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Box jellyfish



Box Jelly

"Cubomedusae", from Ernst Haeckel's Kunstformen der Natur, 1904
Scientific classification
Kingdom: Animalia
Phylum: Cnidaria
Class: Cubozoa
Werner, 1975
Order: Cubomedusae
Haeckel 1877
Families

see text

  Box jellyfish are water-dwelling invertebrates belonging to the class Cubozoa, named for their cube-shaped medusae. Contrary to their name, box jellyfish are not actually jellyfish at all; the Cubozoans are a separate category of animal from true jellyfish; Scyphozoans. Likewise, the species of Box Jellyfish most (in)famous among humans, Chironex fleckeri, while sometimes called simply the "Box Jellyfish", is only one species of the category which actually contains about 19 different species. The name sea wasp is also applied to some species of cubozoans, including the afterforementioned Chironex fleckeri and Carybdea alata. Box jellies can be found in Australia, the Philippines, Hawaii[1], Mauritius[2] Vietnam, and many other tropical areas.

Box Jellyfish are best known for the extremely powerful venom possessed by some of their species. The Chironex fleckeri and the Carukia barnesi (Irukandji) species are arguably the most venomous creatures in the world. Stings from such species are excrutiatingly painful, either initially or as an after-effect, and are often fatal. However not all species of Box Jellyfish are this dangerous to humans. [3]

Contents

Defense and feeding mechanisms

Box jellies use powerful venom contained in epidermic nematocysts, a structure exclusive to stinging cnidarians, to stun or kill their prey prior to ingestion, or as an instrument for defense. Their venom is the most deadly in the animal kingdom and has caused at least 5,567 recorded deaths since 1884.[3] Most often, these fatal envenomations are perpetrated by the largest species of box jelly, Chironex fleckeri, owing to its high concentration of nematocysts, though at least two deaths in Australia have been attributed to the thumbnail-sized irukandji jellyfish (Carukia barnesi).[4] Those who fall victim to Carukia barnesi suffer several severe symptoms known as Irukandji syndrome.[5]

The venom of cubozoans is very distinct from that of scyphozoans, and is used to catch prey (fish and small invertebrates) and for defense from predators. Sea turtles, however, are apparently unaffected by the sting and eat box jellies.

In the Australian summer from November to April or May, box jellyfish are abundant in the warm waters of northern Australia and drive away most swimmers. However, they generally disappear during the Australian Winter. Australian researchers have used ultrasonic tagging to learn that these creatures sleep on the ocean floor between 3 am and dawn. It is believed that they sleep to conserve energy and to avoid predators.

Vision

Some theorize box jellyfish actively hunt their prey—for effective hunting they move extremely quickly (at speeds up to 3 to 3.5 knots (1.5 to 1.8 m/s)) instead of drifting as do true jellyfish. They are known to be the only jellyfish with an active visual system, consisting of 24 eyes located on the center of each side of its bell.

The eyes occur in clusters on the four sides of the cube-like body. Sixteen are simply pits of light-sensitive pigment (eight slit-shaped eyes and eight lens-less pit eyes), but one pair in each cluster is surprisingly complex, with a sophisticated lens, retina, iris and cornea, all in an eye only 0.1 millimeters across.

The lenses on these eyes have been analyzed and could form distortion free images. Despite the perfection of the lenses, the retinas of the eyes lie closer to the lens than the optimum focal distance, resulting in a blurred image. One of these eyes in each set has an iris that contracts in bright light. Four of the eyes can only make out simple light levels.

It is not currently known how this visual information is processed by Cubozoa, as they lack a central nervous system, although they seem to have four brain-like organs.[6]

Treatment of stings

First aid

If swimming at a beach where box jellies are known to be present, a bottle of vinegar is an extremely useful addition to the first aid kit. Following a sting, vinegar should be applied for a minimum of 30 seconds.[7] Acetic acid, found in vinegar, disables the box jelly's nematocysts that have not yet discharged into the bloodstream (though it will not alleviate the pain). Vinegar may also be applied to adherent tentacles, which should then be removed immediately; this should be done with the use of a towel or glove to avoid bringing the tentacles into further contact with the skin. These tentacles will still sting if separate from the bell, or indeed if the creature is dead. Removing the tentacles without first applying vinegar may cause unfired nematocysts to come into contact with the skin and fire, resulting in a greater degree of envenomation. If no vinegar is available, however, careful removal of the tentacles by hand is recommended.[8] Vinegar has helped save dozens of lives on Australian beaches. Although commonly recommended in folklore and even some papers on sting treatment,[9] there is no scientific evidence that urine, ammonia, meat tenderizer, sodium bicarbonate, boric acid, lemon juice, or papaya will disable further stinging, and indeed these substances may even hasten the release of venom.[10] Pressure immobilization bandages, methylated spirits, or alcohol should not be used for jelly stings.[8][11] Often in severe Chironex fleckeri stings cardiac arrest occurs quickly, so Cardiopulmonary resuscitation (CPR) can be life saving and takes priority over all other treatment options (including application of vinegar). Activate the emergency medical system for immediate transport to the hospital.

Further treatment

If the effects are minor, pain may be managed with local application of ice, analgesics, and antihistamines.[12] If significant envenoming occurs, further treatment for systemic symptoms may be required. Box jellyfish (Chironex fleckeri) Antivenom is available from ambulance crews, hospitals, and medical centers close to where the box jellyfish are found. It may reduce life-threatening complications, and has been suggested for significant stings to possibly reduce scarring. However, there have been conflicting studies over the efficacy of this antivenom. Whether the antivenom has the potential to reverse the life-threatening cardiotoxicity remains uncertain. Antivenom may need to be given within minutes and possibly in large doses to reverse the symptoms of significant stings.[13] There is no antivenom for irukandji (Carukia barnesi) stings with treatment being largely supportive with analgesia being the mainstay of management.

Prevention of stings

Pantyhose, or tights, were once worn by Australian lifeguards to prevent stings. These have now been replaced by lycra stinger suits. Some popular recreational beaches erect enclosures (stinger nets) offshore to keep predators out, though smaller species such as Carukia barnesi (Irukandji Jellyfish) can still filter through the net.[14]

Survival

There have been many cases of survival of Box Jellyfish attacks, but none more documented than Ian McCormack, a young diver who was stung 5 times whilst diving one evening. He clinically died and then awakened during his autopsy.[15]

Classification

There are two families of Cubozoas, Chirodropidae and Carybdeidae, containing 19 species between them. Box Jellyfish of the Chirodropidae family, which contains the Chironex fleckeri species, are distinguished by being larger than those of Carybeidae and having numerous tentacles trailing from the corners of their bells. Carybdeidae, which contains the Irukandji species, are smaller, and only have a single tentacle trailing from each corner of their bells. A phylogenic analysis of the relationships between these two families is yet to be published.

  • Family Chirodropidae
    • Chironex fleckeri
    • Chirosoides buitendijkl
    • Chirodropus gorilla
    • Chirodropus palmatus
    • Chiropsalmus zygonema
    • Chiropsalmus quadrigatus
    • Chiropsalmus quadrumanus
  • Family Carybdeidae
    • Carukia barnesi
    • Manokia stiasnyi
    • Tripedalia binata
    • Tripedalia cystophora
    • Tamoya haplonema
    • Tamoya gargantua
    • Carybdea alata
    • Carybdea xaymacana
    • Carybdea sivicksi
    • Carybdea rastonii
    • Carybdea marsupialis
    • Carybdea aurifera

References

  1. ^ Jellyfish Predictions Waikiki, Hawai'i
  2. ^ Ian McCormack - Heaven, Hell and the Box Jellyfish
  3. ^ a b (1996) in Williamson JA, Fenner P J, Burnett JW, Rifkin J.: Venomous and poisonous marine animals: a medical and biological handbook. Surf Life Saving Australia and University of New South Wales Press Ltd. ISBN 0-86840-279-6. 
  4. ^ Fenner P, Hadok J (2002). "Fatal envenomation by jellyfish causing Irukandji syndrome". Med J Aust 177 (7): 362-3. PMID 12358578.
  5. ^ Little M, Mulcahy R (1998). "A year's experience of Irukandji envenomation in far north Queensland". Med J Aust 169 (11-12): 638-41. PMID 9887916.
  6. ^ Nilsson, D. E., et al. (2005). Advanced optics in a jellyfish eye. Nature 435 (May 12): 201-205.
  7. ^ Fenner P, Williamson J, Blenkin J (1989). "Successful use of Chironex antivenom by members of the Queensland Ambulance Transport Brigade". Med J Aust 151 (11-12): 708-10. PMID 2574410.
  8. ^ a b Hartwick R, Callanan V, Williamson J (1980). "Disarming the box-jellyfish: nematocyst inhibition in Chironex fleckeri". Med J Aust 1 (1): 15-20. PMID 6102347.
  9. ^ Zoltan T, Taylor K, Achar S (2005). "Health issues for surfers". Am Fam Physician 71 (12): 2313-7. PMID 15999868.
  10. ^ Fenner P (2000). "Marine envenomation: An update - A presentation on the current status of marine envenomation first aid and medical treatments". Emerg Med Australas 12 (4): 295-302.
  11. ^ Seymour J, Carrette T, Cullen P, Little M, Mulcahy R, Pereira P (2002). "The use of pressure immobilization bandages in the first aid management of cubozoan envenomings". Toxicon 40 (10): 1503-5. PMID 12368122.
  12. ^ Fenner P, Harrison S (2000). "Irukandji and Chironex fleckeri jellyfish envenomation in tropical Australia". Wilderness Environ Med 11 (4): 233-40. PMID 11199527.
  13. ^ Currie B (2003). "Marine antivenoms". J Toxicol Clin Toxicol 41 (3): 301-8. PMID 12807313.
  14. ^ Nagami, Pamela (2004). Bitten: True Medical Stories of Bites and Stings, St. Martin's Press, 54. ISBN 0-312-31822-7.
  15. ^ http://www.aglimpseofeternity.org/content.php?folder_id=1
 
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Box_jellyfish". A list of authors is available in Wikipedia.
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