Conasprelloides

Conasprelloides
	Apertural and abapertural views of shell of Conasprelloides cancellatus (Hwass in Bruguière, J.G., 1792)
Scientific classification
Kingdom:	Animalia
Phylum:	Mollusca
Class:	Gastropoda
(unranked):	clade Caenogastropoda; clade Hypsogastropoda; clade Neogastropoda
Superfamily:	Conoidea
Family:	Conidae
Subfamily:	Puncticuliinae
Genus:	Conasprelloides; Tucker & Tenorio, 2009

Conasprelloides is a subgenus of sea snails, marine gastropod mollusks in the family Conidae, the cone snails and their allies.^[1]

In the new classification of the family Conidae by Puillandre N., Duda T.F., Meyer C., Olivera B.M. & Bouchet P. (2015), Conasprelloides has become a subgenus of Conus: Conus (Dauciconus) Cotton, 1945 represented as Conus Linnaeus, 1758 ^[2]

Distinguishing characteristics[edit]

The Tucker & Tenorio 2009 taxonomy distinguishes Conasprelloides from Conus in the following ways:^[3]

Genus Conus sensu stricto Linnaeus, 1758

Shell characters (living and fossil species)

The basic shell shape is conical to elongated conical, has a deep anal notch on the shoulder, a smooth periostracum and a small operculum. The shoulder of the shell is usually nodulose and the protoconch is usually multispiral. Markings often include the presence of tents except for black or white color variants, with the absence of spiral lines of minute tents and textile bars.

Radular tooth (not known for fossil species)

The radula has an elongated anterior section with serrations and a large exposed terminating cusp, a non-obvious waist, blade is either small or absent and has a short barb, and lacks a basal spur.

Geographical distribution

These species are found in the Indo-Pacific region.

Feeding habits

These species eat other gastropods including cones.^[3]

Subgenus Conasprelloides Tucker & Tenorio, 2009

Shell characters (living and fossil species)

The shell is turbinate to elongate conical in shape. The protoconch is paucispiral, the body whorl has ridges, and the whorl tops have nodules that may persist on later whorls. The anal notch is deep. The color pattern is simple and without clear spiral lines. The periostracum is tufted, and the operculum is small. Similar to Gladioconus, however the species in this genus do not retain nodules into their outer whorls, and do not have well developed darker brown markings on the whorl tops beyond the early whorls.

Radular tooth (not known for fossil species)

The anterior section of the radula is usually shorter than posterior section. The blade is indistinct but long and covers most of the length of the anterior section of the radular tooth. A basal spur is present, and the barb is short. The radular tooth has serrations and the terminating cusp is internal.

Geographical distribution

These species are found in the West Atlantic..

Feeding habits

These species are presumed to be vermivorous (meaning that they prey on marine worms) based upon the aspect of the radular tooth.^[3] Several published studies consider these species vermivores, discussing a unique conopressin in the venom chemistry, without providing details on their diet.^[4]^[5]

Species[edit]

This list of species is based on the information in the World Register of Marine Species (WoRMS) list. Species within the subgenus Conasprelloides include:^[1]

Conasprelloides brunneobandatus (Petuch, 1992): synonym of Conus brunneobandatus Petuch, 1992
Conasprelloides cancellatus (Hwass in Bruguière, 1792): synonym of Conus cancellatus Hwass in Bruguière, 1792
Conasprelloides coltrorum Petuch & R. F. Myers, 2014: synonym of Conus coltrorum (Petuch & R. F. Myers, 2014)
Conasprelloides hazinorum Petuch & Myers, 2014: synonym of Conus hazinorum (Petuch & Myers, 2014) (alternate representation)
Conasprelloides kevani (Petuch, 1987): synonym of Conus kevani Petuch, 1987
Conasprelloides kremerorum (Petuch, 1988): synonym of Conus kremerorum Petuch, 1988
Conasprelloides leekremeri (Petuch, 1987): synonym of Conus leekremeri Petuch, 1987
Conasprelloides levistimpsoni Tucker, 2013: synonym of Conus levistimpsoni (Tucker, 2013)
Conasprelloides penchaszadehi (Petuch, 1986): synonym of Conus penchaszadehi Petuch, 1986
Conasprelloides stimpsoni (Dall, 1902): synonym of Conus stimpsoni Dall, 1902
Conasprelloides venezuelanus (Petuch, 1987): synonym of Conus venezuelanus Petuch, 1987
Conasprelloides villepinii (P. Fischer & Bernardi, 1857): synonym of Conus villepinii P. Fischer & Bernardi, 1857

Significance of "alternative representation"[edit]

Prior to 2009, all species within the family Conidae were placed in one genus, Conus. In 2009 however, J.K. Tucker and M.J. Tenorio proposed a classification system for the over 600 recognized species that were in the family. Their classification proposed 3 distinct families and 82 genera for the living species of cone snails. This classification was based upon shell morphology, radular differences, anatomy, physiology, cladistics, with comparisons to molecular (DNA) studies.^[3] Published accounts of genera within the Conidae that include the genus Conaspelloides include J.K. Tucker & M.J. Tenorio (2009), and Bouchet et al. (2011).^[6]

Testing in order to try to understand the molecular phylogeny of the Conidae was initially begun by Christopher Meyer and Alan Kohn,^[7] and is continuing, particularly with the advent of nuclear DNA testing in addition to mDNA testing.

However, in 2011, some experts still prefer to use the traditional classification, where all species are placed in Conus within the single family Conidae: for example, according to the current November 2011 version of the World Register of Marine Species, all species within the family Conidae are in the genus Conus. The binomial names of species in the 82 cone snail genera listed in Tucker & Tenorio 2009 are recognized by the World Register of Marine Species as "alternative representations."^[8] Debate within the scientific community regarding this issue continues, and additional molecular phylogeny studies are being carried out in an attempt to clarify the issue.^[3]^[9]^[10]^[11]^[12]^[13]^[14]^[15]^[16]^[17]

All this has been superseded in 2015 by the new classification of the Conidae ^[2]

References[edit]

^ ^a ^b Conasprelloides Tucker & Tenorio, 2009. Retrieved through: World Register of Marine Species on 07/08/11.
^ ^a ^b Puillandre N., Duda T.F., Meyer C., Olivera B.M. & Bouchet P. (2015). One, four or 100 genera? A new classification of the cone snails. Journal of Molluscan Studies. 81: 1-23
^ ^a ^b ^c ^d ^e Tucker J.K. & Tenorio M.J. (2009), Systematic Classification of Recent and Fossil Conoidean Gastropods, ConchBooks, Hankenheim, Germany, 295 pp.
^ Moller, C. & Mari, F. (2007) A vasopressin/oxytocin-related conopeptide with y-carboxyglutamate at position 8. Biochemical Journal 404:413-419.
^ Zugasti-Cruz, A., Aguilar, M.B., Falcon, A., Olivera, B.M., & Heimer de la Cotera, E.P. (2008) Two new 4-cys conotoxins (framework 14) of the vermivorous snail Conus austini from the Gulf of Mexico with activity in the central nervous system of mice. Peptides 29:179-185.
^ Bouchet P., Kantor Yu.I., Sysoev A. & Puillandre N. (2011). "A new operational classification of the Conoidea". Journal of Molluscan Studies 77: 273-308.
^ Interview of Professor Alan Kohn, Professor Emeritus, Zoology "SEASHELL COLLECTOR | Interview of Pr Alan Kohn, Professor Emeritus, Zoology". Archived from the original on 2012-02-27. Retrieved 2011-12-04.
^ http://www.marinespecies.org/aphia.php?p=taxdetails&id=14107 Classification: Traditionally, all cone shells have been included in the Linnaean genus Conus. Tucker & Tenorio (2009) have recently proposed an alternative shell- and radula-based classification that recognizes 4 families and 80 genera of cones. In WoRMS, we currently still recognize a single family Conidae (following Puillandre et al. 2011), but Tucker & Tenorio's 80 genera classification is presented as "alternative representation". [P. Bouchet, 14 Aug. 2011]
^ C.M.L. Afonso & M.J. Tenorio (August 2011), A new, distinct endemic Africonus species (Gastropoda, Conidae) from Sao Vicente Island, Cape Verde Archipelago, West Africa, Gloria Maris 50(5): 124-135
^ P. Bouchet, Yu I. Kantor, A. Sysoev, and N. Puillandre (March 2011), A New Operational Classification of the Conoidea, Journal of Molluscan Studies 77:273-308, at p. 275.
^ N. Puillandre, E. Strong, P. Bouchet, M. Boisselier, V. Couloux, & S. Samadi (2009), Identifying gastropod spawn from DNA barcodes: possible but not yet practicable, Molecular Ecology Resources 9:1311-1321.
^ P.K. Bandyopadhyay, B.J. Stevenson, J.P. Ownby, M.T. Cady, M. Watkins, & B. Olivera (2008), The mitochondrial genome of Conus textile, coxI-conII intergenic sequences and conoidean evolution. Molecular Phylogenetics and Evolution 46: 215-223.
^ S.T. Williams & T.F. Duda, Jr. (2008), Did tectonic activity stimulate Oligo-Miocene speciation in the Indo-West Pacific? Evolution 62:1618-1634.
^ R.L. Cunha, R. Castilho, L. Ruber, & R. Zardoya (2005), Patterns of cladogenesis in the venomous marine gastropod genus Conus from the Cape Verde Islands Systematic Biology 54(4):634-650.
^ T.F. Duda, Jr. & A.J. Kohn (2005), Species-level phylogeography and evolutionary history of the hyperdiverse marine gastropod genus Conus, Molecular Phylogenetics and Evolution 34:257-272.
^ T.F. Duda, Jr. & E. Rolan (2005), Explosive radiation of Cape Verde Conus, a marine species flock, Molecular Ecology 14:267-272.
^ B. Vallejo, Jr. (2005), Inferring the mode of speciation in the Indo-West Pacific Conus (Gastropoda: Conidae), Journal of Biogeography 32:1429-1439.

External links[edit]

[WoRMS-1] Conasprelloides Tucker & Tenorio, 2009. Retrieved through: World Register of Marine Species on 07/08/11.

[Puillandre-2] Puillandre N., Duda T.F., Meyer C., Olivera B.M. & Bouchet P. (2015). One, four or 100 genera? A new classification of the cone snails. Journal of Molluscan Studies. 81: 1-23

[Systematic-3] Tucker J.K. & Tenorio M.J. (2009), Systematic Classification of Recent and Fossil Conoidean Gastropods, ConchBooks, Hankenheim, Germany, 295 pp.

[4] Moller, C. & Mari, F. (2007) A vasopressin/oxytocin-related conopeptide with y-carboxyglutamate at position 8. Biochemical Journal 404:413-419.

[5] Zugasti-Cruz, A., Aguilar, M.B., Falcon, A., Olivera, B.M., & Heimer de la Cotera, E.P. (2008) Two new 4-cys conotoxins (framework 14) of the vermivorous snail Conus austini from the Gulf of Mexico with activity in the central nervous system of mice. Peptides 29:179-185.

[6] Bouchet P., Kantor Yu.I., Sysoev A. & Puillandre N. (2011). "A new operational classification of the Conoidea". Journal of Molluscan Studies 77: 273-308.

[7] Interview of Professor Alan Kohn, Professor Emeritus, Zoology "SEASHELL COLLECTOR | Interview of Pr Alan Kohn, Professor Emeritus, Zoology". Archived from the original on 2012-02-27. Retrieved 2011-12-04.

[8] ttp://www.marinespecies.org/aphia.php?p=taxdetails&id=14107 Classification: Traditionally, all cone shells have been included in the Linnaean genus Conus. Tucker & Tenorio (2009) have recently proposed an alternative shell- and radula-based classification that recognizes 4 families and 80 genera of cones. In WoRMS, we currently still recognize a single family Conidae (following Puillandre et al. 2011), but Tucker & Tenorio's 80 genera classification is presented as "alternative representation". [P. Bouchet, 14 Aug. 2011]

[9] C.M.L. Afonso & M.J. Tenorio (August 2011), A new, distinct endemic Africonus species (Gastropoda, Conidae) from Sao Vicente Island, Cape Verde Archipelago, West Africa, Gloria Maris 50(5): 124-135

[10] P. Bouchet, Yu I. Kantor, A. Sysoev, and N. Puillandre (March 2011), A New Operational Classification of the Conoidea, Journal of Molluscan Studies 77:273-308, at p. 275.

[11] N. Puillandre, E. Strong, P. Bouchet, M. Boisselier, V. Couloux, & S. Samadi (2009), Identifying gastropod spawn from DNA barcodes: possible but not yet practicable, Molecular Ecology Resources 9:1311-1321.

[12] P.K. Bandyopadhyay, B.J. Stevenson, J.P. Ownby, M.T. Cady, M. Watkins, & B. Olivera (2008), The mitochondrial genome of Conus textile, coxI-conII intergenic sequences and conoidean evolution. Molecular Phylogenetics and Evolution 46: 215-223.

[13] S.T. Williams & T.F. Duda, Jr. (2008), Did tectonic activity stimulate Oligo-Miocene speciation in the Indo-West Pacific? Evolution 62:1618-1634.

[14] R.L. Cunha, R. Castilho, L. Ruber, & R. Zardoya (2005), Patterns of cladogenesis in the venomous marine gastropod genus Conus from the Cape Verde Islands Systematic Biology 54(4):634-650.

[15] T.F. Duda, Jr. & A.J. Kohn (2005), Species-level phylogeography and evolutionary history of the hyperdiverse marine gastropod genus Conus, Molecular Phylogenetics and Evolution 34:257-272.

[16] T.F. Duda, Jr. & E. Rolan (2005), Explosive radiation of Cape Verde Conus, a marine species flock, Molecular Ecology 14:267-272.

[17] B. Vallejo, Jr. (2005), Inferring the mode of speciation in the Indo-West Pacific Conus (Gastropoda: Conidae), Journal of Biogeography 32:1429-1439.

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Distinguishing characteristics[edit]

Species[edit]

Significance of "alternative representation"[edit]

References[edit]

Further reading[edit]

External links[edit]