Tuhaa Pae 2013

Référence sismer

http://dx.doi.org/10.17600/13100030

General information

Head of mission

Debitus Cécile

Date and place of departure

06/03/2013 Papeete (Polynésie Française)

Date and place of arrival

10/04/2013 Papeete (Polynésie Française)

Ship : Alis

Goals :

Inventaire des spongiaires de Polynésie française (iles australes).

Works :

Thanks :

Bibliography (6) [+] [-]

Export the bibliographies

Fedesov A.E., Puillandre N., Herrmann M., Dgebuadze P. & Bouchet P. 2017. Phylogeny, systematics, and evolution of the family Costellariidae (Gastropoda: Neogastropoda). Zoological Journal of the Linnean Society 179(3): 541-626. DOI:10.1111/zoj.12431
Abstract [+] [-]
The neogastropod family Costellariidae is a large and successful group of carnivorous marine mollusks that encompasses about 475 living species. Costellariids are most diverse in the tropical Indo-Pacific at a depth interval of 0–200 m, where they are largely represented by numerous species commonly assigned to the genus Vexillum. The present work expands the taxon sampling of a previous phylogeny of the mitriform gastropods to resolve earlier problematic relationships, and thus establish a robust framework of the family, revise its taxonomy, and uncover major trends in the evolution of costellariid morphology. A multicuspidate rachidian is shown to have appeared at least twice in the evolutionary history of the family: it is regarded as an apomorphy of the primarily Indo-Pacific Vexillum–Austromitra–Atlantilux lineage, and has evolved independently in the Nodicostellaria–Mitromica lineage of the western hemisphere. The genera Ceratoxancus and Latiromitra are transferred from the Ptychatractidae to the Costellariidae. Tosapusia, Protoelongata, and Pusia are ranked as full genera, the latter with the three subgenera Pusia, Ebenomitra, and Vexillena. Vexillum (Costellaria) and Zierliana are treated as synonyms of Vexillum. The replacement name Suluspira is proposed for Visaya Poppe, Guillot de Suduiraut & Tagaro, 2006, non Ahyong, 2004 (Crustacea). We introduce four new genera, Alisimitra, Costapex, Turriplicifer, and Orphanopusia, and characterize their anatomy; 14 new species, mostly from deep water in the Indo-Pacific, are described in the genera Tosapusia, Alisimitra, Costapex, and Pusia. At least two species of Costapex gen. nov. have been collected from sunken wood.

Accessible surveys cited (23) [+] [-]
ATIMO VATAE, AURORA 2007, BIOPAPUA, BOA1, CONCALIS, EBISCO, EXBODI, KARUBENTHOS 2012, KAVIENG 2014, MAINBAZA, MIRIKY, NORFOLK 2, NanHai 2014, PANGLAO 2004, PANGLAO 2005, PAPUA NIUGINI, SALOMON 2, SALOMONBOA 3, SANTO 2006, TARASOC, TERRASSES, Tuhaa Pae 2013, Restricted

Associated collection codes: IM (Molluscs)
Fedosov A., Puillandre N., Kantor Y. & Bouchet P. 2015. Phylogeny and systematics of mitriform gastropods (Mollusca: Gastropoda: Neogastropoda): Phylogeny of Mitriform Gastropods. Zoological Journal of the Linnean Society 175(2): 336-359. DOI:10.1111/zoj.12278
Abstract [+] [-]
With about 800 Recent species, ‘miters’ are a widely distributed group of tropical and subtropical gastropods that are most diverse in the Indo-West Pacific. They include the two families Mitridae and Costellariidae, similar in shell morphology and traditionally treated as close relatives. Some genera of deep-water Ptychatractidae and Volutomitridae are close to miters in shell morphology, and the term ‘mitriform gastropods’ has been introduced to refer to Mitridae, Costellariidae, and this assortment of convergent forms. The present study aimed at the reconstruction of phylogenetic relationships of mitriform gastropods based on representative taxon sampling. Four genetic markers [cytochrome c oxidase subunit I (COI), 16S and 12S rRNA mitochondrial genes, and H3 (Histone 3) nuclear gene] were sequenced for over 90 species in 20 genera, and the molecular data set was supplemented by studies of radula morphology. Our analysis recovered Mitridae as a monophyletic group, whereas the genus Mitra was found to be polyphyletic. Of 42 mitrid species included in the analysis, 37 formed a well-supported ‘core Mitridae’ consisting of four major clades, three of them consistent with the subfamilies Cylindromitrinae, Imbricariinae, and Mitrinae, and Strigatella paupercula standing out by itself. Basal to the ‘core Mitridae’ are four minor lineages, with the genus Charitodoron recognized as sister group to all other Mitridae. The deepwater family Pyramimitridae shows a sister relationship to the Mitridae, with high support for a Pyramimitridae + Mitridae clade. Our results recover the monophyly of the Costellariidae, which form a wellsupported clade that also includes Ptychatractidae, Columbariinae, and Volutomitridae, but not Mitridae. Most derived and diverse amongst Costellariidae are species of Vexillum, characterized by a bow-shaped, multicuspidate rachidian tooth. Several previously unrecognized deep-water costellariid lineages are revealed. Their members retain some plesiomorphies – in particular a tricuspidate rachidian tooth – that makes them morphologically intermediate between ptychatractids and Vexillum. The taxa of Ptychatractidae included in the analysis are not monophyletic, but form three well-supported, unrelated groupings, corresponding respectively to Ceratoxancus + Latiromitra, Exilia, and Exiliodea. None of them shows an affinity to Pseudolividae.

Accessible surveys cited (21) [+] [-]
ATIMO VATAE, AURORA 2007, BIOPAPUA, CONCALIS, EBISCO, EXBODI, INHACA 2011, MAINBAZA, MIRIKY, NORFOLK 2, PANGLAO 2004, PANGLAO 2005, PAPUA NIUGINI, Restricted, SALOMON 2, SALOMONBOA 3, SANTO 2006, TARASOC, TERRASSES, Tuhaa Pae 2013, Restricted

Associated collection codes: IM (Molluscs)
Fedosov A., Puillandre N., Herrmann M., Kantor Y., Oliverio M., Dgebuadze P., Modica M.V. & Bouchet P. 2018. The collapse of Mitra: molecular systematics and morphology of the Mitridae (Gastropoda: Neogastropoda). Zoological Journal of the Linnean Society 20: 1-85. DOI:10.1093/zoolinnean/zlx073/4855867
Abstract [+] [-]
Alongside confirmation of the monophyly of the gastropod family Mitridae, a recent molecular phylogenetic analysis disclosed multiple inconsistencies with the existing taxonomic framework. In the present study, we expanded the molecular sampling to 103 species, representing 26% of the 402 extant species currently accepted in the family and 16 of the 19 currently accepted extant genera; 83 species were sequenced for four molecular markers [cytochrome c oxidase subunit I (COI), 16S and 12S rRNA, and H3 (Histone 3)]. Molecular analyses were supplemented by morphological studies, focused on characters of the radula and, in a more restricted data set, proboscis anatomy. These data form the basis for a revised classification of the Mitridae. A first dichotomy divides mitrids into two unequal clades, Charitodoron and the Mitridae s.s. Species of Charitodoron show profound differences to all other Mitridae in foregut anatomy (lacking an epiproboscis) and shell morphology (smooth columella, bulbous protoconch of non-planktotrophic type), which leads to the erection of the separate family Charitodoronidae fam. nov. Three traditional subfamilies (Mitrinae, Cylindromitrinae and Imbricariinae) correspond to three of the inferred phylogenetic lineages of Mitridae s.s.; we redefine their contents, reinstate Strigatellinae Troschel, 1869 as valid and establish the new subfamily Isarinae. In the absence of molecular material, a sixth subfamily, Pleioptygmatinae, is included in Mitridae based on morphological considerations only. To resolve the polyphyly of Mitra and Cancilla in their current taxonomic extension, we reinstate the genera Episcomitra Monterosato, 1917, Isara H. & A. Adams, 1853 and Probata Sarasúa, 1989 and establish 11 new genera: Quasimitra, Roseomitra, Fusidomiporta, Profundimitra, Cancillopsis, Pseudonebularia, Gemmulimitra and Neotiara in Mitrinae; Imbricariopsis in Imbricariinae; Carinomitra and Condylomitra are left unassigned to a subfamily. Altogether 32 genera are recognized within the family. Their diversity and distribution are discussed, along with general trends in morphological evolution of the family.

Accessible surveys cited (20) [+] [-]
ATIMO VATAE, AURORA 2007, BIOPAPUA, CONCALIS, EBISCO, EXBODI, GUYANE 2014, INHACA 2011, KARUBENTHOS 2, KARUBENTHOS 2012, KAVIENG 2014, MAINBAZA, MIRIKY, PANGLAO 2004, PANGLAO 2005, PAPUA NIUGINI, SALOMONBOA 3, SANTO 2006, TARASOC, Tuhaa Pae 2013

Associated collection codes: IM (Molluscs)
Kantor Y.I., Fedosov A.E., Kosyan A.R., Puillandre N., Sorokin P.A., Kano Y., Clark R. & Bouchet P. 2022. Molecular phylogeny and revised classification of the Buccinoidea (Neogastropoda). Zoological Journal of the Linnean Society 194(3): 789-857. DOI:10.1093/zoolinnean/zlab031
Abstract [+] [-]
Abstract The superfamily Buccinoidea is distributed across the oceans of the world from the Arctic Ocean to the Antarctic and from intertidal to abyssal depths. It encompasses 3351 recent species in 337 genera. The latest taxonomic account recognized eight full families. For the first time, the monophyly of the superfamily and the relationships among the families are tested with molecular data supplemented by anatomical and radula data. Five genetic markers were used: fragments of mitochondrial COI, 16S rRNA, 12S rRNA and nuclear Histone 3 (H3) and 28S rRNA genes (for 225 species of 117 genera). Our analysis recovered Buccinoidea monophyletic in Bayesian analyses. The relationships between the formerly recognized families and subfamilies are drastically revised and a new classification of the superfamily is here proposed, now including 20 taxa of family rank and 23 subfamilies. Five new families (Chauvetiidae, Dolicholatiridae, Eosiphonidae, Prodotiidae and Retimohniidae) and one subfamily of Nassariidae (Tomliniinae) are described. Austrosiphonidae and Tudiclidae are resurrected from synonymy and employed in a new taxonomical extension. All but 40 recent genera are reclassified. Our results demonstrate that anatomy is rather uniform within the superfamily. With exceptions, the rather uniform radular morphology alone does not allow the allocation of genera to a particular family without additional molecular data.

Accessible surveys cited (32) [+] [-]
ATIMO VATAE, AURORA 2007, BIOPAPUA, BOA1, CONCALIS, CORSICABENTHOS 1, DongSha 2014, EBISCO, GUYANE 2014, ILES DU SALUT, INHACA 2011, KANACONO, KARUBENTHOS 2, KARUBENTHOS 2012, KAVALAN 2018, KOUMAC 2.1, MADIBENTHOS, MAINBAZA, MIRIKY, NORFOLK 2, NanHai 2014, PANGLAO 2004, PANGLAO 2005, PAPUA NIUGINI, SALOMON 2, SALOMONBOA 3, SANTO 2006, TAIWAN 2004, TARASOC, TERRASSES, Tuhaa Pae 2013, ZhongSha 2015

Associated collection codes: IM (Molluscs)
Sanders M.T., Merle D., Laurin M., Bonillo C. & Puillandre N. 2021. Raising names from the dead: A time-calibrated phylogeny of frog shells (Bursidae, Tonnoidea, Gastropoda) using mitogenomic data. Molecular Phylogenetics and Evolution 156: 107040. DOI:10.1016/j.ympev.2020.107040
Abstract [+] [-]
With 59 Recent species, Bursidae, known as «frog shells», are a small but widely distributed group of tropical and subtropical gastropods that are most diverse in the Indo-West Pacific. The present study is aimed at recon structing phylogenetic relationships of bursid gastropods based on extensive and representative taxon sampling. Five genetic markers (cytochrome c oxidase subunit I (cox1), 16 s and 12 s rRNA mitochondrial genes, 28 s rRNA and Histone H3 nuclear gene) were sequenced for over 30 species in every known genus but Crossata. Furthermore, we sequenced the complete mt-genome of 9 species (10 specimens) (Aspa marginata, Marsupina bufo, Korrigania quirihorai, Korrigania fijiensis, Tutufa rubeta, Bursa lamarckii, Lampasopsis rhodostoma (twice), Bufonaria perelegans and Bursa aff. tuberosissima). Our analysis recovered Bursidae as a monophyletic group, whereas the genus Bursa was found to be polyphyletic. The genera Talisman and Dulcerana are resurrected and the genera Alanbeuella gen. nov. and Korrigania gen. nov. are described. Dating analysis using 21 extinct taxa for node and simplified tip calibrations was performed, showing a diversification of the group in two phases. Diversification may be linked to tectonic events leading to biodiversity relocation from the western Tethys to ward the Indo-Pacific.

Accessible surveys cited (22) [+] [-]
ATIMO VATAE, CONCALIS, EBISCO, EXBODI, GUYANE 2014, INHACA 2011, KARUBENTHOS 2, KARUBENTHOS 2012, MAINBAZA, MIRIKY, NORFOLK 1, NORFOLK 2, Restricted, PANGLAO 2004, PANGLAO 2005, PAPUA NIUGINI, SALOMON 2, SANTO 2006, TERRASSES, Tuhaa Pae 2013, Restricted, ZhongSha 2015

Associated collection codes: IM (Molluscs)
Strong E.E. & Bouchet P. 2018. A rare and unusual new bittiine genus with two new species from the South Pacific (Cerithiidae, Gastropoda). ZooKeys 758: 1-18. DOI:10.3897/zookeys.758.25100
Abstract [+] [-]
A new genus, Limatium gen. n., and two new species, L. pagodula sp. n. and L. aureum sp. n. are described, found on outer slopes of barrier reefs and fringing reefs in the South Pacific. They are rare for cerithiids, which typically occur in large populations. The two new species are represented by 108 specimens sampled over a period of 30 years, only 16 of which were collected alive. Three subadults from the Philippines and Vanuatu likely represent a third species. In addition to their rarity, Limatium species are atypical for cerithiids in their smooth, polished, honey to golden brown shells with distinctive white fascioles extending suture to suture. The radula presents a unique morphology that does not readily suggest an affinity to any of the cerithiid subfamilies. Two live-collected specimens, one of each species and designated as holotypes, were preserved in 95% ethanol and sequenced. Bayesian analysis of partial COI and 16S rDNA sequences demonstrates a placement in the Bittiinae, further extending our morphological concept of the subfamily.

Accessible surveys cited (15) [+] [-]
ATIMO VATAE, BATHUS 1, BENTHAUS, BORDAU 2, CORAIL 2, EBISCO, INHACA 2011, LAGON, LIFOU 2000, MONTROUZIER, MUSORSTOM 3, PANGLAO 2004, RAPA 2002, SANTO 2006, Tuhaa Pae 2013

Associated collection codes: IM (Molluscs)

List of documents

Courriel: Restricted access (1)

Documents post-campagne: Restricted access (1)

List of photos

List of participants

Detail :

: Debitus, Cécile (Chimiste, Institut de Recherche pour le Développement); 06/03/2013 - 10/04/2013 Chef de mission; Fedosov, Alexander (Malacologie, Académie des sciences de Russie); 06/03/2013 - 10/04/2013 Participant

Stations map

GoogleEarth file (.kml)

List of stations

Station/Gathering	Latitude	Longitude	Date	Depths
ARAP01	27°36,9'S	144°18,1'W	20130311 11/03/2013	48 m
ARAP02	27°36,8'S	144°18,4'W	20130311 11/03/2013	36 m
ARAP03	27°30,8'S	144°18,4'W	20130311 11/03/2013	24 m
ARAP04	27°34,7'S	144°18,8'W	20130311 11/03/2013	10 m
ARAP05	27°36,5'S	144°17,6'W	20130312 12/03/2013	55 m
ARAP06	27°38,4'S	144°18,4'W	20130312 12/03/2013	35 m
ARAP07	27°37,5'S	144°18,2'W	20130312 12/03/2013	30 m
AM01	27°54,1'S	143°29,4'W	20130313 13/03/2013	35 m
AM02	27°52,8'S	143°29,3'W	20130313 13/03/2013	35 m
AM03	27°53,8'S	143°29,4'W	20130313 13/03/2013	20 m
AM04	27°52,7'S	143°29,1'W	20130314 14/03/2013	15 m
AM05	27°53,4'S	143°29,9'W	20130314 14/03/2013	28 m
AM06	27°53,6'S	143°30,6'W	20130314 14/03/2013	30 m
AM07	27°54'S	143°29,4'W	20130314 14/03/2013	30 m
ARAP08	27°38'S	144°22'W	20130315 15/03/2013	33 m
ARAP09	27°39,1'S	144°20,1'W	20130315 15/03/2013	35 m
ARAP10	27°36,3'S	144°22,9'W	20130315 15/03/2013	18 m
ARAP11	27°35,8'S	144°23,1'W	20130315 15/03/2013	60 m
ARAP12	27°33,1'S	144°20,7'W	20130316 16/03/2013	59 m
ARAP13	27°33,1'S	144°20,7'W	20130316 16/03/2013	26 m
ARAP14	27°33,6'S	144°21,1'W	20130316 16/03/2013	17 m
ARAP15	27°34,1'S	144°21,1'W	20130316 16/03/2013	8 m
ARAP16	27°36,8'S	144°19,3'W	20130316 16/03/2013	39 m
ARAI01	23°51,1'S	147°42,1'W	20130319 19/03/2013	12 m
ARAI02	23°49,7'S	147°40'W	20130319 19/03/2013	16 m
ARAI03	23°51,3'S	147°40,5'W	20130319 19/03/2013	15 m
ARAI04	23°51'S	147°38,3'W	20130320 20/03/2013	18 m
ARAI05	23°52,2'S	147°41,9'W	20130320 20/03/2013	19 m
ARAI06	23°53'S	147°38,8'W	20130320 20/03/2013	8 m
ARAI07	23°53,3'S	147°40,9'W	20130320 20/03/2013	8 m
ARAI08	23°49,5'S	147°41'W	20130321 21/03/2013	49 m
ARAI09	23°49,6'S	147°40,9'W	20130321 21/03/2013	26 m
ARAI10	23°53,5'S	147°41,4'W	20130321 21/03/2013	4 m
ARAI11	23°50,7'S	147°41,2'W	20130321 21/03/2013	6 m
ARAI12	23°50'S	147°34,7'W	20130322 22/03/2013	49 m
ARAI13	23°49,8'S	147°36,8'W	20130322 22/03/2013	23 m
AT01	23°25,9'S	149°30,1'W	20130323 23/03/2013	59 m
AT02	23°25,4'S	149°27,4'W	20130323 23/03/2013	30 m
AT03	23°25,1'S	149°27,7'W	20130323 23/03/2013	7 m
AT04	23°25,1'S	149°27'W	20130323 23/03/2013	14 m
AT05	23°25,1'S	149°23,6'W	20130324 24/03/2013	55 m
AT06	23°25,5'S	149°25,6'W	20130324 24/03/2013	20 m
AT07	23°19,7'S	149°29,3'W	20130324 24/03/2013	14 m
AT08	23°20,8'S	149°31,7'W	20130326 26/03/2013	56 m
AT09	23°20,3'S	149°30,7'W	20130326 26/03/2013	24 m
AT10	23°20,4'S	149°29,4'W	20130326 26/03/2013	7 m
AT11	23°20,4'S	149°29,4'W	20130326 26/03/2013	8 m
AT12	23°22,2'S	149°25'W	20130327 27/03/2013	14 m
AT13	23°23,6'S	149°24,6'W	20130327 27/03/2013	15 m
AT14	23°24,6'S	149°19,2'W	20130327 27/03/2013	5 m
AT15	23°24,3'S	149°30,7'W	20130327 27/03/2013	5 m
AT16	23°20,3'S	149°30,7'W	20130327 27/03/2013	24 m
AT17	23°20,1'S	149°29,4'W	20130327 27/03/2013	5 m
ARU01	22°28,1'S	151°22,4'W	20130328 28/03/2013	48 m
ARU02	22°26,5'S	151°20,5'W	20130328 28/03/2013	19 m
ARU03	22°27'S	151°22,9'W	20130328 28/03/2013	17 m
ARU04	22°27,1'S	151°19,4'W	20130329 29/03/2013	46 m
ARU05	22°28,7'S	151°21,6'W	20130329 29/03/2013	16 m
ARU06	22°29'S	151°21,4'W	20130329 29/03/2013	10 m
ARU07	22°31,6'S	151°21'W	20130330 30/03/2013	60 m
ARU08	22°30,8'S	151°21,3'W	20130330 30/03/2013	25 m
ARU09	22°26,7'S	151°20,7'W	20130401 01/04/2013	1 m
ARU10	22°30,7'S	151°19,6'W	20130401 01/04/2013	57 m
ARI01	22°37,9'S	152°48,1'W	20130402 02/04/2013	60 m
ARI03	22°40,1'S	152°48,7'W	20130403 03/04/2013	65 m
ARI04	22°38,7'S	152°49,5'W	20130403 03/04/2013	24 m
ARI05	22°38,7'S	152°42,2'W	20130404 04/04/2013	75 m
AMA01	21°48,8'S	154°41,3'W	20130405 05/04/2013	75 m
AMA02	21°47,8'S	154°43'W	20130405 05/04/2013	24 m
AMA03	21°48,2'S	154°43,2'W	20130405 05/04/2013	26 m
AMA04	21°49,7'S	154°42,3'W	20130406 06/04/2013	60 m
AMA05	21°48,2'S	154°43,2'W	20130406 06/04/2013	26 m
AMA06	21°47,6'S	154°41,7'W	20130407 07/04/2013	60 m
ARI02	22°38'S	152°48,2'W	20160402 02/04/2016	15 m

Taxonomy by access

Class	Access	Number of reports