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Venomous Fishes

  • Laith A. Jawad
Chapter

Abstract

General Abstract

Fish are in intimate contact with their microbial-rich environment and have a unique physical barrier composed of skin and skin mucus which act as a first line of defence against attachment and penetration by potentially harmful agents. Many species of marine fishes are reported to be ichthyocrinotoxic that releases toxic skin secretions into the surrounding water.

Fish skin mucus comprises a number of immune components which have bactericidal activities. The epithelial skin mucus layers are therefore considered a key component of fish innate defence mechanisms. The mucosal immunity is especially important for the host defence response to invasive pathogens, moreover several fish species possess venomous apparatuses that provide protection against predators during feeding or when fish are stressed or provoked. Many species of marine fishes are reported to be ichthyocrinotoxic which releases toxic skin secretions into the surrounding water as a repellent agent.

Ichthyocrinotoxic fishes can be found in several fish groups such as catfishes, boxfishes, eels, flatfishes, and pufferfishes. In the present chapter, the information was divided into parts: the first deals with the nature of the toxin and the second deals with the species account. Several ichthyocrinotoxic species inhabit the eastern and southern coasts of the Arabian peninsula and they are commercially important in spite of being poisonous.

Abstract for Section 7.2

Venomous organisms are capable of producing venom in specialised tissues or glands that are connected with application structures (e.g., stings) and are called acanthotoxic fishes. They differ from other poisonous creatures that usually produce poisons in nonspecialised tissues or accumulate them after ingestion of prey or algae and may be dangerous to people who consume them. Antivenom is not available for all types of envenomations, but venom for the treatment of stonefish and box stings is available. Acanthotoxic fishes are distributed among the catfishes (Siluriformes) and six groups of ‘acanthomorphs’ or spiny-rayed fishes: toadfishes (Batrachoidiformes), scorpionfishes (Scorpaeniformes: Scorpaenoidei), surgeonfishes, scats and rabbitfishes (Perciformes: Acanthuroidei), saber-toothed blennies (Perciformes: Blennioidei), jacks (Perciformes: Percoidei), and stargazers and weeverfishes (Perciformes: Trachinoidei).

In the present chapter, cases of envenomation caused by members of acanthotoxic species are described in addition to an account of each species. In the eastern and southern coasts of the Arabian peninsula, there are several species within each acanthotoxic fish group, which mostly have commercial value.

References

  1. Abbott BC, Ballantine D. The toxin from Gymnodinium veneficum Ballantine. J Mar Biol Assoc UK. 1957;36(01):169–89.CrossRefGoogle Scholar
  2. Al Sakaff H, Esseen M. Occurrence and distribution of fish species off Yemen (Gulf of Aden and Arabian Sea). Naga ICLARM Q. 1999;22(1):43–7.Google Scholar
  3. Alexander JB, Ingram GA. Noncellular nonspecific defense mechanism of fish. Annu Rev Fish Dis. 1992;2:249–79.CrossRefGoogle Scholar
  4. Allen GR. Field guide to the freshwater fishes of New Guinea. Christensen Research Institute: Madang; 1991.Google Scholar
  5. Allen GR, Erdmann MV. Pterois andover, a new species of scorpionfish (Pisces: Scorpaenidae) from Indonesia and Papua New Guinea. Aqua Int J Ichthyol. 2008;13(3–4):127–38.Google Scholar
  6. Allen GR, Erdmann MV. Reef fishes of the East Indies, Volumes I–III. Tropical Reef Research. Perth: Universitiy of Hawai’i Press; 2012.Google Scholar
  7. Al-Mojil DK, Moore ABM, White WT. Sharks and rays of the Arabian/Persian Gulf. London: MBG Ltd; 2015. 178 p.Google Scholar
  8. Amemiya I. On the structure of the poison sting of Aigo (Siganus fuscescens) (In Japanese). Suisan Gakkai Ho. 1921;3:196–204.Google Scholar
  9. Arakawa O, Hwang DF, Taniyama S, Takayani T. Toxins of pufferfish that cause human intoxications. In: Ishimatsu A, Lie H-J, editors. Coastal environmental and ecosystem issues of the East China Sea. Tokyo: TERRAPUB and Nagasaki University; 2010. p. 227–244.Google Scholar
  10. Arratia G. The skin of catfishes—a review. In: Catfishes, 1. Museum für Naturkunde der Humboldt Universität, Invalidenstr, Berlin; 2003. p. 177–199.Google Scholar
  11. Assadi H, Dehghani P. Atlas of the Persian Gulf and the sea of Oman fishes. Iran: Iranian Fisheries Research and Training Organization; 1997. p. 226.Google Scholar
  12. Atkinson PRT, Boyle A, Hartin D, McAuley D. Is hot water immersion an effective treatment for marine envenomation? Emerg Med J. 2006;23(7):503–8.CrossRefGoogle Scholar
  13. Auddy B, Gomes A. Indian catfish (Plotosus canius, Hamilton) venom. Occurrence of lethal protein toxin (toxin-PC). Adv Exp Med Biol. 1996;391:225–9.CrossRefGoogle Scholar
  14. Auerbach PS. Marine envenomations. N Engl J Med. 1991;325:486–93.CrossRefGoogle Scholar
  15. Auerbach PS, Norris RL. Disorders caused by venomous snakebites and marine animal exposures. In: Longo DL, Fauci AS, Kasper DL, Hauser SL, Larry Jameson J, Loscalzo J, editors. Harrison’s principles of internal medicine. 18th ed. New York: McGraw-Hill; 2012.Google Scholar
  16. Austin L, Gillis RG, Youatt G. Stonefish venom: some biochemical and chemical observations. Aust J Exp Biol Med Sci. 1965;43:79–90.CrossRefGoogle Scholar
  17. Autenrieth HF. Ueber das gift der fische. Tübingen: C. F. Osiander; 1833. 287 p.Google Scholar
  18. Baker DH. An unusual foreign body: catfish spine. Pediatr Radiol. 1972/1997;27:585.Google Scholar
  19. Bardach JE, Ryther JH, McLarney WO. Aquaculture: the farming and husbandry of freshwater and marine organisms. New York: Wiley-Interscience; 1972. p. 868.Google Scholar
  20. Bariche M. Age and growth of lessepsian rabbit fish from the eastern Mediterranean. J Appl Ichthyol. 2005;21:141–5.CrossRefGoogle Scholar
  21. Barry TP, Castanos MT. Gonadal maturation and spermiation in male spotted scat (Scatophagus argus). In: Fast AW, editor. Spawning induction and pond culture of the spotted scat (Scatophagus argus Linnaeus) in the Philippines, Technical Report No. 39. Manoa: Mariculture Research and Training Centre, Hawaii Institute of Marine Biology, University of Hawaii; (1988). p. 51–6.Google Scholar
  22. Barry TP, Fast AW. Biology of the spotted scat (Scatophagus argus) in the Philippines. Asian Fish Sci. 1992;5:163–79.Google Scholar
  23. Bhimachar BW. Poison glands in the pectoral spines of two catfishes-Heteropneust fossilis (Bloch) and Plotosus arab (Forsskal), with remarks on th nature of thrier venom. Proc Indian Acad Sci B. 1944;19:65–70.Google Scholar
  24. Bizzarro JJ, White WT. Gymnura poecilura. The IUCN red list of threatened species 2006:e T60117A12305771. 2006.  http://dx.doi.org/10.2305/IUCN.UK.2006.RLTS.T60117A12305771.en. Downloaded on 3 Aug 2016.
  25. Blomkalns AL, Otten EJ. Catfish spine envenomation: a case report and literature review. Wilderness Environ Med. 1999;10:242.CrossRefGoogle Scholar
  26. Blyth AW. Poisonous fish. In: Blyth AW, editor. Poisons: their effects and detection. 3rd ed. London.: Charles Griffin; 1860. p. 468–70.Google Scholar
  27. Bogutskaya NG. Preliminary assignment of coordinates to type localities in the Catalog of Fishes. 2007. Unpublished dbf file.Google Scholar
  28. Bond N. Cameraman Justin Lyons reveals Steve Irwin’s final words: ‘I’m dying’. The Advertiser, South Australia; 10 Mar 2014. Retrieved 31 Jul 2016.Google Scholar
  29. Bottard A. Les poissons venimeux. Thèse Paris, Octave Doin éd. 1899. p. 198.Google Scholar
  30. Bragadeeswaran S, Thangaraj S. Hemolytic and antibacterial studies on skin mucus of eel fish, Anguilla anguilla Linnaues, 1758. Asian J Biol Sci. 2011;4(3):272–6.CrossRefGoogle Scholar
  31. Breder CM, Rosen DE. Modes of reproduction in fishes. Neptune City, NJ: T. F. H. Publications; 1966. 941 p.Google Scholar
  32. Brown HH. The fisheries of the Windward and Leeward Islands. Bull Dev Welfare West Indiana. 1945;20:97.Google Scholar
  33. Cai Z, Wang Y, Hu J, Zhang J, Lin Y. Reproductive biology of Scatophagus argus and artificial induction of spawning. J Trop Oceanogr. 2010;29(5):180–5.Google Scholar
  34. Callinan R. Death of a crocodile hunter. Time; 4 Sept 2006. Retrieved 31 Jul 2016. Google Scholar
  35. Calton GJ, Burnett JW. Catfish (Ictalurus catus) fin venom. Toxicon. 1975;13:399–403.CrossRefGoogle Scholar
  36. Cameron A, Endean R. Epidermal secretions and the evolution of venom glands in fishes. Toxicon. 1973;11:401–10.CrossRefGoogle Scholar
  37. Cameron AM, Endean R. Venom glands in scatophagid fish. Toxicon. 1977;8:171–8.CrossRefGoogle Scholar
  38. Camus L, Gley E. De la toxicité du s érum d’anguille pour des animaux d’espèce diff érente (lapin, cobaye, h érisson). Compt Rend Soc Biol. 1898;50:129–30.Google Scholar
  39. Cantor TE. Notes respecting some Indian fishes, collected, figured, and described, etc. J R Asiatic Soc Bengal. 1839;5:165–72.Google Scholar
  40. Carpenter KE, Krupp F, Jones DA, Zajonz U. Living marine resources of Kuwait, eastern Saudi Arabia, Bahrain, Qatar, and the United Arab Emirates. FAO species identification field guide for fishery purposes. Rome: FAO; 1997. 293 p + 17 col. plates.Google Scholar
  41. Carrette TJ, Cullen P, Little M, Peiera PL, Seymour JE. Temperature effects on box jellyfish venom: a possible treatment for envenomed patients? Med Aust. 2002;177:654–5.Google Scholar
  42. Cavazzani E. L’ichtyotoxique chez le “Petromuzon marinus”. Arch Ital Biol. 1892;18:182–6.Google Scholar
  43. Chang SL, Hsieh CS, Cheng MJ. Salinity Adaptation of the Spotted Scat (Scatophagus argus). J Taiwan Fish Res. 2005;13(2):33–9.Google Scholar
  44. Chen D, Kini RM, Chung K, Yuen R, Khoo HE. Haemolytic activity of stonustoxin from stonefish (Synanceja horrida) venom: pore formation and the role of cationic amino acid residues. Biochem J. 1997;325:685–91.CrossRefGoogle Scholar
  45. Choromanski JM, Murray TF, Webber LJ. Responses of the isolated buffalo sculpin heart to stabilized venom of the lionfish (Pterois volitans). Proc West Pharmacol Soc. 1984;27:229–32.Google Scholar
  46. Church JE, Hodgson WC. The pharmacological activity of fish venoms. Toxicon. 2002;40:1083–93.CrossRefGoogle Scholar
  47. Ckhiai A. A preliminary report on the fin organ of a soleoid fish, Pardachirus pavoninus (Lacepede). Mem College Agric Kyoto Univ. 1957;76:29–33.Google Scholar
  48. Clark E. The Red Sea’s shark proof fish. Nat Geogr Mag. 1974;146:718–27.Google Scholar
  49. Clark E, Chao S. A toxic secretion from the Red Sea flatfish Pardachirus marmoratus (LacipBde). Bull Sea Fish Res Stn (Haifa). 1973;60:53–6.Google Scholar
  50. Clark E, George A. A comparison of the toxic soles Pardachirus marmoratus of the Red Sea and P. pavoninus from southern Japan. Rev Trav Inst Wches Marit. 1976;40:545–6. Abstract of paper presented at the 2nd European Ichthyological Congress, Paris.Google Scholar
  51. Clarke TL. Some observations of fish poisoning in the Virgin Islands. West Indian Bull. 1918;17:56–67.Google Scholar
  52. CNN. Reuters. Stingray deaths rare and agonizing. CNN. Reuters; 4 Sept 2006. Archived from the original on 21 September 2006. Retrieved 31 Jul 2016.
  53. Cohen AS, Olek AJ. An extract of lionfish (Pterois volitans) spine tissue contains acetylcholine and a toxin that affects neuromuscular transmission. Toxicon. 1989;27(12):1367–76.CrossRefGoogle Scholar
  54. Collen B, Richman N, Beresford A, Chenery A, Ram M. (Sampled Red List Index Coordinating Team). Scatophagus argus. The IUCN red list of threatened species 2010: e.T155268A4761779. 2010. http://dx.doi.org/10.2305/IUCN.UK.2010 4.RLTS.T155268A4761779.en. Downloaded on 16 Aug 2016
  55. Collette BB. A review of the venomous toadfishes, subfamily Thalassophryninae. Copeia. 1966;4:846–64.CrossRefGoogle Scholar
  56. Collette BB, Russo JL. A revision of the scaly toadfishes, genus Batrachoides, with description of two new species from the eastern Pacific. Bull Mar Sci. 1981;31:197–233.Google Scholar
  57. Compagno LJV. Dasyatidae. In: Smith MM, Heemstra PC, editors. Smiths’ sea fishes. Berlin: Springer; 1986. p. 135–42.Google Scholar
  58. Compagno LJV. Myliobatidae. Eagle rays. In: Carpenter KE, Niem VH, editors. FAO species identification guide for fishery purposes. The living marine resources of the Western Central Pacific. Batoid fishes, chimaeras and bony fishes. Part 1 (Elopidae to Linophrynidae), vol. 3. Rome: FAO; 1997. p. 1511–19.Google Scholar
  59. Compagno LJV Taeniura lymma. The IUCN red list of threatened species 2005: e.T39412A10229354. 2005.  http://dx.doi.org/10.2305/IUCN.UK.2005.RLTS.T39412A10229354.en. Downloaded on 25 Aug 2016.
  60. Compagno LJV, Last P. Dasyatidae. In: KE Carpenter, VH Niem, editors. The living resources of the Western Central Pacific. FAO species identification guide for fisheries purposes. Batoid fishes, chimaeras and bony fishes part 1. Rome: FAO; 1998.Google Scholar
  61. Compagno LJV, Ebert DA, Smale MJ. Guide to the sharks and rays of southern Africa. London: New Holland (Publ.); 1989. 158 p.Google Scholar
  62. Cornic A. Poissons de l’Ile Maurice. Stanley Rose Hill, Ile Maurice: Editions de l’Océan Indien; 1987. 335 p.Google Scholar
  63. Coutière H. Poissons venimaux et posissons vénéneux. Paris: Thèse Agrég. Carré et Naud; 1899. 221 p.Google Scholar
  64. Daly JS, Scharf MJ. Injuries caused by venomous fish spines. In: Goldsmith L, Katz S, Gilchrest B, Paller A, Leffell D, Wolff K, editors. Fitzpatrick’s dermatology in general medicine. 8th ed. New York: McGraw-Hill; 2012.Google Scholar
  65. Das P, Mandal S, Khan A, Manna SK, Ghosh K. Distribution of extracellular enzyme-producing bacteria in the digestive tracts of 4 brackish water fish species. Turk J Zool. 2014;38:79–88.CrossRefGoogle Scholar
  66. De Santana Evangelista K, Andrich F, Figueiredo de Rezende F, Niland S, Cordeiro MN, Horlacher T, Castelli R, Schmidt-Hederich A, Seeberger PH, Sanchez EF, Richardson M, Gomes de Figueiredo S, Eble JA. Plumieribetin, a fish lectin homologous to mannose-binding B-type lectins, inhibits the collagen-binding a1b1 integrin. J Biol Chem. 2009;284:34747–59.CrossRefGoogle Scholar
  67. Deeds JR, Landsberg JH, Etheridge SM, Pitcher GC, Longan SW. Non-traditional vectors for paralytic shellfish poisoning. Mar Drugs. 2008;6:308–48.CrossRefGoogle Scholar
  68. Dehghani H, Sajjadi MM, Rajaian H, Sajedianfard J, Parto P. Study of patient’s injuries by stingrays, lethal activity determination and cardiac effects induced by Himantura gerrardi venom. Toxicon. 2009;54:881–6.CrossRefGoogle Scholar
  69. Devi R, Boguskaya N. Plicofollis dussumieri. The IUCN red list of threatened species 2009: e.T169632A6658484. 2009.  http://dx.doi.org/10.2305/IUCN.UK.2009-2.RLTS.T169632A6658484.en. Downloaded on 26 Aug 2016.
  70. Duhig JV. The nature of the venom of “Synanceija horrida” (the stonefish). Z Immunitätsforsch. 1929;62:185–9.Google Scholar
  71. Duhig JV, Jones G. The venom apparatus of the stone fish (Synanceja horrida). Mem Queensland Mus. 1928a;9:136–50.Google Scholar
  72. Duhig JV, Jones G. Haemotoxin of the venom of Synanceja horrida. Aust J Exp Biol. 1928b;5:173–9.CrossRefGoogle Scholar
  73. Dulvy NK, Reynolds JD. Evolutionary transitions among egg-laying, live-bearing and maternal inputs in sharks and rays. Proc R Soc Lond Ser B Biol Sci. 1997;264:1309–15.CrossRefGoogle Scholar
  74. Edmonds C, Lowry C, Pennefather J. Diving and subaquatic medicine. Oxford: Butterworth-Heinemann; 1992. 230 p.Google Scholar
  75. Eger WH. An exotoxin produced by the puffer, Arthron hispidus, with notes on the toxicity of other plectognath fishes. M.S. Thesis. University of Hawaii; 1963. 88 p.Google Scholar
  76. Endean R. A study of the distribution, habitat, behavior, venom apparatus and venom of the stonefish. Aust J Mar Freshw Res. 1961;12:177–90.CrossRefGoogle Scholar
  77. Englesen H. Om giftfisk og giftige fisk. Nord Hyg Tidskrift. 1922;3:316–25.Google Scholar
  78. Eschmeyer WN. Scorpaenidae. In: Smith MM, Heemstra PC, editors. Smiths’ sea fishes. Berlin: Springer; 1986. p. 463–78.Google Scholar
  79. Eschmeyer WN, editor. Catalog of fishes. Online version. Internet publication, San Francisco (California Academy of Sciences); 2014. http://research.calacademy.org/research/Ichthyology/Catalog/fishcatmain.asp. Updated 19 May 2014.
  80. Eschmeyer WN, Fong JD. Species by family/subfamily in the Catalog of fishes. Internet publication, San Francisco (California Academy of Sciences); 2012. http://research.calacademy.org/research/Ichthyology/Catalog/. Updated 15 Mar 2012.
  81. Escoubas P, Diochot S, Corzo G. Structure and pharmacology of spider venom neurotoxins. Biochimie. 2000;82:893–907.CrossRefGoogle Scholar
  82. Eupharasen BA. Raja (narinari). K Vetinsk Akad Handl. 1790;11:217–9.Google Scholar
  83. Fahmi WT, White W, Manjaji BM. Pastinachus sephen. The IUCN red list of threatened species 2009: e.T161332A5400078. 2009.  http://dx.doi.org/10.2305/IUCN.UK.2009-2.RLTS.T161332A5400078.en. Downloaded on 24 Aug 2016.
  84. Faust ES. Tierische gifte: fische, Pisces. In: Handbuch der Experimentellen Pharmakologie. vol. 2. Berlin: Springer; 1924. p. 1841–54.Google Scholar
  85. Fenner PJ, Williamson JA, Skinner RA. Fatal and non-fatal stingray envenomation. Med J Aust. 1989;151:621–5.Google Scholar
  86. Ferraris CJ. Checklist of catfishes, recent and fossil (Osteichthys: Siluriformes), and catalogue of siluriform primary types. Zootaxa. 2007;1418:1–628.CrossRefGoogle Scholar
  87. Fischer W, Bianchi G. FAO species identification sheets for fishery purposes: Western Indian Ocean (Fishing Area 51), vol. 5. Rome: FAO; 1984.Google Scholar
  88. Fischer W, Sousa I, Silva C, de Freitas A, Poutiers JM, Schneider W, Borges TC, Feral JP, Massinga A. Fichas FAO de identificaçao de espécies para actividades de pesca. Guia de campo das espécies comerciais marinhas e de águas salobras de Moçambique. Publicaçao preparada em collaboraçao com o Instituto de Investigaçao Pesquiera de Moçambique, com financiamento do Projecto PNUD/FAO MOZ/86/030 e de NORAD. Rome: FAO; 1990. 424 p.Google Scholar
  89. Fitzgerald FT. Animal bites and stings. In: Humes HD, editor. Kelly’s textbook of internal medicine. Philadelphia, PA: Lippincott Williams & Wilkins; 2000.Google Scholar
  90. Flaschentrager B, Abdallah MM. Some toxic fishes of the Red Sea. Alexandria Med J. 1957;3:177–88.Google Scholar
  91. Fletcher JE, Hubert M, Wieland SJ, Gong Q, Jiang M. Similarities and differences in mechanisms of cardiotoxins, melittin and other myotoxins. Toxicon. 1996;34:1301–11.CrossRefGoogle Scholar
  92. Forrester BM. Pattern of stingray injuries reported to Texas poison centers from 1998 to 2004. Hum Exp Toxicol. 2005;24:639–42.CrossRefGoogle Scholar
  93. Fowler SL, Cavanagh RD, Camhi M, Burgess GH, Cailliet GM, Fordham SV, Simpfendorfer CA, Musick JA, comps and editors. Sharks, rays and chimaeras: the status of the Chondrichthyan fishes. Status survey. IUCN, Gland, Switzerland and Cambridge, UK: IUCN/SSC Shark Specialist Group; 2005. p. x + 461.Google Scholar
  94. Fredericq L. Die secretion von schutz- und nutzstoffen. In: Winterstein H, editor. Handbuch der vergleichenden physiologie, vol. II. Jena: G. Fischer; 1924. p. 1–87.Google Scholar
  95. Fricke R. Fishes of the Mascarene Islands (Réunion, Mauritius, Rodriguez): an annotated checklist, with descriptions of new species, Theses Zoologicae, vol. 31. Koenigstein: Koeltz Scientific Books; 1999. 759 p.Google Scholar
  96. Fricke R, Kulbicki M, Wantiez L. Checklist of the fishes of New Caledonia, and their distribution in the Southwest Pacific Ocean (Pisces). Stuttgarter Beiträge zur Naturkunde A, Neue Serie. 2011;4:341–463.Google Scholar
  97. Fricke R, Jawad LA, Al-Kharusi LH, Al-Mamr JM. New record and redescription of Uranoscopus crassiceps Alcock, 1890 (Uranoscopidae) from Oman, Arabian Sea, northwestern Indian Ocean, based on adult specimens. Cybium. 2013;37(3):143–7.Google Scholar
  98. Froes HP. Sur un poisson toxiphore brésikien: le “niquim” Thalassophryna maculosa. Review Sud-America medical Chir. 1932;3:871–8.Google Scholar
  99. Froese HP. Peixes toxiforos do Brasil. Bahia Med. 1933;4:69–75.Google Scholar
  100. Froese R, Pauly D, editors. FishBase. World Wide Web 3782 electronic publication. 2016. version (07/2016). www.fishbase.org
  101. Fuchi Y, Narimatsa H, Nakama S, Kotobuki H, Hirakawa H, Torishima Y, Noguchi T, Ohtomo N. Tissue distribution of toxicity in a puffer fish, Arothron firmamentum (“hoshifugu”). J Food Hyg Soc Japan. 1991;32:520–4.CrossRefGoogle Scholar
  102. Fujita T. Gustatory cells as paraneurons. In: Kurihata K, Suzuki N, Ogawa H, editors. Olfaction and Tase XI. Tokyou: Springer; 1994. p. 2–4.CrossRefGoogle Scholar
  103. Gandhi V. Studies on the ecology and biology of butterfish Scatophagus argus in Mandapam coastal region. Ph.D. Thesis. Madurai: Madurai Kamaraj University; 1998. p. 200.Google Scholar
  104. Garnier P, Goudey F. Enzymatic properties of the stonefish (Synanceia verrucosa Bloch and Schneider 1801) venom and purification of a lethal, hypotensive and cytolytic factor. Toxicon. 1995;33(2):143–55.CrossRefGoogle Scholar
  105. Gerard I, Koch T. Steve Irwin’s freak death filmed. The Australian; 4 Sept 2006. Retrieved 31 Jul 2016.Google Scholar
  106. Ghafari Khalaf Mohamadi SM, Shahbazzadeh D, Jamili S, Fatemi SMR, Pooshang Bagheri P. A new method for venom extraction from venomous fish, Green Scat. Iran J Fish Sci. 2015;14(2):321–7.Google Scholar
  107. Ghafari SM, Jamili S, Bagheri KP, Ardakani EM, Fatemi MR, Shahbazzadeh F, Shahbazzadeh D. The first report on some toxic effects of green scat, Scatophagus argus an Iranian Persian Gulf venomous fish. Toxicon. 2013;66:82–7.CrossRefGoogle Scholar
  108. Gill T. Life histories of toadfishes (Batrachoididae), compared with those of weevers (Trachinus) and stargazers (uranoscopids). Smithson Misc Collect. 1907;48:388–427.Google Scholar
  109. Golani D, Sonin O. New records of the Red Sea fishes, Pterois miles (Scorpaenidae) and Pteragogus pelycus (Labridae) from the eastern Mediterranean Sea. Jpn J Ichthyol. 1992;39(2):167–9.Google Scholar
  110. Gray WR, Olivera BM, Cruz LJ. Peptide toxins from venomous conus snails. Annu Rev Biochem. 1988;57:665–700.CrossRefGoogle Scholar
  111. Greenfield DW. Two new toadfish genera (Teleostei: Batrachoididae). Proc Calif Acad Sci. 2006;57:945–54.Google Scholar
  112. Greenfield DW, Winterbottom R, Collette BB. Review of the toadfish genera (Teleostei: Batrachoididae). San Francisco, CA: California Academy of Sciences; 2008.Google Scholar
  113. Grevin J. Deux livres des venesis. Paris: C. Plantin. 1568. 423 p.Google Scholar
  114. Grove JS, Lavenberg RJ. The fishes of the Galápagos Islands. Stanford, CA: Stanford University Press; 1997. 863 p.Google Scholar
  115. Günther A. On a poison organ in a genus of batrachoid fishes. Proc Zool Soc Lond. 1864;1:155–8.Google Scholar
  116. Günther A. An account of the fishes of Central America, based on collections made by Capt. J. M. Dow, F. Goldman, Esq., and O. Salvin, Esq. Trans Zooll Soc Lond. 1869;6:377–494.CrossRefGoogle Scholar
  117. Günther A. An introduction to the study of fishes. Edinburgh: A and C. Black; 1880. 720 p.CrossRefGoogle Scholar
  118. Gupta S. An overview on morphology, biology, and culture of spotted scat Scatophagus argus (Linnaeus 1766). Rev Fish Sci Aquac. 2016;24(2):203–12. doi: 10.1080/23308249.2015.1119800.CrossRefGoogle Scholar
  119. Gwee MCE, Gopalakrishnakone P, Yuen R, Khoo HE, Low KSY. A review of stonefish venoms and toxins. Pharmacol Ther. 1994;64:509–28.CrossRefGoogle Scholar
  120. Haddad V Jr. Atlas de animais aquáticos perigosos do Brasil: guia médico de identificação e tratamento. São Paulo: Roca; 2000.Google Scholar
  121. Haddad V Jr, Lastoria JC. Injuries caused by Pimelodidade freshwater catfishes (mandijubas): clinical and therapeutic aspects. Diagnóstico Tratamento. 2005;10(3):132–3.Google Scholar
  122. Haddad V, Martins IA, Makyama HM. Injuries caused by scorpionfishes (Scorpaena plumieri Bloch, 1789 and Scorpaena brasiliensis Cuvier, 1829) in the Southwestern Atlantic Ocean (Brazilian coast): epidemiologic, clinic and therapeutic aspects of 23 stings in humans. Toxicon. 2003a;42(1):79–83.CrossRefGoogle Scholar
  123. Haddad V Jr, Pardal PP, Cardoso JL, Martins IA. The venomous toadfish Thalassophryne nattereri (niquim or miquim): report of 43 injuries provoked in fishermen of Salinopolis (Para State) and Aracaju (Sergipe State). Brazil Rev Inst Med Trop. 2003b;45:221–3.CrossRefGoogle Scholar
  124. Haddad V Jr, Garrone Neto D, de Paula NJB, Marques FPL, Barbaro KC. Freshwater stingrays: study of epidemiologic, clinic and therapeutic aspects based on 84 envenomings in humans and some enzymatic activities of the venom. Toxicon. 2004;43:287–94.CrossRefGoogle Scholar
  125. Halstead BW. Animal phyla known to contain poisonous marine animals. In: Buckly EE, Porges N, editors. Venoms. Washington, DC: American Association of Advancement of Science; 1956. p. 9–27.Google Scholar
  126. Halstead BW. Dangerous marine animals. Cambridge: Cornell maritime Press; 1959. 146 p.CrossRefGoogle Scholar
  127. Halstead BW. Fish poisonings-their diagnosis, pharmacology and treatment. Clin Pharmacol Ther. 1964;5:615–27.CrossRefGoogle Scholar
  128. Halstead BW. Poisonous and venomous marine animals of the world, vol. II. Washington, DC: Government Printing Office; 1967.Google Scholar
  129. Halstead WB. Poisonous and venomous marine animals of the world, Vertebrates continued, vol. 3. Washington, DC: US Government Printing Office; 1970.Google Scholar
  130. Halstead BW. Poisonous and venomous marine animals of the world. Princeton, NJ: The Darwin Press; 1978.Google Scholar
  131. Halstead BW. Poisonous and venomous marine animals of the world. 2nd ed. Princeton, NJ: The Darwin Press; 1988.Google Scholar
  132. Halstead BW, Bunker NC. Stingray attacks and their treatment. Am J Trop Med Hyg. 1953;2(1):115–28.CrossRefGoogle Scholar
  133. Halstead BW, Daigleish AE. The venom apparatus of the European star-gazer Uranoscopus scaber (L.) In: Russell FE, Saunders PR, editors. Animal toxins. New York: Pergammon Press; 1967. p. 177–86.CrossRefGoogle Scholar
  134. Halstead BW, Mitchell LR. A review of the venomous fishes of the Pacific area. In: Keegan HL, MacFarlane WV, editors. Venomous and poisonous animals and noxious plants of the Pacific region. New York: Pergamon Press; 1963. p. 173–202.Google Scholar
  135. Halstead BW, Kuninobu LS, Hebard HG. Catfish stings and the venom apparatus of the Mexican catfish, Galeichthys felis (Linnaeus). Trans Am Microsc Soc. 1953;72:297–314.CrossRefGoogle Scholar
  136. Halstead BW, Chitwood MJ, Modglin FR. Stonefish stings, and the venom apparatus of Synanceja horrida (Linnaeus). Trans Am Microsc Soc. 1956;75:381–97.CrossRefGoogle Scholar
  137. Hamano Y, Noguchi T. Intracellular visualization of tetrodotoxin (TTX) in the skin of a puffer Tetraodon nigroviridis by immunoenzymatic technique. Toxicon. 2003;41:605–11.CrossRefGoogle Scholar
  138. Hardy AC. The open sea—its natural history: the world of Plankton. Boston: Houghton Mufflin; 1956.Google Scholar
  139. Haris PI, Chapman D. The conformational analysis of peptides using Fourier transform IR spectroscopy. Biopolymers. 1995;37:251.CrossRefGoogle Scholar
  140. Hashimoto Y. On the toxicity of a puffer, “Nashifugu” (Spheroides vermicularis radiates) (In Japanese). Bull Jpn Soc Sci Fish. 1950;16:43–6.CrossRefGoogle Scholar
  141. Heemstra PC, Gon O. Soleidae. In: Smith MM, Heemstra PC, editors. Smiths’ sea fishes. Berlin: Springer; 1986. p. 868–74.Google Scholar
  142. Hellio C, Bremer G, Pons AM, Le Gal Y, Bour GN. Inhibition of the development of microorganisms (bacteria and fungi) by extracts of marine algae from Brittany (France). Appl Microbiol Biotechnol. 2000;54:543–9.CrossRefGoogle Scholar
  143. Henderson AC, Reeve AJ. Noteworthy elasmobranch records from Oman. Afr J Mar Sci. 2011;33(1):171–5.CrossRefGoogle Scholar
  144. Henderson AC, McIlwain JL, Al-Oufi HS, Al-Sheili S. The sultanate of Oman shark fishery: species composition, seasonality and diversity. Fish Res. 2007;86(2):159–68.CrossRefGoogle Scholar
  145. Hering W. Scatophagus argus – how long can you keep them? London: Calypso Fish and Aquaria Club, Aquarticles; 2000. http://www.aquarticles.com/articles/breeding/hering_Scats.html
  146. Hong Kong Poison Control Network (HKPCN). Venomous fishes: they sting. Toxicovigilance Section, Surveillance and Epidemiological Branch, Centre for Health Protection, Department of Health, Hong Kong. 2007;2:1–5.Google Scholar
  147. Hussain NA, Naiama AK, Al-Hassan LAJ. Annotated check list of the fish fauna of Khor Al-Zubair, north west of the Arabian Gulf, Iraq. Acta Ichthyol Piscat. 1988;18(1):17–24.CrossRefGoogle Scholar
  148. Hwang DF, Noguchi T. Tetrototoxin poisoning. Adv Food Nutr Res. 2007;52:141–236.CrossRefGoogle Scholar
  149. International Business Times. Crocodile hunter’s last show completed. International Business Times; 6 Jan 2007. Archived from the original on 7 Jan 2007. Retrieved 31 Jul 2016.Google Scholar
  150. Iranian Fisheries Company and Iranian Fisheries Research Organization. Persian Gulf and Oman sea fishes. Iran: Poster; 2000.Google Scholar
  151. Jacobsen IP, Bennett MB. Life history of the blackspotted whipray Himantura astra. J Fish Biol. 2011;78:1249–68.CrossRefGoogle Scholar
  152. Jayaram KC. Ariidae. In: Fischer W, Bianchi G, editors. FAO species identification sheets for fishery purposes, Western Indian Ocean fishing area 51, vol. 1. Rome: FAO; 1984. pag. var.Google Scholar
  153. Jeyaseelan MJP. Manual of fish eggs and larvae from Asian mangrove waters. Paris: United Nations Educational, Scientific and Cultural Organization; 1998. 193 p.Google Scholar
  154. Junqueira M, Grund LZ, Orii NM, et al. Analysis of the inflammatory reaction induced by the catfish (Cathorops spixii) venoms. Toxicon. 2007;49:909–19.CrossRefGoogle Scholar
  155. Khoo HE. Bioactive proteins from stonefish venom. Clin Exp Pharmacol physiol. 2002;29:802–6.CrossRefGoogle Scholar
  156. Khora SS. A systematic review of poisonous and venomous marine fishes of India. Ph.D. Thesis. Orissa: Berhampur University; 1986.Google Scholar
  157. Kizer KW, McKinney HE, Auerbach PS. Scorpaenidae envenomation. A five-year poison center experience. JAMA. 1985;253:807–10.CrossRefGoogle Scholar
  158. Klunzinger CB. Synopsis der Fische des Roten Meeres. Verh Zool Bot Ges Wien. 1871;21:441–688.Google Scholar
  159. Knouft JH, Page L, Plewa MJ. Antimicrobial egg cleaning by the fringed darter (Paciforms: Peridae: Etheostoma crossosterum): Implication of a novel component of parental care in fishes. Proc R Soc London Ser B. 2003;270:2405–11.CrossRefGoogle Scholar
  160. Kobert R. Lehrbuch der intoxikationen. Stuttgart: Ferdinand Enke; 1893. 816 p.Google Scholar
  161. Kobert R. Compendium der praktischen toxikologie. Stuttgart: F. Rnke; 1894. p. 90–3.Google Scholar
  162. Kobert R. Ueber giftfische und fischgifte. Med Woche. 1902; 19:199–201; 20:209–12; 21:21–225.Google Scholar
  163. Kochiyama Y, Yamaguchi K, Hashimoto K, Matsuura F. Studies on a blue-green serum pigment of eel-I. Isolation and some physico-chemical properties. Nippon Suisan Gakkai Shi. 1966;32:867–72.CrossRefGoogle Scholar
  164. Kodama M, Ogata T, Sato S. External secretion of tetrodotoxin from puffer fishes stimulated by electric shock. Mar Biol. 1985;87:199–202.CrossRefGoogle Scholar
  165. Kopaczewski W. Recherches sur le sèrum de la murène (Murraena Helena L.). I. La toxicitè du serum de murène. Compt Rend Acad Sci. 1917;164:963–74.Google Scholar
  166. Kourie JI. A component of platypus (Ornithorhyncus anatinus) venom forms slow-kinetic cation channels. J Membr Biol. 1999;172:37–45.CrossRefGoogle Scholar
  167. Kuiter RH, Tonozuka T. Pictorial guide to Indonesian reef fishes. Part 1. Eels- Snappers, Muraenidae – Lutjanidae. Seaford: Zoonetics; 2001. p. 1–302.Google Scholar
  168. Kyne PM, White WT. Taeniurops meyeni. The IUCN red list of threatened species 2015: e.T60162A68646736. 2015.  http://dx.doi.org/10.2305/IUCN.UK.2015-4.RLTS.T60162A68646736.en. Downloaded on 2 Aug 2016.
  169. Kyne PM, Ishihara H, Dudley SFJ, White WT. Aetobatus narinari. The IUCN red list of threatened species 2006: e.T39415A10231645. 2006.  http://dx.doi.org/10.2305/IUCN.UK.2006.RLTS.T39415A10231645.en. Downloaded on 26 Aug 2016.
  170. Lacépède C. Histoire naturelle des poissons. 4. Chez P&an, Imp&em-Libraire, Paris; 1802. 728 p.Google Scholar
  171. Lam TJ. Siganids: their biology and mariculture potential. Aquaculture. 1974;3:325–54.CrossRefGoogle Scholar
  172. Lane ED. A study of the Atlantic midshipmen, Porichthys porosissimus, in the vicinity of Port Aransas, Texas. Contrib Mar Sci. 1967;12:1–53.Google Scholar
  173. Larson E, Lalone RG, Rivas LR. Comparative toxicity of the Atlantic puffer fishes of the genera Spheroides, Lactophrys, Lagocephalus and Chilomycterus. Fed Proc. 1960;19:388.Google Scholar
  174. Last PR, Compagno LJV. Dasyatididae. Stingrays. In: Carpenter KE, Niem VH, editors. FAO species identification guide for fishery purposes. The living marine resources of the Western Central Pacific, Batoid fishes, chimaeras and bony fishes part 1 (Elopidae to Linophrynidae), vol. 3. FAO: Rome; 1999. p. 1479–505.Google Scholar
  175. Last PR, Stevens JD. Sharks and rays of Australia. Australia: CSIRO; 1994. 513 p.Google Scholar
  176. Last PR, Stevens JD. Sharks and rays of Australia. 2nd ed. Collingwood: CSIRO Publishing; 2009.Google Scholar
  177. Last PR, Fahmi WT, Naylor GJP. Pastinachus stellurostris sp. nov., a new stingray (Elasmobranchii: Myliobatiformes) from Indonesian Borneo. In: Last PR, White WT, Pogonoski JJ, editors. Descriptions of new sharks and rays from Borneo, CSIRO Marine and Atmospheric Research Paper no. 32. CSIRO Marine and Atmospheric Research: Hobart; 2010a. p. 129–40.Google Scholar
  178. Last PR, White WT, Caira JN, Dharmadi F, Jensen K, Lim APK, Manjaji-Matsumoto BM, Naylor GJP, Pogonoski JJ, Stevens JD, Yearsley GK. Sharks and rays of Borneo. Collingwood: CSIRO Marine and Atmospheric Research; 2010b.Google Scholar
  179. Last PR, Manjaji-Matsumoto BM, Moore ABM. Himantura randalli sp. nov., a new whipray (Myliobatoidea: Dasyatidae) from the Persian Gulf. Zootaxa. 2012;3327:20–32.Google Scholar
  180. Lau FL. Emergency management of poisoning in Hong Kong. Hong Kong Med J. 2000;6:288–92.Google Scholar
  181. Lehmann DF, Hardy JC. Stonefish envenomation. New Engl J Med. 1993;329(7):510–1.CrossRefGoogle Scholar
  182. Liefmann I, Andrew A. Über das hämolysine des aalserums. Z Immunol. 1911;11:707–10.Google Scholar
  183. Lieske E, Myers R. Collins pocket guide. Coral reef fishes. Indo-Pacific & Caribbean including the Red Sea. Haper Collins Publishers; 1994. 400 p.Google Scholar
  184. Linstow OV. Die giftthiere und ihre wirkung auf den menschen. Berlin: August Hirschwald; 1894. 147 p.Google Scholar
  185. Lopes-Ferreira M, Moura-da-Silva AM, Mota I, Takehara HA. Neutralization of Thalassophryne nattereri (niquim) fish venom by an experimental antivenom. Toxicon. 2000;38(8):1149–56.CrossRefGoogle Scholar
  186. Lopes-Ferreira M, Emim JA, Oliveira V, Puzer L, Cezari MH, Araújo M, Juliano L, Lapa AJ, Souccar C, Moura-da-Silva AM. Sex-based individual variation of snake venom proteome among eighteen Bothrops jararaca siblings. Biochem Pharmacol. 2004;68:2151–7.CrossRefGoogle Scholar
  187. Lopes-Ferreira M, Magalhães GS, Fernandez JH, Junqueira-de-Azevedo Ide L, Lee Ho P, Lima C, Valente RH, Moura-da-Silva AM. Structural and biological characterization of Nattectin, a new C-type lectin from the venomous fish. Thalass nattereri Biochim. 2011;93:971–80.CrossRefGoogle Scholar
  188. Lopes-Ferreira M, Ramos AD, Martins IA, Lima C, Conceição K, Haddad V. Clinical manifestations and experimental studies on the spine extract of the toadfish Porichthys porosissimus. Toxicon. 2014;86:28–39.CrossRefGoogle Scholar
  189. Low KSY, Gwee MCE, Yusen R, Gopalakrishnakone P, Khoo HE. Stonustoxin: effects on neuromuscular function in vitro and in vivo. Toxicon. 1994;32:573–81.CrossRefGoogle Scholar
  190. Maass TA. Gift-tiere. In: Junk W, editor. Tabulae biologicae, vol. 13. Zaltbommel: N.V. van de Garde and Co’s Drujjeriji; 1937. 272 p.Google Scholar
  191. Macober RD. An observation on pufferfish toxin. J Wash Acad Sci. 1956;46:85.Google Scholar
  192. Magalhães GS, Junqueira-de-Azevedo IL, Lopes-Ferreira M, Lorenzini DM, Ho PL, Moura-da-Silva AM. Transcriptome analysis of expressed sequence tags from the venom glands of the fish Thalassophryne nattereri. Biochimie. 2006;88:693–9.CrossRefGoogle Scholar
  193. Mahmud Y, Yamamori K, Noguchi T. Occurrence of TTX in a brackish water puffer “midorifugu” Tetraodon nigroviridis, collected from Thailand. J Food Hyg Soc Japan. 1999a;40:363–7.CrossRefGoogle Scholar
  194. Mahmud Y, Yamamori K, Noguchi T. Toxicity and tetrodotoxin as the toxic principle of a brackish water puffer Tetraodon steindachneri, collected from Thailand. J Food Hyg Soc Japan. 1999b;40:391–5.CrossRefGoogle Scholar
  195. Mahmud Y, Okada K, Takatani T, Kawatsu K, Hamano Y, Arakawa O, Noguchi T. Intra-tissue distribution of tetrodotoxin in two marine puffers Takifugu vermicularis and Chelonodon patoca. Toxicon. 2003a;41:13–8.CrossRefGoogle Scholar
  196. Mahmud Y, Arakawa O, Ichinose A, Tanu MB, Takatani T, Tsuruda K, Kawatsu K. Intracellular visualization of tetrodotoxin (TTX) in the skin of a puffer Tetraodon nigroviridis by immunoenzymatic technique. Toxicon. 2003b;41:605–11.CrossRefGoogle Scholar
  197. Manilo LG, Bogorodsky SV. Taxonomic composition, diversity and distribution of coastal fishes of the Arabian Sea. J Ichthyol. 2003;43(1):S75.Google Scholar
  198. Manjaji BM. Taxonomy and phylogenetic systematic of the stingray genus Himantura (Family Dasyatidae). Ph.D. in Zoology Dissertation. University of Tasmania; 2004.Google Scholar
  199. Manjaji Matsumoto BM, Fahmi, White WT. Himantura jenkinsii. The IUCN red list of threatened species 2016: e.T161744A68628371. 2016a. Downloaded on 2 Aug 2016.Google Scholar
  200. Manjaji Matsumoto BM, White WT, Fahmi, Gutteridge AN Himantura fai. The IUCN red list of threatened species 2016: e.T161615A68627443. 2016b.  http://dx.doi.org/10.2305/IUCN.UK.2016-1.RLTS.T161615A68627443.en. Downloaded on 24 Aug 2016.
  201. Manjaji Matsumoto BM, White WT, Gutteridge AN. Himantura uarnak. The IUCN red list of threatened species 2016: e.T161692A68629130. 2016c.  http://dx.doi.org/10.2305/IUCN.UK.2016-1.RLTS.T161692A68629130.en. Downloaded on 24 Aug 2016.
  202. Manjaji Matsumoto BM, Fahmi, White WT. Maculabatis gerrardi. The IUCN red list of threatened species 2016: e.T161566A104186555; 2016d.Google Scholar
  203. Mansueti R. Madtoms pack a punch. Nat Mag. 1951;44:314–6.Google Scholar
  204. Marcacci A. Sur e pouvoi toxique du sang de thon. Arch Ital Biol. 1891;16:1.Google Scholar
  205. Marshall TC. Fish of the Great Barrier Reef and coastal waters of Queensland. Sydney: Argus and Robertson; 1964.Google Scholar
  206. Martinez-Antόn A, de Bolόs C, Garrido M, Roca-Ferrer J, Barranco C, Xaubet A. Mucin genes have different expression patterns in healthy and diseased upper airway mucosa. Clin Exp Allergy. 2006;36:448–57.CrossRefGoogle Scholar
  207. Matsubara K, Ochiai A. Report on the flatfish collected by the Anami Islands Expedition in 1958. Bull Misaki Mar Biol Inst Kyoto Univ. 1963;4:83–105.Google Scholar
  208. Matsui T, Hamada S, Konosu S. Difference in accumulation of puffer fish toxin and crystalline tetrodotoxin in the puffer fish, Fugu rubripes rubripes. Bull Jpn Soc Sci Fish. 1981;47:535–7.CrossRefGoogle Scholar
  209. Matsunuma M, Jawad LA, Motomura H. New records of a scorpionfish, Parapterois macrura (Scorpaenidae: Pteroinae), from Oman and Somalia, western Arabian Sea. Biogeography. 2013;15:49–54.Google Scholar
  210. McEachran JD, Séret B. Myliobatididae. In: Quero JC, Hureau JC, Karrer C, Post A, Saldanha L, editors. Check-list of the fishes of the eastern tropical Atlantic (CLOFETA), vol. 1. Lisbon, Paris and Paris: JNICT, SEI, and UNESCO; 1990. p. 67–70.Google Scholar
  211. Michael SW. Reef sharks and rays of the world. A guide to their identification, behavior, and ecology. Monterey, CA: Sea Challengers; 1993. 107 p.Google Scholar
  212. Mohsin AKM, Ambak MA. Marine fishes and fisheries of Malaysia and neighbouring countries. Serdang: University of Pertanian Malaysia Press; 1996. 744 p.Google Scholar
  213. Mosher HS, Fuhrman FA, Buchwald HD, Fischer HG. Tarichatoxin-tetrodotoxin: a potent neurotoxin. Science. 1964;144(3622):1100–10.CrossRefGoogle Scholar
  214. Motomura H. Occurrence of Scorpaenopsis venosa (Scorpaeniformes: Scorpaenidae) on the Saya de Malha Bank, Indian Ocean. Ichthyol Res. 2004;51:188–9.CrossRefGoogle Scholar
  215. Muirhead D. Applying pain theory in fish spine envenomation. Med Soc J. 2002;32:150–3.Google Scholar
  216. Muramoto K, Kamiya H. The amino-acid sequence of a lectin from conger eel, Conger myriaster, skin mucus. Biochim Biophys Acta. 1992;1116:129–36.CrossRefGoogle Scholar
  217. Muramoto K, Kagawa D, Sato T, Ogawa T, Nishida Y, Kamiya H. Functional and structural characterization of multiple galectins from the skin mucus of conger eel, Conger myriaster. Comp Biochem Physiol B. 1999;123:33–45.CrossRefGoogle Scholar
  218. Myers RF. Micronesian reef fishes. 2nd ed. Barrigada, Guam: Coral Graphics; 1991. 298 p.Google Scholar
  219. Myers RF. Micronesian reef fishes: a comprehensive guide to the coral reef fishes of Micronesia. 3rd revised and expanded edition. Barrigada, Guam: Coral Graphics; 1999. 330 p.Google Scholar
  220. Nelson JS. Fishes of the world. 3rd ed. New York: Wiley; 1994.Google Scholar
  221. Ng HH, Sparks JS. The ariid catfishes (Teleostei: Siluriformes: Ariidae) of Madagascar, with the description of two new species. Occas Pap Mus Zool Univ Mich. 2003;735:1–21.Google Scholar
  222. Nigrelli RF. Dutchman’s baccy juice or growth-promoting and growth-inhibiting substances of marine origin. Trans N Y Acad Sci II. 1958;20:248–62.CrossRefGoogle Scholar
  223. Nigrelli RF. Antimicrobial substances from marine organisms. Introduction: the role of antibiosis in the sea. Trans N Y Acad Sci II. 1962;24:496–7.CrossRefGoogle Scholar
  224. Noguchi T, Arakawa O. Tetrodotoxin-distribution and accumulation in aquatic organisms, and cases of human intoxication. Mar Drugs. 2008;6:220–42.CrossRefGoogle Scholar
  225. Noguchi T, Jeon JK, Arakawa O, Sugita H, Deguch Y, Shida Y, et al. Occurrence of tetrodotoxin and anhydrotetrodotoxin in Vibrio sp. isolated from the intestine of a xanthid crab, Atergatis floridus. J Biochem. 1986;99:311–4.CrossRefGoogle Scholar
  226. Noguchi T, Hwang DF, Arakawa O, Sugita H, Deguchi Y, Shida Y, Hashimoto K. Vibrio alginolyticus, a tetrodotoxin-producing bacterium, in the intestines of the fish Fugu vermicularis vermicularis. Mar Biol. 1987;94:625–30.CrossRefGoogle Scholar
  227. Okamoto M, Tsutsui S, Tasumi S, Suetake S, Kikuchi K, Suzuki Y. Tandem repeat L-rhamnose-binding lectin from the skin mucus of ponyfish, Leiognathus nuchalis. Biochem Biophys Res Commun. 2005;333:463–9.CrossRefGoogle Scholar
  228. Pal R, Barenholz Y, Wagner RR. Pardaxin, a hydrophobic toxin of the Red Sea flatfish, disassembles the intact membrane of vesicular stomatitis virus. J Biol Chem. 1981;256(20):10209–12.Google Scholar
  229. Pareja‐Santos A, Saraiva TC, Costa EP, Santos MF, Zorn TT, Souza VMO, Lopes‐Ferreira M, Lima C. Delayed local inflammatory response induced by Thalassophryne nattereri venom is related to extracellular matrix degradation. Int J Exp Pathol. 2009;90(1):34–43.CrossRefGoogle Scholar
  230. Patel MR, Wells S. Lionfish envenomation of the hand. J Hand Surg Am. 1993;18:523–5.CrossRefGoogle Scholar
  231. Pauly D, Cabanban A, Torres Jr FSB. Fishery biology of 40 trawl-caught teleosts of western Indonesia. In: Pauly D, Martosubroto P, editors. Baseline studies of biodiversity: the fish resource of western Indonesia. ICLARM studies and reviews 23. Jakarta, Eschborn and Manila: Directorate General of Fisheries, German Agency for Technical Cooperation, International Center for Living Aquatic Resources Management; 1996. p. 135–216.Google Scholar
  232. Pawlak M, Stankowski S, Schwarz G. Mellitin induced voltage dependent conductance in DOPC lipid bilayers. Biochim Biophys Acta. 1991;1062:94–102.CrossRefGoogle Scholar
  233. Pawlowsky EN. Microscopic structure of he poison glands of Scorpaena porcus and Trachinus draco. (In Russian). Trav Soc Imp Nat St Petersburg. 1906;37:316–37.Google Scholar
  234. Pawlowsky EN. Sur la structure des glands à venin de certains poissons et en particulier de celles de Plotosus. Compt Rènd Soc Biol. 1913;74:1033–6.Google Scholar
  235. Pawlowsky EN. Gifttiere und ihre giftigkeit. Jena: G. Fischer; 1927. 515 p.Google Scholar
  236. Pawlowsky EN. Pisons and poison-producing organs in the animal kingdom (In Russian). Russ J Trop Med. 1929;7:4–11.Google Scholar
  237. Pearson TH, Rosenberg R. Macrobenthic succession in relation to organic enrichment and pollution of the marine environment. Oceanogr Mar Biol Ann Rev. 1978;16:229–311.Google Scholar
  238. Pellegrin J. Les poissons vénéneux. M.D. Thèse 510. Paris: Fac Méd; 1889.Google Scholar
  239. Phisalix C. Propriétés immunisantes du serum d’anguille contre le venin de vipère. Compt Rend Soc Biol. 1896;3:1128–30.Google Scholar
  240. Pietsch TW. Phylogenetic relationships of trachinoid fishes of the family Uranoscopidae. Copeia. 1989;1989(2):253–303.CrossRefGoogle Scholar
  241. Poh CH, Yuen R, Khoo HE, Chung MCM, Gwee MCE, Gopalakrishnakone P. Purification and partial characterization of Stonustoxin (lethal factor) from Synanceja horrida venom. Comp Biochem Physiol. 1991;99:793–8.Google Scholar
  242. Pöllot W, Rahlson S. Über allblutconjunctivitis. Graefes Arch Ophthalmol. 1911;78:183–94.CrossRefGoogle Scholar
  243. Poss S. Minous dempsterae. The IUCN red list of threatened species 2010: e.T155000A4690046. 2010.  http://dx.doi.org/10.2305/IUCN.UK.2010-4.RLTS.T155000A4690046.en. Downloaded on 27 Aug 2016.
  244. Poss SG, Rama Rao KV. Scorpaenidae. In: Fischer W, Bianchi G, editors. FAO species identification sheets for fishery purposes, Western Indian Ocean (Fishing Area 51), vol. 4. Rome: FAO; 1984. pag. var.Google Scholar
  245. Pratt HL Jr, Carrier JC. A review of elasmobranch reproductive behavior with a case study on the nurse, Ginglymostoma cirratum. Environ Biol Fishes. 2001;60(1/3):157–88.CrossRefGoogle Scholar
  246. Primor N, Zlotkin E. On the ichthyotoxic and hemolytic action of the skin secretion of the flatfish Pardachirus marmoratus (Soleidae). Toxicon. 1975;13:227–31.CrossRefGoogle Scholar
  247. Primor N, Parness J, Zlotkin E. Pardaxin: the toxic factor from the skin secretion of the flatfish Pardachirus marmoratus (Soleidae). In: Rosenberg P, editor. The toxins: animal, plant and microbial. 1978. pp. 539–547.Google Scholar
  248. Primor N, Sabnay I, Lavie V, Zlotkin E. Toxicity to fish, effect on gill ATPase and gill ultrastructural changes induced by Pardachirus secretion and its derived toxin pardaxin. J Exp Zool. 1980;211(1):33–43.CrossRefGoogle Scholar
  249. Prithiviraj N, Annadurai D. An in vitro antimicrobial activity and bioactivities of protein Isolated from Rabbit fish – Siganus javus. Int J Adv Res Biol Sci. 2014;1:146–57.Google Scholar
  250. Rainboth WJ. Fishes of the Cambodian Mekong. FAO species identification field guide for fishery purposes. Rome: FAO; 1996. 265 p.Google Scholar
  251. Ralls R, Halstead BW. Moray eel poisoning and a preliminary report on the action of the toxin. Am J Trop Med Hyg. 1955;4:136–40.CrossRefGoogle Scholar
  252. Ramos AD, Conceição K, Silva PI, Richardson M, Lima C, Lopes-Ferreira M. Specialization of the sting venom and skin mucus of Cathorops spixii reveals functional diversification of the toxins. Toxicon. 2012;59(6):651–65.CrossRefGoogle Scholar
  253. Randall JE. Coastal fishes of Oman. Honolulu, HI: University of Hawaii Press; 1995. 439 p.Google Scholar
  254. Randall JE. Randall’s tank photos. Collection of 10,000 large-format photos (slides) of dead fishes. 1997. Unpublished.Google Scholar
  255. Randall JE, Cea A. Shore fishes of Easter Island: University of Hawai’i Press; 2011. 164 p.Google Scholar
  256. Randall JE, Allen GR, Steenae RC. Fishes of the Great Barrier Reef and Coral Sea. Honolu, HI: University of Hawaii press; 1990. 507 p.Google Scholar
  257. Randall JE, Williams JT, Smith DG, Kulbicki M, Tham GM, Labrosse P, Kronen M, Clua E, Mann BS. Checklist of the shore and epipelagic fishes of Tonga. Atoll Res Bull. 2003;502.Google Scholar
  258. Ravi V. Report on the rare distribution of leopard whip ray, Himantura undulate (Bleeker, 1852) from Nagapattinam, Tamil Nadu Coast. Geobios. 2006;33:219–20.Google Scholar
  259. Ravi V. Stingray and electric ray (Chondrichthyes: Rajiformes) diversity along Parangipettai and Nagaipattinam coasts. Tamilnadu J Aquat Biol. 2007;22(1):55–8.Google Scholar
  260. Reed JG. Food. In: Pryor JC, editor. Naval hygiene. Philadelphia, PA: P. Blackiston’s Son and co.; 1900a. p. 153–5.Google Scholar
  261. Reed JG. Marine animal life dangerous to man. In: Pryor JC, editor. Naval hygiene. Philadelphia, PA: P. Blackiston’s Son and co.; 1900b. p. 309–18.Google Scholar
  262. Reed JG. Notes on the poison organs in fishes. Science. 1906;24:293.CrossRefGoogle Scholar
  263. Reed JG. The poison glands of Noturus and Schilbeodes. Am Nat. 1907;41:553–66.CrossRefGoogle Scholar
  264. Reed JG, Lloyd TJ. The nature of the spines in catfishes. Trans Amer Fish Soc. 1916;45:202–5.CrossRefGoogle Scholar
  265. Riede K. Global register of migratory species – from global to regional scales. Final report of the R&D-Projekt 808 05 081. Bonn: Federal Agency for Nature Conservation; 2004. 329 p.Google Scholar
  266. Robins CR, Ray GC. A field guide to Atlantic coast fishes of North America. Boston, MA: Houghton Mifflin Company; 1986. 354 p.Google Scholar
  267. Robins CR, Bailey RM, Bond CE, Brooker JR, Lachner EA, Lea RN, Scott WB. World fishes important to North Americans. Exclusive of species from the continental waters of the United States and Canada. American Fisheries Society, Special publication, no 21. Bethesda, MD: American Fisheries Society; 1991. 243 p.Google Scholar
  268. Rocca E, Ghiretti F. A toxic protein from eel serum. Toxicon. 1964;2(1):79–80.CrossRefGoogle Scholar
  269. Rosen N. Studies on the plectognaths. The integument. Arkiv Zool Stockholm. 1913a;8:1–29.Google Scholar
  270. Rosen N. Studies on plectognaths. The body muscles. Arkiv Zool Stockholm. 1913b;8:1–14.Google Scholar
  271. Roth BJ, Geller SM. Deep soft-tissue necrosis of the foot and ankle caused by catfish envenomation: a case report. J Am Podiatr Med Assoc. 2010;100:493–6.CrossRefGoogle Scholar
  272. Russell F. Studies on the mechanism of death from stingray venom: a report of two fatal cases. Am J Med Sci. 1958;235:566–84.CrossRefGoogle Scholar
  273. Russell FE. Marine foams and venomous and poisonous marine animals. In: Advancxs to marine biology, vol. 3. London: Academic Press; 1965. p. 235.Google Scholar
  274. Russell FE. The venomous and poisonous marine invertebrates of the Indian Ocean. Enfield, NH: Science Publishers Inc.; 1996. p. 1–14.Google Scholar
  275. Russell BC, Houston W. Offshore fishes of the Arafura Sea. Beagle. 1989;6(1):69–84.Google Scholar
  276. Saito T, Noguchi T, Harada T, Murata O, Hashimoto K. Tetrodotoxin as a biological defense agent for puffers. Bull Jpn Soc Sci Fish. 1985a;51:1175–80.CrossRefGoogle Scholar
  277. Saminathan R, Babuji S, Sethupathy S, Viswanathan P, Balasubaramanian T, Gopalakrishanakone P. Clinico-toxinological characterization of the acute effects of the venom of the marine snail, Conus loroisii. Acta Trop. 2006;97:75–87.CrossRefGoogle Scholar
  278. Saunders PR, Taylor PB. Venom of the lionfish Pterois volitans. Am J Physiol. 1959;197:437–40.Google Scholar
  279. Schwartz FJ. Tail spine characteristics of stingrays (order Myliobatiformes) found in the Northeast Atlantic, Mediterranean, and Black seas. Electron J Ichthyol. 2005;1(1):1–9.Google Scholar
  280. Selby J. Steve Irwin’s final words: cameraman present at death opens up about deadly stingray attack for the first time. The Independent; 10 Mar 2014. Retrieved 31 Jul 2016.Google Scholar
  281. Shilo M, Rosenberger RF. Studies on the toxic principles formed by the Chrysomonad pryminesium parvum Carter. Ann N Y Acad Sci. 1960;90(3):866–76.CrossRefGoogle Scholar
  282. Simidu U, Noguchi T, Hwang DF, Shida Y, Hashimoto K. Marine bacteria which produce tetrodotoxin. Appl Environ Microbiol. 1987;53:1714–5.Google Scholar
  283. Singletary EM, Rochman AS, Bodmer JCA, Holstege CP. Envenomations. Med Clin North Am. 2005;89:1195–224.CrossRefGoogle Scholar
  284. Sire JY. Development and fine structure of the bony scutes in Corydoras arcuatus (Siluriformes, Callichthyidae). J Morphol. 1993;215(3):225–44.CrossRefGoogle Scholar
  285. Sivan G, Venketasvaran K, Radhakrishnan CK. Characterization of biological activity of Scatophagus argus venom. Toxicon. 2010;56:914–25.CrossRefGoogle Scholar
  286. Smith CL. National Audubon Society field guide to tropical marine fishes of the Caribbean, the Gulf of Mexico, Florida, the Bahamas, and Bermuda. New York: Alfred A. Knopf; 1997. 720 p.Google Scholar
  287. Smith JLB, Smith MM. The fishes of Seychelles. Grahamstown: Rhodes University; 1963. 215 p.Google Scholar
  288. Smith-Vaniz WF, Satapoomin U, Allen GR. Meiacanthus urostigma, a new fangblenny from the northeastern Indian Ocean, with discussion and examples of mimicry in species of Meiacanthus (Teleostei: Blenniidae: Nemophini). Aqua J Ichthyol Aquat Biol. 2001;5:25–43.Google Scholar
  289. Sommer C, Schneider W, Poutiers J-M. FAO species identification field guide for fishery purposes. The living marine resources of Somalia. Rome: FAO; 1996. 376 p.Google Scholar
  290. Sosa-Rosales J.I., D’Suze G., Salazar V., Fox J., Sevcik. (2005) Purification of a myotoxin from the toadfish Thalassophryne maculosa (Gùnter) venom. Toxicon 45, 147–153.Google Scholar
  291. Spanier E. Dangerous marine organisms in the coastal waters. In: Nezer Y, Epstein Y, editors. The way out, the skill to survive. Tel Aviv: Israel Ministry of Defense Publishing Office; 1987. p. 235–74. (Hebrew).Google Scholar
  292. Sprinfield A. Über die giftige wirkung des blutserums des gemeinen fluss-aals, Anguilla vulgaris. Thesis. Greiswald; 1889. 35 p.Google Scholar
  293. Stehmann M. Myliobatidae. In: Fischer W, Bianchi G, Scott WB, editors. FAO species identification sheets for fishery purposes, Eastern Central Atlantic [fishing areas 34, 47 (in part)], vol. 5. Rome: FAO; 1981.Google Scholar
  294. Steindorff E. Experimentelle untersuchungen über die wirkung des aalserums auf das menschiche und tierische auge. Graefes Arch Ophthalmol. 1914;88:158–83.CrossRefGoogle Scholar
  295. Sutherland SK. Genus Synanceia (Linnaeus), stonefishes: S. verrucosa (Bloch & Schneider) & S. trachynis (Richardson). In: Sutherland SK, editor. Australian animal toxins, the creatures, their venoms and care of the poisoned patient. Melbourne: Oxford University Press; 1983. p. 400–10.Google Scholar
  296. Tang Y. Beitrag zur kenntnis der morphologie des giftapparates bei den japanischen fischen, nebst bemerkungen über dessen giftigkeit. II Uber den giftapparatbei Pterois lunulata Temminck et Sclegel. Yokohama Med Bull. 1953;4:178–84.Google Scholar
  297. Tang Y. Beitrag zur kenntnis der morphologie des giftapparates bei den japanischen fischen, nebst bemerkungen über dessen giftigkeit. V. Uber den giftapparatbei Hypodytes rubipinnis (Temminck et Sclegel). Yokohama Med Bull. 1954;5:42–8.Google Scholar
  298. Tange Y. Beitrag zur Kenntnis der Morphologie des Giftapparates bei den japanischen Fischen. XII. Über den Giftapparat bei Xesurus scalprum (Cuvier et Valenciennes). Yokohama Med Bull. 1955;6:171–8.Google Scholar
  299. Tani, I. Toxicological studies on Japanese puffers (In Japanese). Teikoku Tosho Kabushiki Kaisha. 1945;2(3.):103 p.Google Scholar
  300. Tanu MB, Mahmud Y, Takatani T, Kawatsu K, Hamano Y, Arakawa O, Noguchi T. Localization of tetrodotoxin in the skin of a brackish water puffer Tetraodon steindachneri based on immunohistological study. Toxicon. 2002;40:103–6.CrossRefGoogle Scholar
  301. Tartar D, Limova M, North J. Clinical and histopathologic findings in cutaneous stingray wounds: a case report. Dermatol Online J. 2013;19(8):19261.Google Scholar
  302. Tasumi S, Ohira T, Kawazoe I, Suetake H, Suzuki Y, Aida K. Primary structure and characteristics of a lectin from skin mucus of the Japanese eel Anguilla japonica. J Biol Chem. 2002;277:27305–11.CrossRefGoogle Scholar
  303. Tasumi S, Yang WJ, Usami T, Tsutsui S, Ohira T, Kawazoe I, Wilder MN, Aida K, Suzuki Y. Characteristics and primary structure of a galectin in the skin mucus of the Japanese eel, Anguilla japonica. Dev Comp Immunol. 2004;28:325–35.CrossRefGoogle Scholar
  304. Tay TKW, Chan HZ, Ahmad TST, Teh KK, Low TH, Ab Wahab N. Stonefish envenomation of hand with impending compartment syndrome. J Occup Med Toxicol. 2016;11(1):23.CrossRefGoogle Scholar
  305. Taylor WR. Ariidae. In: Smith MM, Heemstra PC, editors. Smiths’ sea fishes. Berlin: Springer; 1986. p. 211–3.Google Scholar
  306. Teixeira CFP, Chaves F, Zamunér SR, et al. Effects of neutrophil depletion in the local pathological alterations and muscle regeneration in mice injected with Bothrops jararaca snake venom. Int J Exp Pathol. 2003;86:107–15.CrossRefGoogle Scholar
  307. The Age (Australia). Croc Hunter Irwin killed by stingray . The Age (Australia); 4 Sept 2006. Retrieved 31 Jul 2016.
  308. The Daily Telegraph (UK). Crocodile Hunter's final stunt with sea snake. The Daily Telegraph (UK); 30 Dec 2006. Retrieved 31 Jul 2016.Google Scholar
  309. The Sydney Morning Herald. Farewell to a larrikin adventurer, killed in his prime . The Sydney Morning Herald; 5 Sept 2006.
  310. Thomson DA. A histological study and bioassay of the toxic stress secretion of the boxfish, Ostracion lentiginous. Ph.D. Thesis. Hawaii University; 1963. 194 p.Google Scholar
  311. Thomson DA. Ostracitoxin: an ichthyotoxic stress secretion of the boxfish, Ostracion lentiginosus. Science. 1964;146(3641):244–5.CrossRefGoogle Scholar
  312. Toyoshima T. Serological study of toxin of the fish Plotosus anguillaris Lacépède. (In Japanese). J Japan Protoz Soc. 1918;6:45–270.Google Scholar
  313. Trickett R, Whitaker IS, Boyce DE. Sting-ray injuries to the hand: case report, literature review and a suggested algorithm for management. J Plast Reconstr Aesthet Surg. 2009;62:270–3.CrossRefGoogle Scholar
  314. Tsuruda K, Arakawa O, Kawatsu K, Hamano Y, Takatani T, Noguchi T. Secretory glands of tetrodotoxin in the skin of a Japanese newt Cynops pyrrhogaster. Toxicon. 2002;40:131–6.CrossRefGoogle Scholar
  315. Tsutsui S, Tasumi S, Suetake H, Suzuki Y. Lectins homologous to those of monocotyledonous plants in the skin mucus and intestine of pufferfish, Fugu rubripes. J Biol Chem. 2003;278:20882–9.CrossRefGoogle Scholar
  316. Tsutsui S, Iwamoto K, Nakamura O, Watanabe T. Yeast-binding C-type lectin with opsonic activity from conger eel (Conger myriaster) skin mucus. Mol Immunol. 2007;44:691–702.CrossRefGoogle Scholar
  317. Tsutsui S, Yamaguchi M, Hirasawa A, Nakamura O, Watanabe T. Common skate (Raja kenojei) secretes pentraxin into the cutaneous secretion: the first skin mucus lectin in cartilaginous fish. J Biochem. 2009;146:295–306.CrossRefGoogle Scholar
  318. Turan C, Ergüden D, Gürlek M, Yağlıoğlu D, Uyan A, Uygur N. First record of the Indo-Pacific lionfish Pterois miles (Bennett, 1828) (Osteichthyes: Scorpaenidae) for the Turkish marine waters. J Black Sea Mediterr Environ. 2014;20(2):158–63.Google Scholar
  319. Uchida S, Toda M, Kamei Y. Reproduction of elasmobranchs in captivity. In: Pratt Jr HL, Gruber SH, Taniuchi T, editors. Elasmobranchs as living resources: advances in biology, ecology, systematics and status of the fisheries. NOAA Technical Report NMFS 90. Seattle, WA: U.S. Dept. of Commerce, NOAA, National Marine Fisheries Service; 1990. p. 211–37.Google Scholar
  320. Uthayakumar V, Ramasubramanian V, Senthilkumar D, Priyadarisini VB, Harikrishnan R. Biochemical characterization, antimicrobial and hemolytic studies on skin mucus of fresh water spiny eel Mastacembelus armatus. Asian Pac J Trop Biomed. 2012;2(2):S863–9.CrossRefGoogle Scholar
  321. Valinassab T, Daryanabard R, Dehghani R, Pierce GJ. Abundance of demesal fish resources in the Persian Gulf and Oman Sea. J Mar Biol Assoc UK. 2006;86:1455–62.CrossRefGoogle Scholar
  322. Vanscoy T, Lundberg JG, Luckenbill KR. Bony ornamentation of the catfish pectoral-fin spine: comparative and developmental anatomy, with an example of fin-spine diversity using the Tribe Brachyplatystomini (Siluriformes, Pimelodidae). Proc Acad Nat Sci Phila. 2015;164(1):177–212.CrossRefGoogle Scholar
  323. Vaudo JJ, Heithaus MR. Spatiotemporal variability in a sandflat elasmobranch fauna in Shark Bay, Australia. Mar Biol. 2009;156:2579–90.CrossRefGoogle Scholar
  324. Vaudo JJ, Heithaus MR. Diel and seasonal variation in the use of a nearshore sandflat by a ray community in a near pristine system. Mar Freshw Res. 2012;63:1077–84.CrossRefGoogle Scholar
  325. Vetrano SJ, Lebowitz JB, Marcus S. Lionfish envenomation. J Emerg Med. 2002;23:379–82.CrossRefGoogle Scholar
  326. Villarroel F, Bastías A, Casado A, Amthauer R, Concha MI. Apolipoprotein A-I, an antimicrobial protein in Oncorhynchus mykiss: evaluation of its expression in primary defense barriers and plasma levels in sick and healthy fish. Fish Shellfish Immunol. 2007;23:197–209.CrossRefGoogle Scholar
  327. Walker HJ Jr, Rosenblatt RH. Pacific toadfishes of the genus Porichthys (Batrachoididae) with description of three new species. Copeia. 1988;4:887–904.CrossRefGoogle Scholar
  328. Wallace LB. The structure and development of the axillary gland of Batrachus. J Morphol. 1893;8(3):563–8.CrossRefGoogle Scholar
  329. White WT. Aetobatus flagellum. The IUCN red list of threatened species 2006: e.T60119A12306888. 2006.  http://dx.doi.org/10.2305/IUCN.UK.2006.RLTS.T60119A12306888.en. Downloaded on 26 Aug 2016.
  330. White WT, Dharmadi. Species and size compositions and reproductive biology of rays (Chondrichthyes, Batoidea) caught in target and non-target fisheries in eastern Indonesia. J Fish Biol. 2007;70:1809–37.CrossRefGoogle Scholar
  331. White WT, Last PR, Stevens JD, Yearsley GK, Fahmi, Dharmadi. Economically important sharks and rays of Indonesia. Canberra: Australian Centre for International Agricultural Research; 2006.Google Scholar
  332. White WT, Last PR, Naylor GJP, Jensen K, Caira JN. Clarification of Aetobatus ocellatus (Kuhl, 1823) as a valid species, and a comparison with Aetobatus narinari (Euphrasen, 1790) (Rajiformes: Myliobatidae). In: Last PR, White WT, Pogonoski JJ, editors. Descriptions of new sharks and rays from Borneo. CSIRO Marine and Atmospheric Research Paper no. 32. Hobart: CSIRO Marine & Atmospheric Research; 2010. p. 141–64.Google Scholar
  333. Whyte SK. The innate immune response of finfish – a review of current knowledge. Fish Shellfish Immunol. 2007;23:1127–51.CrossRefGoogle Scholar
  334. Wiener S. Observations on the venom of the stone fish (Synanceja trachynis). Med J Aust. 1959;1(19):620–7.Google Scholar
  335. Wikipedia. 2016. https://en.wikipedia.org/wiki/Steve_Irwin. Retrieved 31 Jul 2016.
  336. Woodland DJ. Zoogeography of the Siganidae (Pisces): an interpretation of distribution and richness patterns. Bull Mar Sci. 1983;3:713–7.Google Scholar
  337. Woodland DJ. Revision of the fish family Siganidae with description of two new species and comments on distribution and biology. Indo Pac Fishes. 1990;19:1–136.Google Scholar
  338. Woodland D. Siganidae. Spinefoots, rabbitfishes. In: Carpenter KE, Niem V, editors. FAO identification guide for fishery purposes. The Western Central Pacific; 1997. p. 3627–50, 837 p.Google Scholar
  339. Wright JM. Seasonal and spacial differences in the fish assemblage of the non-estuarine Sulaibikhat Bay, Kuwait. Mar Biol. 1988;100:13–20.CrossRefGoogle Scholar
  340. Wright JJ. Diversity, phylogenetic distribution, and origins of venomous catfishes. BMC Evol Biol. 2009;9(1):282.CrossRefGoogle Scholar
  341. Yasumoto T, Yasumura D, Yotsu M, Michishita T, Endo A, Kotaki Y. Bacterial production of tetrodotoxin and anhydrotetrodotoxin. Agric Biol Chem. 1986;50:793–5.Google Scholar
  342. Yoshida M, Sone S, Shiomi K. Purification and characterization of a proteinaceous toxin from the serum of Japanese eel Anguilla japonica. Protein J. 2008;27(7–8):450–4.CrossRefGoogle Scholar

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© Springer International Publishing AG 2018

Authors and Affiliations

  • Laith A. Jawad
    • 1
  1. 1.ManukauNew Zealand

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