica straight, highly glandular, 241–286 (261) long, joins with seminal vesicle. Ejaculatory duct narrow, short. Genital atrium ovoid containing hook-shaped genital lobe with 2 projections. Common genital pore median ventro-subterminal. Ovary, pre-testicular, spherical, 98–173 (139) long × 105–183 (147) wide, antero-dextral to pharynx, 562–784 (642) from posterior extremity. Mehlis’ gland dextral, between posterior testis and ovary. Laurer’s canal not seen. Vitelline follicles forming two compact lateral groupings at level of posterior third of rhynchus, extending anteriorly to 109–164 (133) from anterior extremity. Vitelline ducts open into öötype within Mehlis’ gland. Uterus voluminous and convoluted, ascending sinistrally to level of vitelline follicles, then descending and opening into genital atrium. Eggs numerous, tanned, oval 13–22 (18) long × 7–12 (10) wide. Excretory pore terminal. Excretory vesicle I shaped, extending to anterior quarter of body. Discussion . Prosorhynchoides Dollfus, 1929 includes a large number of species grouped together due to the common feature of having a simple sucker for a rhynchus and pre-testicular ovary (Overstreet and Curran, 2002). The present species conforms to this diagnosis. The genus is in need of a major revision (see Overstreet and Curran, 2002) and has received some attention recently (Bott and Cribb, 2005 a; Bott and Cribb, 2005 b) though further disentanglement of the various synonymies is required. Bucephalopsis Diesing, 1855, Neobucephalopsis Dayal, 1948 and Bucephaloides Hopkins, 1954 are considered junior synonyms of Prosorhynchoides (see Overstreet and Curran, 2002). Within Prosorhynchoides , gut morphology is considered important for species differentiation (Overstreet and Curran, 2002). An important distinguishing feature of the present species is the testes, which are symmetrical. Only eight of the sixty-three species that we can find assigned to Prosorhynchoides , Bucephalopsis , Neobucephalopsis and Bucephaloides possess testes that are symmetrical or nearly symmetrical. We compared figures and descriptions of these seven to the present species. Of these, the unusual specimen of Prosorhynchoides gracilescens (Rudolphi, 1819) (with symmetrical rather than tandem testes) reported by Bartoli et al.(2006), Prosorhynchoides garuai (Verma, 1936) Bott & Cribb, 2005, Prosorhynchoides productiovalis (Lebedev, 1968) Bott & Cribb, 2005, Prosorhynchoides magnum (Verma, 1936) Bott & Cribb, 2005, Prosorhynchoides mehrai (Agarwal & Agarwal, 1986) Bott & Cribb, 2005 and Bucephalopsis rhynchobati Wang, 1985, differ from our specimens by having posteriorly rather than anteriorly directed caecum. We propose B. rhynchobati Wang, 1985, be recombined with Prosorhynchoides to become Prosorhynchoides rhynchobati (Wang, 1985) Roberts-Thomson & Bott, n. comb. as it conforms to the diagnosis of Prosorhynchoides . Prosorhynchoides gauhatiensis (Gupta, 1953) Bott & Cribb, 2005, and Prosorhynchoides thapari (Dayal, 1948) Bott & Cribb, 2005, both have a caecum directed anteriorly like in the present species. However, their caeca recurve anteriorly. Both species also have ovaries situated anterior to the caecum whereas the ovary of P. thomasi n. sp. is always posterior to the anterior extremity of the caecum. Specimens examined were morphologically distinct from other members of the genus and justify distinct species status. Dyer et al . (1988) examined specimens of Plagiotremus tapeinosoma and P. laudandus finding bucephalids that were identified as Prosorhynchoides koreana (Ozaki, 1928) Bott & Cribb, 2005, and specimens were not figured or described. Although, on initial inspection, bucephalids found in the present study appear similar to P. ko rea na , they exhibit a number of differences. The caecum in the new species extends anteriorly from the pharynx, whereas in P. k o re - ana , it initially extends anteriorly then turns posteriorly with caecal termination posterior to the pharynx. The genital pore in P. koreana is sinistral whereas in the present species the genital pore is median. Additionally, P. koreana has ovary and testes posterior to the pharynx, whereas the current species has an ovary extending anteriorly to the pharynx. Prosorhynchoides koreana was described from the fresh water catfish, Silurus asotus (Ozaki, 1928). We suggest that examining the specimens of Prosorhynchoides from Plagiotremus laudandus from Okinawa, Japan would be of interest to assess if they are conspecific with P. th oma si n. sp. or indeed a new species. Currently the habitat range reported for P. koreana (fresh and seawater) is exceptional and would pose interesting questions about the identity of suitable intermediate hosts. Adoption of what can be termed traditional bucephalid transmission (larger fish eating smaller fish) has also been observed in the cleaner wrasse: Labroides dimidiatus , L. bicolour and Bodianus axilaris (Jones et al., 2003; Jones et al., 2004). The mimicry of cleaner wrasse colouration and behaviour is strikingly apparent within the genus Plagiotremus . By mimicking cleaner wrasse, fang blennies are able to approach fish in the same manner as cleaner wrasse. Members of this genus were found primarily at cleaning stations and were frequently observed darting in to feed on cleaner wrasse ‘clients’. Cleaner wrasse have become hosts to bucephalids by cleaning ‘clients,’ or nipping fins, flesh, or mucus (Jones et al., 2004). Plagiotremus species undertake only micropredatory behaviour, with a diet of mucous, scales and fins (Randall, 1990). The bucephalid faunas of fang blennies and cleaner wrasse differ. Bucephalids from the genus Rhipidocotyle are found in cleaner wrasse and while R. labroidei Jones, Grutter & Cribb, 2003 exploits the symbiotic relationship between cleaner wrasse and their ‘clients’, P. thomasi n. sp. exploits the mimicry of cleaner wrasse by Plagiotremus spp. This study also included examination of 86 other blennies from 15 species from the northern (Lizard Island) and southern (Heron Island) Great Barrier Reef. Three other species of the tribe Nemophini were examined with no digeneans being found in the intestines of eight specimens of Petroscirtes fallax , three specimens of Meiacanthus lineatus and two specimens of Meiacanthus grammistes . It is plausible that this transmission pathway is unique within the Blenniidae to the tribe Nemophini and further restricted to the genus Plagiotremus . It is interesting to note that P. thomasi n. sp. was not found from the southern Great Barrier Reef (Heron Island) even though the type-host, Plagiotremus tapeinosoma , was examined on three occasions. Bucephalid definitive hosts are known to include piscivorous members of the Apogonidae, Carangidae, Scombridae, Sphyraenidae and Serranidae on the Great Barrier Reef. The dietary adoption of fin biting by fang blennies has allowed the Bucephalidae to colonise an unlikely host family in the Blenniidae. Acknowledgements. The authors wish to thank the staff of Lizard and Heron Island Research Stations. Dr Tom Cribb, Tavis Anderson, Saioa Martinez, Pete Cook, Dr Matt Nolan, Conor Jones, Jon Yantsch, Bart McKenzie, Dr Gaines Tyler and Dr Gaby Munoz from the University of Queensland for their advice and assistance with collections. Dr Craig Hayward (University of Tasmania) kindly made comments about an earlier draft of the manuscript. : Published as part of Bott, Ashley Roberts-Thomson Nathan J., 2007, Exploiting mimicry: Prosorhynchoides thomasi n. sp. (Digenea: Bucephalidae) from the fang blenny genus Plagiotremus (Bleeker) (Blenniidae) from off Lizard Island on the Great Barrier Reef, Australia, pp. 61-64 in Zootaxa 1514 on pages 61-64, DOI: 10.5281/zenodo.177276 : {"references": ["Overstreet, R. M. & Curran, S. S. (2002) Superfamily Bucephaloidea Poche, 1907. In: Gibson, D. I., Jones, A. & Bray, R. A. (Eds) Keys to the digenean parasites of vertebrates, CAB International, Wallingford, U. K. pp 67 - 110.", "Bott, N. J. & Cribb, T. H. (2005 a) First report of a bucephalid digenean from an apogonid teleost: Prosorhynchoides apogonis n. sp. from Cheilodipterus macrodon on the southern Great Barrier Reef, Australia. Systematic Parasitology, 60, 33 - 37.", "Bott, N. J. & Cribb, T. H. (2005 b) Prosorhynchoides lamprelli n. sp. (Digenea: Bucephalidae) from the brassy trevally, Caranx papuensis (Teleostei: Carangidae), from off Lizard Island on the Great Barrier Reef, Australia. Zootaxa, 1059, 33 - 38.", "Bartoli, P., Gibson, D. I. & Bray, R. A. (2006) Prosorhynchoides gracilescens (Rudolphi, 1819) (Digenea: Bucephalidae) from Lophius piscatorius L. is a species complex: a redescription of this species (sensu stricto) from the western Mediterranean and the description of P. borealis n. sp. from the northern North-east Atlantic. Systematic Parasitology, 63, 203 - 221.", "Dyer, W. G., Williams, E. H. & Williams, L. B. (1988) Digenetic trematodes of marine fishes of Okinawa, Japan. Journal of Parasitology, 74, 638 - 645.", "Ozaki, Y. (1928) Some Gasterostomatous Trematodes. Japanese Journal of Zoology, 2, (1), 35 - 60.", "Jones, C. M., Grutter, A. S. & Cribb, T. H. (2003) Rhipidocotyle labroidei n. sp. (Digenea: Bucephalidae) from Labroides dimidiatus (Valenciennes) (Labridae). Zootaxa, 327, 1 - 5.", "Jones, C. M., Grutter, A. S. & Cribb, T. H. (2004) Cleaner fish become hosts: a novel form of parasite transmission. Coral Reefs, In Press,"]} Text North East Atlantic DataCite Metadata Store (German National Library of Science and Technology) Queensland Lizard Island ENVELOPE(-64.456,-64.456,-65.688,-65.688) Brisbane ENVELOPE(-45.633,-45.633,-60.600,-60.600) Bray ENVELOPE(-114.067,-114.067,-74.833,-74.833) Randall ENVELOPE(167.667,167.667,-72.800,-72.800) Dyer ENVELOPE(-81.366,-81.366,50.550,50.550) Fang ENVELOPE(167.217,167.217,-77.483,-77.483) Hayward ENVELOPE(167.350,167.350,-78.117,-78.117) Heron Island ENVELOPE(-112.719,-112.719,58.384,58.384) Verma ENVELOPE(8.897,8.897,62.618,62.618) Gaby ENVELOPE(-81.183,-81.183,51.200,51.200) The Fang ENVELOPE(-63.343,-63.343,-64.690,-64.690)