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Cone snail

February 25, 2023

This article is about the group of sea snails. For other uses, see Conus (disambiguation).
Not to be confused with Telescopium (gastropod).

Cone snails, or cones, are highly venomous sea snails of the family Conidae.[1]

A group of shells belonging to various species of cone snails

Fossils of cone snails have been found from the Eocene to the Holocene epochs.[2] Cone snail species have shells that are roughly conical in shape. Many species have colorful patterning on the shell surface.[3] Cone snails are almost exclusively tropical in distribution.

All cone snails are venomous and capable of stinging. Cone snails use a modified radula tooth and a venom gland to attack and paralyze their prey before engulfing it. The tooth, which is likened to a dart or a harpoon, is barbed and can be extended some distance out from the head of the snail at the end of the proboscis.

Cone snail venoms are mainly peptide-based, and contain many different toxins that vary in their effects. The sting of several larger species of cone snails can be serious, and even fatal to humans. Cone snail venom also shows promise for medical use.[4][5]

Distribution and habitat

There are over 900 different species of cone snails.[6] Cone snails are typically found in warm tropical seas and oceans worldwide. Cone snails reach their greatest diversity in the Western Indo-Pacific region. While the majority of cone snails are found in warm tropical waters, some species have adapted to temperate/semi-tropical environments and are endemic to areas such as the Cape coast of South Africa,[7][8] the Mediterranean,[9] or the cool subtropical waters of southern California (Californiconus californicus).[10]

Cone snails are found in all tropical and subtropical seas. They live on a variety of substrates, from the intertidal zone and deeper areas, to sand, rocks or coral reefs.

Shell

Cone snails have a large variety of shell colors and patterns, with local varieties and color forms of the same species often occurring. This variety in color and pattern has led to the creation of a large number of known synonyms and probable synonyms, making it difficult to give an exact taxonomic assignment for many snails in this genus. As of 2009, more than 3,200 different species names have been assigned, with an average of 16 new species names introduced each year.[11]

The shells of cone snails vary in size and are conical in shape. The shell is whorled in the form of an inverted cone, with the anterior end being narrower. The protruding parts of the top of the whorls, that form the spire, are in the shape of another more flattened cone. The aperture is elongated and narrow with the sharp operculum being very small. The outer lip is simple, thin, and sharp, without a callus, and has a notched tip at the upper part. The columella is straight.

The larger species of cone snails can grow up to 23 cm (9.1 in) in length. The shells of cone snails are often brightly colored with a variety of patterns. Some species color patterns may be partially or completely hidden under an opaque layer of periostracum. In other species, the topmost shell layer is a thin periostracum, a transparent yellowish or brownish membrane.

Physiology and behavior

Cone snails are carnivorous. Their prey consists of marine worms, small fish, molluscs, and other cone snails. Cone snails are slow-moving, and use a venomous harpoon to disable faster-moving prey.

The osphradium in cone snails is more specialized than in other groups of gastropods. It is through this sensory modality that cone snails are able to sense their prey. The cone snails immobilize their prey using a modified, dartlike, barbed radular tooth, made of chitin, along with a venom gland containing neurotoxins.

Molecular phylogeny research has shown that preying on fish has evolved at least twice independently in cone snails.

Harpoon

 
An individual (Conus pennaceus) attacking one of a cluster of three snails of the species Cymatium nicobaricum, in Hawaii

Cone snails use a harpoon-like structure called a radula tooth for predation. Radula teeth are modified teeth, primarily made of chitin and formed inside the mouth of the snail, in a structure known as the toxoglossan radula. Each specialized cone snail tooth is stored in the radula sac, except for the tooth that is in current use.[12]

The radula tooth is hollow and barbed, and is attached to the tip of the radula in the radular sac, inside the snail's throat. When the snail detects a prey animal nearby, it extends a long flexible tube called a proboscis towards the prey. The radula tooth is loaded with venom from the venom bulb and, still attached to the radula, is fired from the proboscis into the prey by a powerful muscular contraction. The venom can paralyze smaller fish almost instantly. The snail then retracts the radula, drawing the subdued prey into the mouth. After the prey has been digested, the cone snail will regurgitate any indigestible material, such as spines and scales, along with the harpoon. There is always a radular tooth in the radular sac. A tooth may be also be used in self-defense when the snail feels threatened.[13][14]

The venom of cone snails contains hundreds of different compounds, and its exact composition varies widely from one species to another. The toxins in cone snail venom are referred to as conotoxins, and are composed of various peptides, each targeting a specific nerve channel or receptor. Some cone snail venoms also contain a pain-reducing toxin.

Relevance to humans

Risks

 
A live textile cone, (Conus textile) one of several species whose venom can cause serious harm to a human

Cone snails are prized for their brightly colored and patterned shells, [15] which may tempt people to pick them up. This is risky, as the snail often fires its harpoon in self defense when disturbed. The harpoons of some of the larger species of cone snail can penetrate gloves or wetsuits.

The sting of many of the smallest cone species may be no worse than a bee or hornet sting,[16] but the sting of a few of the larger tropical fish-eating species, such as Conus geographus, Conus tulipa and Conus striatus, can be fatal. Other dangerous species are Conus pennaceus, Conus textile, Conus aulicus, Conus magus and Conus marmoreus.[17] According to Goldfrank's Toxicologic Emergencies, about 27 human deaths can be confidently attributed to cone snail envenomation, though the actual number is almost certainly much higher; some three dozen people are estimated to have died from geography cone envenomation alone.[18]

Most of the cone snails that hunt worms are not a risk to humans, with the exception of larger species. One of the fish-eating species, the geography cone, Conus geographus, is also known colloquially as the "cigarette snail", a gallows humor exaggeration implying that when stung by this creature, the victim will have only enough time to smoke a cigarette before dying.[19][13]

Symptoms of a more serious cone snail sting include intense, localized pain, swelling, numbness and tingling and vomiting. Symptoms can start immediately or can be delayed for days. Severe cases involve muscle paralysis, changes in vision, and respiratory failure that can lead to death. If stung, one should seek medical attention as soon as possible.[20]

Medical use

The appeal of conotoxins for creating pharmaceutical drugs is the precision and speed with which the chemicals act; many of the compounds target only a particular class of receptor. This means that they can reliably and quickly produce a particular effect on the body's systems without side effects; for example, almost instantly reducing heart rate or turning off the signaling of a single class of nerve, such as pain receptors.

Ziconotide, a pain reliever 1,000 times as powerful as morphine, was initially isolated from the venom of the magician cone snail, Conus magus.[21] It was approved by the U.S. Food and Drug Administration in December 2004 under the name Prialt. Other drugs based on cone snail venom targeting Alzheimer's disease, Parkinson's disease, depression, and epilepsy are in clinical or preclinical trials.[22][23]

Many peptides produced by the cone snails show prospects for being potent pharmaceuticals, such as AVC1, isolated from the Australian species, the Queen Victoria cone, Conus victoriae, and have been highly effective in treating postsurgical and neuropathic pain, even accelerating recovery from nerve injury.

Geography and tulip cone snails are known to secrete a type of insulin that paralyzes nearby fish by causing hypoglycaemic shock. They are the only two animal species known to use insulin as a weapon.[24] Cone snail insulin is capable of binding to human insulin receptors and researchers are studying its use as a potent fast-acting therapeutic insulin.[25]

Shell collecting

The intricate color patterns of cone snails have made them one of the most popular species for shell collectors.[26][27]

Conus gloriamaris, also known as "Glory of the Seas", one of the most famous and sought-after seashells in past centuries, with only a few specimens in private collections. The rarity of this species' shells led to high market prices for the objects, until the habitat of this cone snail was discovered, which decreased prices dramatically.[28]

As jewelry

Naturally occurring, beach-worn cone shell tops can function as beads without any further modification. In Hawaii, these natural beads were traditionally collected from the beach drift to make puka shell jewelry. Since it is difficult to obtain enough naturally occurring cone snail tops, almost all modern puka shell jewelry uses cheaper imitations, cut from thin shells of other species of mollusk, or made of plastic.

Species

Main article: List of Conus species

Until 2009 all species within the family Conidae were placed in one genus, Conus. Testing of the molecular phylogeny of the Conidae was first conducted by Christopher Meyer and Alan Kohn,[29] and has continued, particularly with the advent of nuclear DNA testing.

In 2009, J.K. Tucker and M.J. Tenorio proposed a classification system consisting of three distinct families and 82 genera for living species of cone snails. This classification is based on shell morphology, radular differences, anatomy, physiology, and cladistics, with comparisons to molecular (DNA) studies.[30] Published accounts of Conidae that use these new genera include J.K. Tucker & M.J. Tenorio (2009), and Bouchet et al. (2011).[31] Tucker and Tenorio's proposed classification system for the cone shells and other clades of Conoidean gastropods is shown in Tucker & Tenorio cone snail taxonomy 2009.

Some experts, however, still prefer to use the traditional classification. For example, in the November 2011 version of the World Register of Marine Species, all species within the family Conidae were placed in the genus Conus. The binomial names of species in the 82 genera of living cone snails listed in Tucker & Tenorio 2009 were recognized by the World Register of Marine Species as "alternative representations".[32] Debate within the scientific community regarding this issue has continued, and additional molecular phylogeny studies are being carried out in an attempt to clarify the issue.[30][33][34][35][36][37][38][39][40][41]

In 2015, in the Journal of Molluscan Studies, Puillandre, Duda, Meyer, Olivera & Bouchet presented a new classification for the old genus Conus. Using 329 species, the authors carried out molecular phylogenetic analyses. The results suggested that the authors should place all cone snails in a single family, Conidae, containing four genera: Conus, Conasprella, Profundiconus and Californiconus. The authors group 85% of all known cone snail species under Conus. They recognize 57 subgenera within Conus, and 11 subgenera within the genus Conasprella.[1]

Taxonomy

  • Afonsoconus Tucker & Tenorio, 2013
  • Africonus Petuch, 1975
  • Afroconus Petuch, 1975
  • Ammirales Schepman, 1913
  • Asperi Schepman, 1913
  • Asprella Schaufuss, 1869
  • Atlanticonus Petuch & Sargent, 2012
  • Attenuiconus Petuch, 2013
  • Austroconus Tucker & Tenorio, 2009
  • Bermudaconus Petuch, 2013
  • Brasiliconus Petuch, 2013
  • Calibanus da Motta, 1991
  • Cariboconus Petuch, 2003
  • Chelyconus Mörch, 1842
  • Cleobula 1930
  • Conasprelloides Tucker & Tenorio, 2009
  • Coronaxis Swainson, 1840
  • Cucullus Röding, 1798
  • Cylinder Montfort, 1810
  • Cylindrus Deshayes, 1824
  • Darioconus Iredale, 1930
  • Dauciconus Cotton, 1945
  • Dendroconus Swainson, 1840
  • Ductoconus da Motta, 1991
  • Embrikena Iredale, 1937
  • Endemoconus Iredale, 1931
  • Erythroconus da Motta, 1991
  • Eugeniconus da Motta, 1991
  • Floraconus Iredale, 1930
  • Gastridium Mödeer, 1793
  • Gladioconus Tucker & Tenorio, 2009
  • Gradiconus da Motta, 1991
  • Hermes Montfort, 1810
  • Heroconus da Motta, 1991
  • Isoconus Tucker & Tenorio, 2013
  • Kermasprella Powell, 1958
  • Ketyconus da Motta, 1991
  • Kioconus da Motta, 1991
  • Lautoconus Monterosato, 1923
  • Leporiconus Iredale, 1930
  • Leptoconus Swainson, 1840
  • Lilliconus Raybaudi Massilia, 1994
  • Lithoconus Mörch, 1852
  • Magelliconus da Motta, 1991
  • Mamiconus Cotton & Godfrey, 1932
  • Nitidoconus Tucker & Tenorio, 2013
  • Ongoconus da Motta, 1991
  • Phasmoconus Mörch, 1852
  • Pionoconus Mörch, 1852
  • Poremskiconus Petuch, 2013
  • Profundiconus Kuroda, 1956
  • Stephanoconus Mörch, 1852
  • Textilia Swainson, 1840
  • Tuliparia Swainson, 1840
  • Turriconus Shikama & Habe, 1968
  • Virgiconus Cotton, 1945
  • Virroconus Iredale, 1930

See also

  • ConoServer, a database of cone snail toxins, known as conopeptides.[42] These toxins are of importance to medical research.
  • Conotoxin

References

  1. ^ a b Puillandre N, Duda TF, Meyer C, Olivera BM, Bouchet P (February 2015). "One, four or 100 genera? A new classification of the cone snails". The Journal of Molluscan Studies. 81 (1): 1–23. doi:10.1093/mollus/eyu055. PMC 4541476. PMID 26300576.
  2. ^ Pek I, Vašíček Z, Roček Z, Hajn V, Mikuláš R (1996). Základy Zoopaleontologie [Basics of Zoopaleontology] (in Czech). Olomouc. p. 264. ISBN 80-7067-599-3.
  3. ^ Hendricks JR (2015). "Glowing seashells: diversity of fossilized coloration patterns on coral reef-associated cone snail (Gastropoda: Conidae) shells from the Neogene of the Dominican Republic". PLOS ONE. 10 (4): e0120924. Bibcode:2015PLoSO..1020924H. doi:10.1371/journal.pone.0120924. PMC 4382297. PMID 25830769.
  4. ^ Olivera BM, Teichert RW (October 2007). "Diversity of the neurotoxic Conus peptides: a model for concerted pharmacological discovery". Molecular Interventions. 7 (5): 251–60. doi:10.1124/mi.7.5.7. PMID 17932414.
  5. ^ Van Oosten R (September 2008). . Quest online. p. 2. Archived from the original on November 23, 2010.
  6. ^ Bouchet P, Gofas S (2015). "Conus Linnaeus, 1758". World Register of Marine Species. Retrieved 29 March 2015.
  7. ^ Tenorio, M. J. & Monteiro, A. J. (2008). The Family Conidae. The South African species of Conus. In: Poppe, G. T. & Groh, K. (eds): A Conchological Iconography. Hackenheim: ConchBooks. 47 pp., 60 pls.
  8. ^ Branch GM, Griffiths CL, Branch ML, Beckley LE (2010). Two oceans : a guide to the marine life of Southern Africa. Cape Town: Struik Nature. ISBN 978-1-77007-772-0.
  9. ^ Monteiro AJ, Tenorio MJ, Poppe GT (2004). "The Family Conidae. The West African and Mediterranean species of Conus". In Poppe GT, Groh K (eds.). A Conchological Iconography. Hackenheim: ConchBooks. p. 102.
  10. ^ Tenorio MJ, Tucker JK, Chaney HW (2012). "The Families Conilithidae and Conidae. The Cones of the Eastern Pacific". In Poppe GT, Groh K (eds.). A Conchological Iconography. Hackenheim: ConchBooks. p. 112.
  11. ^ "The Conus biodiversity website".
  12. ^ Franklin JB, Fernando SA, Chalke BA, Krishnan KS (2007). "Radular morphology of Conus (Gastropoda: Caenogastropoda: Conidae) from India". Molluscan Research. 27 (3): 1.
  13. ^ a b . National Geographic. Archived from the original on 10 June 2008.
  14. ^ Kohn AJ (March 1956). "Piscivorous Gastropods of the Genus Conus". Proceedings of the National Academy of Sciences of the United States of America. 42 (3): 168–71. Bibcode:1956PNAS...42..168K. doi:10.1073/pnas.42.3.168. PMC 528241. PMID 16589843.
  15. ^ Dipper F (2016-04-29). The Marine World: A Natural History of Ocean Life. Princeton University Press. ISBN 978-0-9573946-2-9.
  16. ^ Ben Tallon (2005). "Marine wounds and stings". DermNet NZ.
  17. ^ . Archived from the original on 2008-12-26. Retrieved 2010-02-24.
  18. ^ "Conus Geographus: The Geography Cone". penelope.uchicago.edu. Retrieved 2020-07-30.
  19. ^ Machalek AZ (September 2002). . Bethesda, MD: National Institute of General Medical Sciences, National Institutes of Health. Archived from the original on 18 November 2011.
  20. ^ Kapil, Sasha; Hendriksen, Stephen; Cooper, Jeffrey S. (2022), "Cone Snail Toxicity", StatPearls, Treasure Island (FL): StatPearls Publishing, PMID 29262115, retrieved 2023-01-29
  21. ^ ANI (2007). "Sea snail venom paves way for potent new painkiller". Compassionate health care network. Retrieved 2008-11-19.
  22. ^ Louise Yeoman (2006-03-28). "Venomous snails aid medical science". BBC. Retrieved 2008-11-19.
  23. ^ Yuhas, Daisy (2012). "Healing the Brain with Snail Venom". Scientific American Mind. 23 (6): 12. doi:10.1038/scientificamericanmind0113-12.
  24. ^ Safavi-Hemami H, Gajewiak J, Karanth S, Robinson SD, Ueberheide B, Douglass AD, et al. (February 2015). "Specialized insulin is used for chemical warfare by fish-hunting cone snails". Proceedings of the National Academy of Sciences of the United States of America. 112 (6): 1743–8. Bibcode:2015PNAS..112.1743S. doi:10.1073/pnas.1423857112. PMC 4330763. PMID 25605914.
  25. ^ Gorai B, Vashisth H (18 October 2021). "Structures and interactions of insulin-like peptides from cone snail venom". Proteins: Structure, Function, and Bioinformatics. 90 (3): 680–690. doi:10.1002/prot.26265. PMC 8816879. PMID 34661928.
  26. ^ . Archived from the original on 2009-06-18. Retrieved 2010-02-24.
  27. ^ . ConeShells. Archived from the original on 23 July 2011.{{cite web}}: CS1 maint: unfit URL (link)
  28. ^ "Conus gloriamaris, Glory of the Seas Cone photos". www.oceanlight.com.
  29. ^ Kohn A (2009). "Interview of Professor Alan Kohn, Professor Emeritus, Zoology". Seashell Collector (Interview). from the original on February 27, 2012.
  30. ^ a b Tucker JK, Tenorio MJ (2009). Systematic Classification of Recent and Fossil Conoidean Gastropods. Hankenheim, Germany: ConchBooks. p. 295.
  31. ^ Bouchet P, Kantor YI, Sysoev A, Puillandre N (2011). "A new operational classification of the Conoidea". Journal of Molluscan Studies. 77 (3): 273–308. doi:10.1093/mollus/eyr017.
  32. ^ Bouchet P (14 August 2011). "Conidae J. Fleming, 1822". World Register of Marine Species (WoRMS). ' Traditionally, all cone shells were included in the Linnaean genus Conus. Tucker & Tenorio (2009) proposed an alternative shell- and radula-based classification that recognized 4 families and 80 genera of cones. In 2011, WoRMS, still recognized a single family Conidae (following Puillandre et al. 2011), but Tucker & Tenorio's 80 genera classification was presented as "alternative representation"
  33. ^ 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
  34. ^ 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.
  35. ^ 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.
  36. ^ Bandyopadhyay PK, Stevenson BJ, Ownby JP, Cady MT, Watkins M, Olivera BM (January 2008). "The mitochondrial genome of Conus textile, coxI-coxII intergenic sequences and Conoidean evolution". Molecular Phylogenetics and Evolution. 46 (1): 215–23. doi:10.1016/j.ympev.2007.08.002. PMC 2718723. PMID 17936021.
  37. ^ Williams ST, Duda TF (July 2008). "Did tectonic activity stimulate oligo-miocene speciation in the Indo-West Pacific?". Evolution; International Journal of Organic Evolution. 62 (7): 1618–34. doi:10.1111/j.1558-5646.2008.00399.x. hdl:2027.42/73573. PMID 18410535. S2CID 11714846.
  38. ^ 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.
  39. ^ Duda TF, Kohn AJ (February 2005). "Species-level phylogeography and evolutionary history of the hyperdiverse marine gastropod genus Conus". Molecular Phylogenetics and Evolution. 34 (2): 257–72. doi:10.1016/j.ympev.2004.09.012. PMID 15619440.
  40. ^ Duda TF, Rolán E (January 2005). "Explosive radiation of Cape Verde Conus, a marine species flock". Molecular Ecology. 14 (1): 267–72. doi:10.1111/j.1365-294x.2004.02397.x. PMID 15643969. S2CID 27304985.
  41. ^ Vallejo Jr B (2005). "Inferring the mode of speciation in the Indo-West Pacific Conus (Gastropoda: Conidae)". Journal of Biogeography. 32 (8): 1429–1439. doi:10.1111/j.1365-2699.2005.01260.x. S2CID 86602728.
  42. ^ Kaas Q, Yu R, Jin AH, Dutertre S, Craik DJ (January 2012). "ConoServer: updated content, knowledge, and discovery tools in the conopeptide database". Nucleic Acids Research. 40 (Database issue): D325-30. doi:10.1093/nar/gkr886. PMC 3245185. PMID 22058133.

Further reading

  • Flomenbaum NE, Goldfrank LR, Hoffman RS, Howland MA, Lewin NA, Nelson LS, eds. (28 March 2006). Goldfrank's Toxicologic Emergencies (8th ed.). New York: McGraw-Hill. ISBN 978-0-07-143763-9.
  • Gmelin, J. F. 1791. Systema naturae per regna tria naturae. Editio decima tertia. Systema Naturae, 13th ed., vol. 1(6): 3021–3910. Lipsiae.
  • Bruguière JG (1792). "Histoire Naturelle des Vers". Encyclopédie Méthodique. Vol. 1. Paris: Panckoucke. pp. 345–757.
  • Sowerby, G. B., II. 1833. Conus. Conchological Illustrations pls. 36–37
  • (in French) Bernardi AC (1858). Monographie du genre Conus (in French).
  • Reeve L (1844). "Conchologia Iconica". Monograph of the genus Conus. Vol. 1. pp. 40–47.
  • Kiener LC (1845). "Genre Cone. (Conus, Lin.).". Spécies Général et Iconographie des Coquilles Vivantes. Vol. 2. pp. 1–111.
  • Clench WJ (1942). "The Genus Conus in the Western Atlantic". Johnsonia. 1 (6): 1–40.
  • Van Mol JJ, Tursch B, Kempf M (1967). "Mollusques prosobranches: Les Conidae du Brésil. Étude basée en partie sur les spécimens recueillis par la Calypso". Annales de l'Institut Océanographique. 45: 233–254.
  • Vink DL, von Cosel R (1985). "The Conus cedonulli complex: Historical review, taxonomy and biological observations". Revue Suisse de Zoologie. 92: 525–603. doi:10.5962/bhl.part.81894.
  • Petuch EJ (1986). "New South American gastropods in the genera Conus (Conidae) and Latirus (Fasciolariidae)". Proceedings of the Biological Society of Washington. 99: 8–14.
  • Petuch, E. J. 1987. New Caribbean molluscan faunas. [v] + 154 + A1-A4, 29 pls. Coastal Education & Research Foundation: Charlottesville, Virginia
  • Petuch, E. J. 1988. Neogene history of tropical American mollusks. [vi] + 217, 39 pls. Coastal Education & Research Foundation: Charlottesville, Virginia
  • Petuch EJ (1990). "A new molluscan faunule from the Caribbean coast of Panama". Nautilus. 104: 57–70.
  • Petuch EJ (1992). "Molluscan discoveries from the tropical Western Atlantic region. Part II. New species of Conus from the Bahamas Platform, Central American and northern South American coasts, and the Lesser Antilles". La Conchiglia. 24 (265): 10–15.
  • Petuch EJ (2000). "A review of the conid subgenus Purpuriconus da Motta, 1991, with the descriptions of two new Bahamian species". Ruthenica: Russian Malacological Journal. 10: 81–87.
  • Petuch EJ (2004). Cenozoic Seas. Boca Raton: CRC Press.
  • Tenorio MJ, Tucker JK, Chaney HW (2012). "The Families Conilithidae and Conidae. The Cones of the Eastern Pacific". In Poppe GT, Groh K (eds.). A Conchological Iconography. Hackenheim: ConchBooks. p. 112.
  • Coltro Jr J (2004). "New species of Conidae from northeastern Brazil (Mollusca: Gastropoda)". Strombus. 11: 1–16.
  • García EF (2006). "Conus sauros, a new Conus species (Gastropoda: Conidae) from the Gulf of Mexico". Novapex. 7: 71–76.
  • Franklin JB, Subramanian KA, Fernando SA, Krishnan KS (2009). "Diversity and Distribution of Conidae from the Tamil Nadu Coast of India (Mollusca: Caenogastropoda: Conidae)". Zootaxa. 2250: 1–63. doi:10.11646/zootaxa.2250.1.1.
  • Franklin JB, Fernando SA, Chalke BA, Krishnan KS (2007). "Radular morphology of Conus (Gastropoda: Caenogastropoda: Conidae) from India" (PDF). Molluscan Research. 27 (3): 111–122.
  • Peters H, O'Leary BC, Hawkins JP, Carpenter KE, Roberts CM (2013). "Conus: first comprehensive conservation red list assessment of a marine gastropod mollusc genus". PLOS ONE. 8 (12): e83353. Bibcode:2013PLoSO...883353P. doi:10.1371/journal.pone.0083353. PMC 3871662. PMID 24376693.

External links

  • SEM images of the radula can be found at Thompson, T.E.; Bebbington, A. (1973). "Scanning electron microscope studies of gastropod radulae". Malacologia. 14: 147–165.
  • Tucker J.K. (2009). Recent cone species database. September 4th 2009 Edition
  • Filmer R.M. (2001). A Catalogue of Nomenclature and Taxonomy in the Living Conidae 1758–1998. Backhuys Publishers, Leiden. 388pp
  • Bouchet, P.; Fontaine, B. (2009). "List of new marine species described between 2002–2006". Census of Marine Life.
  • Natural History Museum Rotterdam - photos of Conus shells
  • The Conus Biodiversity website
  • Conidae from worldwide.conchology.com. Scroll down for many photographs.
  • Pain-killer comes out of its shell (The Age news article)
  • Venomous snails aid medical science (BBC News Article).
  • ConeShell Collection Giancarlo Paganelli
  • Cone Shells - Knights of the Sea. Alexander Medvedev's collection
  • Cone Snail Video - Hunting Footage and Physiology
  • Deadly Critters That Might Save Your Life (CNN)
  • Baldomero "Toto" Olivera's short talk: Conus Peptides 2015-04-06 at the Wayback Machine
  • Zonatus Gallery
  • Miller, John A. (1989). "The toxoglossan proboscis: structure and function". Journal of Molluscan Studies. 55 (2): 167–181. doi:10.1093/mollus/55.2.167.
  • Cone snails are silent assassins of the sea, drugging sleeping fish before poisoning them

February 25, 2023
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This article is about the group of sea snails For other uses see Conus disambiguation Not to be confused with Telescopium gastropod Cone snails or cones are highly venomous sea snails of the family Conidae 1 A group of shells belonging to various species of cone snails Fossils of cone snails have been found from the Eocene to the Holocene epochs 2 Cone snail species have shells that are roughly conical in shape Many species have colorful patterning on the shell surface 3 Cone snails are almost exclusively tropical in distribution All cone snails are venomous and capable of stinging Cone snails use a modified radula tooth and a venom gland to attack and paralyze their prey before engulfing it The tooth which is likened to a dart or a harpoon is barbed and can be extended some distance out from the head of the snail at the end of the proboscis Cone snail venoms are mainly peptide based and contain many different toxins that vary in their effects The sting of several larger species of cone snails can be serious and even fatal to humans Cone snail venom also shows promise for medical use 4 5 Contents 1 Distribution and habitat 2 Shell 3 Physiology and behavior 3 1 Harpoon 4 Relevance to humans 4 1 Risks 4 2 Medical use 4 3 Shell collecting 4 4 As jewelry 5 Species 6 Taxonomy 7 See also 8 References 9 Further reading 10 External linksDistribution and habitat EditThere are over 900 different species of cone snails 6 Cone snails are typically found in warm tropical seas and oceans worldwide Cone snails reach their greatest diversity in the Western Indo Pacific region While the majority of cone snails are found in warm tropical waters some species have adapted to temperate semi tropical environments and are endemic to areas such as the Cape coast of South Africa 7 8 the Mediterranean 9 or the cool subtropical waters of southern California Californiconus californicus 10 Cone snails are found in all tropical and subtropical seas They live on a variety of substrates from the intertidal zone and deeper areas to sand rocks or coral reefs Shell EditCone snails have a large variety of shell colors and patterns with local varieties and color forms of the same species often occurring This variety in color and pattern has led to the creation of a large number of known synonyms and probable synonyms making it difficult to give an exact taxonomic assignment for many snails in this genus As of 2009 more than 3 200 different species names have been assigned with an average of 16 new species names introduced each year 11 The shells of cone snails vary in size and are conical in shape The shell is whorled in the form of an inverted cone with the anterior end being narrower The protruding parts of the top of the whorls that form the spire are in the shape of another more flattened cone The aperture is elongated and narrow with the sharp operculum being very small The outer lip is simple thin and sharp without a callus and has a notched tip at the upper part The columella is straight The larger species of cone snails can grow up to 23 cm 9 1 in in length The shells of cone snails are often brightly colored with a variety of patterns Some species color patterns may be partially or completely hidden under an opaque layer of periostracum In other species the topmost shell layer is a thin periostracum a transparent yellowish or brownish membrane Physiology and behavior EditCone snails are carnivorous Their prey consists of marine worms small fish molluscs and other cone snails Cone snails are slow moving and use a venomous harpoon to disable faster moving prey The osphradium in cone snails is more specialized than in other groups of gastropods It is through this sensory modality that cone snails are able to sense their prey The cone snails immobilize their prey using a modified dartlike barbed radular tooth made of chitin along with a venom gland containing neurotoxins Molecular phylogeny research has shown that preying on fish has evolved at least twice independently in cone snails Harpoon Edit An individual Conus pennaceus attacking one of a cluster of three snails of the species Cymatium nicobaricum in Hawaii Cone snails use a harpoon like structure called a radula tooth for predation Radula teeth are modified teeth primarily made of chitin and formed inside the mouth of the snail in a structure known as the toxoglossan radula Each specialized cone snail tooth is stored in the radula sac except for the tooth that is in current use 12 The radula tooth is hollow and barbed and is attached to the tip of the radula in the radular sac inside the snail s throat When the snail detects a prey animal nearby it extends a long flexible tube called a proboscis towards the prey The radula tooth is loaded with venom from the venom bulb and still attached to the radula is fired from the proboscis into the prey by a powerful muscular contraction The venom can paralyze smaller fish almost instantly The snail then retracts the radula drawing the subdued prey into the mouth After the prey has been digested the cone snail will regurgitate any indigestible material such as spines and scales along with the harpoon There is always a radular tooth in the radular sac A tooth may be also be used in self defense when the snail feels threatened 13 14 The venom of cone snails contains hundreds of different compounds and its exact composition varies widely from one species to another The toxins in cone snail venom are referred to as conotoxins and are composed of various peptides each targeting a specific nerve channel or receptor Some cone snail venoms also contain a pain reducing toxin Relevance to humans EditRisks Edit A live textile cone Conus textile one of several species whose venom can cause serious harm to a human Cone snails are prized for their brightly colored and patterned shells 15 which may tempt people to pick them up This is risky as the snail often fires its harpoon in self defense when disturbed The harpoons of some of the larger species of cone snail can penetrate gloves or wetsuits The sting of many of the smallest cone species may be no worse than a bee or hornet sting 16 but the sting of a few of the larger tropical fish eating species such as Conus geographus Conus tulipa and Conus striatus can be fatal Other dangerous species are Conus pennaceus Conus textile Conus aulicus Conus magus and Conus marmoreus 17 According to Goldfrank s Toxicologic Emergencies about 27 human deaths can be confidently attributed to cone snail envenomation though the actual number is almost certainly much higher some three dozen people are estimated to have died from geography cone envenomation alone 18 Most of the cone snails that hunt worms are not a risk to humans with the exception of larger species One of the fish eating species the geography cone Conus geographus is also known colloquially as the cigarette snail a gallows humor exaggeration implying that when stung by this creature the victim will have only enough time to smoke a cigarette before dying 19 13 Symptoms of a more serious cone snail sting include intense localized pain swelling numbness and tingling and vomiting Symptoms can start immediately or can be delayed for days Severe cases involve muscle paralysis changes in vision and respiratory failure that can lead to death If stung one should seek medical attention as soon as possible 20 Medical use Edit The appeal of conotoxins for creating pharmaceutical drugs is the precision and speed with which the chemicals act many of the compounds target only a particular class of receptor This means that they can reliably and quickly produce a particular effect on the body s systems without side effects for example almost instantly reducing heart rate or turning off the signaling of a single class of nerve such as pain receptors Ziconotide a pain reliever 1 000 times as powerful as morphine was initially isolated from the venom of the magician cone snail Conus magus 21 It was approved by the U S Food and Drug Administration in December 2004 under the name Prialt Other drugs based on cone snail venom targeting Alzheimer s disease Parkinson s disease depression and epilepsy are in clinical or preclinical trials 22 23 Many peptides produced by the cone snails show prospects for being potent pharmaceuticals such as AVC1 isolated from the Australian species the Queen Victoria cone Conus victoriae and have been highly effective in treating postsurgical and neuropathic pain even accelerating recovery from nerve injury Geography and tulip cone snails are known to secrete a type of insulin that paralyzes nearby fish by causing hypoglycaemic shock They are the only two animal species known to use insulin as a weapon 24 Cone snail insulin is capable of binding to human insulin receptors and researchers are studying its use as a potent fast acting therapeutic insulin 25 Shell collecting Edit The intricate color patterns of cone snails have made them one of the most popular species for shell collectors 26 27 Conus gloriamaris also known as Glory of the Seas one of the most famous and sought after seashells in past centuries with only a few specimens in private collections The rarity of this species shells led to high market prices for the objects until the habitat of this cone snail was discovered which decreased prices dramatically 28 As jewelry Edit Naturally occurring beach worn cone shell tops can function as beads without any further modification In Hawaii these natural beads were traditionally collected from the beach drift to make puka shell jewelry Since it is difficult to obtain enough naturally occurring cone snail tops almost all modern puka shell jewelry uses cheaper imitations cut from thin shells of other species of mollusk or made of plastic Species EditMain article List of Conus species Until 2009 all species within the family Conidae were placed in one genus Conus Testing of the molecular phylogeny of the Conidae was first conducted by Christopher Meyer and Alan Kohn 29 and has continued particularly with the advent of nuclear DNA testing In 2009 J K Tucker and M J Tenorio proposed a classification system consisting of three distinct families and 82 genera for living species of cone snails This classification is based on shell morphology radular differences anatomy physiology and cladistics with comparisons to molecular DNA studies 30 Published accounts of Conidae that use these new genera include J K Tucker amp M J Tenorio 2009 and Bouchet et al 2011 31 Tucker and Tenorio s proposed classification system for the cone shells and other clades of Conoidean gastropods is shown in Tucker amp Tenorio cone snail taxonomy 2009 Some experts however still prefer to use the traditional classification For example in the November 2011 version of the World Register of Marine Species all species within the family Conidae were placed in the genus Conus The binomial names of species in the 82 genera of living cone snails listed in Tucker amp Tenorio 2009 were recognized by the World Register of Marine Species as alternative representations 32 Debate within the scientific community regarding this issue has continued and additional molecular phylogeny studies are being carried out in an attempt to clarify the issue 30 33 34 35 36 37 38 39 40 41 In 2015 in the Journal of Molluscan Studies Puillandre Duda Meyer Olivera amp Bouchet presented a new classification for the old genus Conus Using 329 species the authors carried out molecular phylogenetic analyses The results suggested that the authors should place all cone snails in a single family Conidae containing four genera Conus Conasprella Profundiconus and Californiconus The authors group 85 of all known cone snail species under Conus They recognize 57 subgenera within Conus and 11 subgenera within the genus Conasprella 1 Taxonomy EditAfonsoconus Tucker amp Tenorio 2013 Africonus Petuch 1975 Afroconus Petuch 1975 Ammirales Schepman 1913 Asperi Schepman 1913 Asprella Schaufuss 1869 Atlanticonus Petuch amp Sargent 2012 Attenuiconus Petuch 2013 Austroconus Tucker amp Tenorio 2009 Bermudaconus Petuch 2013 Brasiliconus Petuch 2013 Calibanus da Motta 1991 Cariboconus Petuch 2003 Chelyconus Morch 1842 Cleobula 1930 Conasprelloides Tucker amp Tenorio 2009 Coronaxis Swainson 1840 Cucullus Roding 1798 Cylinder Montfort 1810 Cylindrus Deshayes 1824 Darioconus Iredale 1930 Dauciconus Cotton 1945 Dendroconus Swainson 1840 Ductoconus da Motta 1991 Embrikena Iredale 1937 Endemoconus Iredale 1931 Erythroconus da Motta 1991 Eugeniconus da Motta 1991 Floraconus Iredale 1930 Gastridium Modeer 1793 Gladioconus Tucker amp Tenorio 2009 Gradiconus da Motta 1991 Hermes Montfort 1810 Heroconus da Motta 1991 Isoconus Tucker amp Tenorio 2013 Kermasprella Powell 1958 Ketyconus da Motta 1991 Kioconus da Motta 1991 Lautoconus Monterosato 1923 Leporiconus Iredale 1930 Leptoconus Swainson 1840 Lilliconus Raybaudi Massilia 1994 Lithoconus Morch 1852 Magelliconus da Motta 1991 Mamiconus Cotton amp Godfrey 1932 Nitidoconus Tucker amp Tenorio 2013 Ongoconus da Motta 1991 Phasmoconus Morch 1852 Pionoconus Morch 1852 Poremskiconus Petuch 2013 Profundiconus Kuroda 1956 Stephanoconus Morch 1852 Textilia Swainson 1840 Tuliparia Swainson 1840 Turriconus Shikama amp Habe 1968 Virgiconus Cotton 1945 Virroconus Iredale 1930See also EditConoServer a database of cone snail toxins known as conopeptides 42 These toxins are of importance to medical research ConotoxinReferences Edit a b Puillandre N Duda TF Meyer C Olivera BM Bouchet P February 2015 One four or 100 genera A new classification of the cone snails The Journal of Molluscan Studies 81 1 1 23 doi 10 1093 mollus eyu055 PMC 4541476 PMID 26300576 Pek I Vasicek Z Rocek Z Hajn V Mikulas R 1996 Zaklady Zoopaleontologie Basics of Zoopaleontology in Czech Olomouc p 264 ISBN 80 7067 599 3 Hendricks JR 2015 Glowing seashells diversity of fossilized coloration patterns on coral reef associated cone snail Gastropoda Conidae shells from the Neogene of the Dominican Republic PLOS ONE 10 4 e0120924 Bibcode 2015PLoSO 1020924H doi 10 1371 journal pone 0120924 PMC 4382297 PMID 25830769 Olivera BM Teichert RW October 2007 Diversity of the neurotoxic Conus peptides a model for concerted pharmacological discovery Molecular Interventions 7 5 251 60 doi 10 1124 mi 7 5 7 PMID 17932414 Van Oosten R September 2008 Nature s brew Quest online p 2 Archived from the original on November 23 2010 Bouchet P Gofas S 2015 Conus Linnaeus 1758 World Register of Marine Species Retrieved 29 March 2015 Tenorio M J amp Monteiro A J 2008 The Family Conidae The South African species of Conus In Poppe G T amp Groh K eds A Conchological Iconography Hackenheim ConchBooks 47 pp 60 pls Branch GM Griffiths CL Branch ML Beckley LE 2010 Two oceans a guide to the marine life of Southern Africa Cape Town Struik Nature ISBN 978 1 77007 772 0 Monteiro AJ Tenorio MJ Poppe GT 2004 The Family Conidae The West African and Mediterranean species of Conus In Poppe GT Groh K eds A Conchological Iconography Hackenheim ConchBooks p 102 Tenorio MJ Tucker JK Chaney HW 2012 The Families Conilithidae and Conidae The Cones of the Eastern Pacific In Poppe GT Groh K eds A Conchological Iconography Hackenheim ConchBooks p 112 The Conus biodiversity website Franklin JB Fernando SA Chalke BA Krishnan KS 2007 Radular morphology of Conus Gastropoda Caenogastropoda Conidae from India Molluscan Research 27 3 1 a b Cone Snail Profile National Geographic Archived from the original on 10 June 2008 Kohn AJ March 1956 Piscivorous Gastropods of the Genus Conus Proceedings of the National Academy of Sciences of the United States of America 42 3 168 71 Bibcode 1956PNAS 42 168K doi 10 1073 pnas 42 3 168 PMC 528241 PMID 16589843 Dipper F 2016 04 29 The Marine World A Natural History of Ocean Life Princeton University Press ISBN 978 0 9573946 2 9 Ben Tallon 2005 Marine wounds and stings DermNet NZ Killer Cones Archived from the original on 2008 12 26 Retrieved 2010 02 24 Conus Geographus The Geography Cone penelope uchicago edu Retrieved 2020 07 30 Machalek AZ September 2002 Secrets of the Killer Snails Bethesda MD National Institute of General Medical Sciences National Institutes of Health Archived from the original on 18 November 2011 Kapil Sasha Hendriksen Stephen Cooper Jeffrey S 2022 Cone Snail Toxicity StatPearls Treasure Island FL StatPearls Publishing PMID 29262115 retrieved 2023 01 29 ANI 2007 Sea snail venom paves way for potent new painkiller Compassionate health care network Retrieved 2008 11 19 Louise Yeoman 2006 03 28 Venomous snails aid medical science BBC Retrieved 2008 11 19 Yuhas Daisy 2012 Healing the Brain with Snail Venom Scientific American Mind 23 6 12 doi 10 1038 scientificamericanmind0113 12 Safavi Hemami H Gajewiak J Karanth S Robinson SD Ueberheide B Douglass AD et al February 2015 Specialized insulin is used for chemical warfare by fish hunting cone snails Proceedings of the National Academy of Sciences of the United States of America 112 6 1743 8 Bibcode 2015PNAS 112 1743S doi 10 1073 pnas 1423857112 PMC 4330763 PMID 25605914 Gorai B Vashisth H 18 October 2021 Structures and interactions of insulin like peptides from cone snail venom Proteins Structure Function and Bioinformatics 90 3 680 690 doi 10 1002 prot 26265 PMC 8816879 PMID 34661928 Conidae worldwideconchology Archived from the original on 2009 06 18 Retrieved 2010 02 24 Conus gloriamaris ConeShells Archived from the original on 23 July 2011 a href Template Cite web html title Template Cite web cite web a CS1 maint unfit URL link Conus gloriamaris Glory of the Seas Cone photos www oceanlight com Kohn A 2009 Interview of Professor Alan Kohn Professor Emeritus Zoology Seashell Collector Interview Archived from the original on February 27 2012 a b Tucker JK Tenorio MJ 2009 Systematic Classification of Recent and Fossil Conoidean Gastropods Hankenheim Germany ConchBooks p 295 Bouchet P Kantor YI Sysoev A Puillandre N 2011 A new operational classification of the Conoidea Journal of Molluscan Studies 77 3 273 308 doi 10 1093 mollus eyr017 Bouchet P 14 August 2011 Conidae J Fleming 1822 World Register of Marine Species WoRMS Traditionally all cone shells were included in the Linnaean genus Conus Tucker amp Tenorio 2009 proposed an alternative shell and radula based classification that recognized 4 families and 80 genera of cones In 2011 WoRMS still recognized a single family Conidae following Puillandre et al 2011 but Tucker amp Tenorio s 80 genera classification was presented as alternative representation C M L Afonso amp 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 amp S Samadi 2009 Identifying gastropod spawn from DNA barcodes possible but not yet practicable Molecular Ecology Resources 9 1311 1321 Bandyopadhyay PK Stevenson BJ Ownby JP Cady MT Watkins M Olivera BM January 2008 The mitochondrial genome of Conus textile coxI coxII intergenic sequences and Conoidean evolution Molecular Phylogenetics and Evolution 46 1 215 23 doi 10 1016 j ympev 2007 08 002 PMC 2718723 PMID 17936021 Williams ST Duda TF July 2008 Did tectonic activity stimulate oligo miocene speciation in the Indo West Pacific Evolution International Journal of Organic Evolution 62 7 1618 34 doi 10 1111 j 1558 5646 2008 00399 x hdl 2027 42 73573 PMID 18410535 S2CID 11714846 R L Cunha R Castilho L Ruber amp R Zardoya 2005 Patterns of cladogenesis in the venomous marine gastropod genus Conus from the Cape Verde Islands Systematic Biology 54 4 634 650 Duda TF Kohn AJ February 2005 Species level phylogeography and evolutionary history of the hyperdiverse marine gastropod genus Conus Molecular Phylogenetics and Evolution 34 2 257 72 doi 10 1016 j ympev 2004 09 012 PMID 15619440 Duda TF Rolan E January 2005 Explosive radiation of Cape Verde Conus a marine species flock Molecular Ecology 14 1 267 72 doi 10 1111 j 1365 294x 2004 02397 x PMID 15643969 S2CID 27304985 Vallejo Jr B 2005 Inferring the mode of speciation in the Indo West Pacific Conus Gastropoda Conidae Journal of Biogeography 32 8 1429 1439 doi 10 1111 j 1365 2699 2005 01260 x S2CID 86602728 Kaas Q Yu R Jin AH Dutertre S Craik DJ January 2012 ConoServer updated content knowledge and discovery tools in the conopeptide database Nucleic Acids Research 40 Database issue D325 30 doi 10 1093 nar gkr886 PMC 3245185 PMID 22058133 Further reading EditFlomenbaum NE Goldfrank LR Hoffman RS Howland MA Lewin NA Nelson LS eds 28 March 2006 Goldfrank s Toxicologic Emergencies 8th ed New York McGraw Hill ISBN 978 0 07 143763 9 Gmelin J F 1791 Systema naturae per regna tria naturae Editio decima tertia Systema Naturae 13th ed vol 1 6 3021 3910 Lipsiae Bruguiere JG 1792 Histoire Naturelle des Vers Encyclopedie Methodique Vol 1 Paris Panckoucke pp 345 757 Sowerby G B II 1833 Conus Conchological Illustrations pls 36 37 in French Bernardi AC 1858 Monographie du genre Conus in French Reeve L 1844 Conchologia Iconica Monograph of the genusConus Vol 1 pp 40 47 Kiener LC 1845 Genre Cone Conus Lin Species General et Iconographie des Coquilles Vivantes Vol 2 pp 1 111 Clench WJ 1942 The Genus Conus in the Western Atlantic Johnsonia 1 6 1 40 Van Mol JJ Tursch B Kempf M 1967 Mollusques prosobranches Les Conidae du Bresil Etude basee en partie sur les specimens recueillis par la Calypso Annales de l Institut Oceanographique 45 233 254 Vink DL von Cosel R 1985 The Conus cedonulli complex Historical review taxonomy and biological observations Revue Suisse de Zoologie 92 525 603 doi 10 5962 bhl part 81894 Petuch EJ 1986 New South American gastropods in the genera Conus Conidae and Latirus Fasciolariidae Proceedings of the Biological Society of Washington 99 8 14 Petuch E J 1987 New Caribbean molluscan faunas v 154 A1 A4 29 pls Coastal Education amp Research Foundation Charlottesville Virginia Petuch E J 1988 Neogene history of tropical American mollusks vi 217 39 pls Coastal Education amp Research Foundation Charlottesville Virginia Petuch EJ 1990 A new molluscan faunule from the Caribbean coast of Panama Nautilus 104 57 70 Petuch EJ 1992 Molluscan discoveries from the tropical Western Atlantic region Part II New species of Conus from the Bahamas Platform Central American and northern South American coasts and the Lesser Antilles La Conchiglia 24 265 10 15 Petuch EJ 2000 A review of the conid subgenus Purpuriconus da Motta 1991 with the descriptions of two new Bahamian species Ruthenica Russian Malacological Journal 10 81 87 Petuch EJ 2004 Cenozoic Seas Boca Raton CRC Press Tenorio MJ Tucker JK Chaney HW 2012 The Families Conilithidae and Conidae The Cones of the Eastern Pacific In Poppe GT Groh K eds A Conchological Iconography Hackenheim ConchBooks p 112 Coltro Jr J 2004 New species of Conidae from northeastern Brazil Mollusca Gastropoda Strombus 11 1 16 Garcia EF 2006 Conus sauros a newConusspecies Gastropoda Conidae from the Gulf of Mexico Novapex 7 71 76 Franklin JB Subramanian KA Fernando SA Krishnan KS 2009 Diversity and Distribution of Conidae from the Tamil Nadu Coast of India Mollusca Caenogastropoda Conidae Zootaxa 2250 1 63 doi 10 11646 zootaxa 2250 1 1 Franklin JB Fernando SA Chalke BA Krishnan KS 2007 Radular morphology of Conus Gastropoda Caenogastropoda Conidae from India PDF Molluscan Research 27 3 111 122 Peters H O Leary BC Hawkins JP Carpenter KE Roberts CM 2013 Conus first comprehensive conservation red list assessment of a marine gastropod mollusc genus PLOS ONE 8 12 e83353 Bibcode 2013PLoSO 883353P doi 10 1371 journal pone 0083353 PMC 3871662 PMID 24376693 External links EditCone snail Conus at Wikipedia s sister projects Definitions from Wiktionary Media from Commons Taxa from Wikispecies Data from Wikidata SEM images of the radula can be found at Thompson T E Bebbington A 1973 Scanning electron microscope studies of gastropod radulae Malacologia 14 147 165 Tucker J K 2009 Recent cone species database September 4th 2009 Edition Filmer R M 2001 A Catalogue of Nomenclature and Taxonomy in the Living Conidae 1758 1998 Backhuys Publishers Leiden 388pp Bouchet P Fontaine B 2009 List of new marine species described between 2002 2006 Census of Marine Life Natural History Museum Rotterdam photos of Conus shells Cone snail and conotoxins page The Conus Biodiversity website ConoServer Conidae from worldwide conchology com Scroll down for many photographs Pain killer comes out of its shell The Age news article Venomous snails aid medical science BBC News Article ConeShell Collection Giancarlo Paganelli Cone Shells Knights of the Sea Alexander Medvedev s collection Cone Snail Video Hunting Footage and Physiology Deadly Critters That Might Save Your Life CNN Baldomero Toto Olivera s short talk Conus Peptides Archived 2015 04 06 at the Wayback Machine Zonatus Gallery Miller John A 1989 The toxoglossan proboscis structure and function Journal of Molluscan Studies 55 2 167 181 doi 10 1093 mollus 55 2 167 BBC Nature Video Cone snails are silent assassins of the sea drugging sleeping fish before poisoning them Retrieved from https en wikipedia org w index php title Cone snail amp oldid 1137976083, wikipedia, wiki, book, books, library,

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