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{{Short description|Four species of mollusk}}
{{Taxobox
{{Use dmy dates|date=April 2024}}
| name = Blue-ringed octopuses
{{Automatic taxobox
| image = Hapalochlaena lunulata2.JPG
| name = Blue-ringed octopus
| image_width = 230px
| image_caption = ]<br>(''Hapalochlaena lunulata'') | image = Hapalochlaena lunulata2.JPG
| image_caption = ]<br />(''Hapalochlaena lunulata'')
| regnum = ]ia
| taxon = Hapalochlaena
| phylum = ]a
| authority = ], 1929<ref name="WoRMS">{{cite web |url=http://www.marinespecies.org/aphia.php?p=taxdetails&id=341430 |title=Hapalochlaena Robson, 1929 |access-date=3 February 2018 |publisher=Flanders Marine Institute |author=Finn, Julian |year=2017 |work=World Register of Marine Species}}</ref>
| classis = ]a
| type_species = ''Hapalochlaena lunulata''
| ordo = ]
| type_species_authority = ] & ], 1832
| familia = ]
| subdivision_ranks = Species
| subfamilia = ]
| subdivision = {{bulleted list|
| genus = '''''Hapalochlaena'''''
|'']'' <small>(Hoyle, 1886)</small>
| genus_authority = ], 1929
|'']'' <small>(Quoy & Gaimard, 1832)</small>
| subdivision_ranks = Species
|'']'' <small>], 1883</small>
| subdivision = See text.
|'']'' (?) <small>], 1938</small>
}}
}} }}


The '''blue-ringed octopuses''' (] '''''Hapalochlaena''''') are three (or perhaps four) ] ] that live in tide pools in the ], from ] to ]. Despite their small size and relatively docile nature, they are currently recognized as one of the world's most ]ous animals.<ref>http://animal.discovery.com/convergence/oceans-deadliest/deadliest-creatures/deadliest-creatures_05.html</ref> They are recognized by their characteristic blue and black rings and yellowish skin. '''Blue-ringed octopuses''',<!-- Do not change to "octopi", see talk page for the consensus. --> comprising the ] '''''Hapalochlaena''''', are four extremely ]ous ] of ] that are found in ]s and ]s in the ] and ] oceans, from ] to ].<ref name=tiny/> They can be identified by their yellowish skin and characteristic blue and black rings that ] when the animal is threatened. They eat small ]s, including ]s, ]s, ], and other small sea animals.


They are one of the world's most venomous marine animals.<ref>{{cite web |url=http://animal.discovery.com/convergence/oceans-deadliest/deadliest-creatures/deadliest-creatures_05.html |title=Ocean's Deadliest: The Deadliest Creatures – Greater Blue-Ringed Octopus |publisher=] |archive-url=https://web.archive.org/web/20090218092057/http://animal.discovery.com/convergence/oceans-deadliest/deadliest-creatures/deadliest-creatures_05.html |archive-date=2009-02-18 }}</ref> Despite their small size—{{convert|12|to|20|cm|in|abbr=on|0}}—and relatively docile nature, they are very dangerous if provoked when handled because their venom contains a powerful ] called ].
==Overview==
There are three confirmed species of ''Hapalochlaena'', and a fourth is still under research:
* ] (''Hapalochlaena lunulata'')
* ] or Lesser Blue-ringed Octopus (''Hapalochlaena maculosa'')
* ] (''Hapalochlaena fasciata'')
* ?'']'' - described in 1938 from a single specimen from the ]; the validity of this taxon has been questioned.


The ] tends to have a lifespan of approximately two to three years. This may vary depending on factors such as ], ], and the intensity of ] within its environment.
An individual blue-ringed octopus tends to use its dermal ] cells to camouflage itself until provoked, at which point it quickly changes color, becoming bright yellow with blue rings or lines. It hunts small ]s, hermit crabs, and shrimp, and may bite attackers, including ], if provoked or stepped on.


== Venom == == Classification ==
The genus was described by British zoologist ] in 1929.<ref>{{cite journal |last1=Robson |first1=G.C. |title=LXXIII.— Notes on the Cephalopoda .—VIII. The genera and subgenera of Octopodinæ and Bathypolypodinæ |journal=Annals and Magazine of Natural History |date=June 1929 |volume=3 |issue=18 |pages=607–608 |doi=10.1080/00222932908673017 }}</ref> There are four confirmed species of ''Hapalochlaena'', and six possible but still ] being researched:<ref name="chime" />
], ]]]
* ] (''Hapalochlaena lunulata'')
The blue-ringed octopus is the size of a ], but its venom is powerful enough to kill ]. There is no blue-ringed octopus ] available.
* ] or lesser blue-ringed octopus (''Hapalochlaena maculosa'')
* ] (''Hapalochlaena fasciata'')
* ''Hapalochlaena nierstraszi'' was documented and described in 1938 from a single specimen found in the ], with a second specimen caught and described in 2013.<ref name="chime">{{cite journal |last1=Sethi |first1=S. N. |last2=Rudramurthy |first2=N. |title=Blue ring Octopus, Hapalochlaena nierstraszi, from the Bay of Bengal along the Chennai Coast |journal=Fishing Chimes |date=2013 |volume=33 |issue=8 |pages=82–83 |url=http://eprints.cmfri.org.in/9270/ }}</ref><ref>{{cite iucn |last1=Allcock |first1=L. |last2=Taite |first2=M. |year=2018 |title=''Hapalochlaena nierstraszi'' |volume=2018 |page=e.T163395A1004594 |doi=10.2305/IUCN.UK.2018-2.RLTS.T163395A1004594.en |access-date=7 November 2022 }}</ref>


== Behavior ==
The octopus produces venom that contains ], ], ], ], ], ], ], ], ], and ]. The major neurotoxin component of blue-ringed octopus venom was originally known as ''maculotoxin'' but was later found to be identical to ],<ref>{{cite journal |author=Sheumack DD, Howden ME, Spence I, Quinn RJ |title=Maculotoxin: a neurotoxin from the venom glands of the octopus Hapalochlaena maculosa identified as tetrodotoxin |journal=Science |volume=199 |issue=4325 |pages=188–9 |year=1978 |pmid=619451|doi=10.1126/science.619451}}</ref> a neurotoxin which is also found in ] and ]s. Tetrodotoxin blocks ], causing ] ] and sometimes ] leading to ] due to a lack of oxygen. The toxin is created by ] in the ] of the octopus.<ref>{{cite web | url = http://www.thecephalopodpage.org/bluering2.php | title = What makes blue-rings so deadly? | author = Caldwell, Roy, Dr| year 1996-2000 | accessdate = 2007-03-19}}</ref>
Blue-ringed octopuses spend most of their time hiding in crevices while displaying effective camouflage patterns with their dermal ] cells. Like all octopuses, they can change shape easily, which allows them to squeeze into crevices much smaller than themselves. This, along with piling up rocks outside the entrance to its lair, helps safeguard the octopus from predators.
]
If they are provoked, they quickly change color, becoming bright yellow with each of the 50–60 rings flashing bright ] blue within a third of a second as an ] warning display. In the ] (''Hapalochlaena lunulata''), the rings contain multi-layer ] called ]. These are arranged to reflect blue–green light in a wide viewing direction. Beneath and around each ring are dark pigmented chromatophores which can be expanded within 1 second to enhance the contrast of the rings. There are no chromatophores above the ring, which is unusual for cephalopods as they typically use chromatophores to cover or spectrally modify iridescence. The fast flashes of the blue rings are achieved by using muscles which are under neural control. Under normal circumstances, each ring is hidden by contraction of muscles above the iridophores. When these relax and muscles outside the ring contract, the iridescence is exposed, thereby revealing the blue color.<ref name="Mathger2012">{{cite journal |author=Mäthger, L.M. |author2=Bell, G.R. |author3=Kuzirian, A.M. |author4=Allen, J.J. |author5=Hanlon, R.T. |name-list-style=amp |year=2012 |title=How does the blue-ringed octopus (''Hapalochlaena lunulata'') flash its blue rings? |journal=The Journal of Experimental Biology |volume=215 |issue=21 |pages=3752–3757 |doi=10.1242/jeb.076869 |pmid=23053367 |doi-access=free|bibcode=2012JExpB.215.3752M }}</ref>


Similar to other ], the blue-ringed octopus swims by expelling water from a ] in a form of ].
] treatment is pressure on the wound and ]. It is essential, if rescue breathing is required, that it be continued until the victim begins to breathe, which may be some hours. ] treatment involves respiratory assistance until the toxin is washed out of the body. The symptoms vary in severity, with children being the most at risk because of their small body size. The victim might be saved if ] starts before marked ] and ] develop. Victims who live through the first 24 hours generally go on to make a complete recovery.<ref>Lippmann, John and Bugg, Stan, "DAN S.E. Asia-Pacific Diving First Aid Manual", J.L. Publications, Australia, May 2004. ISBN 0-646-23183-9</ref>


=== Feeding ===
It is essential that immediate and full-time respiratory support be given (e.g., artificial respiration/rescue breathing) even if the victim appears not to be responding. Tetrodotoxin poisoning can result in the victim being fully aware of his surroundings but unable to breathe. Because of the paralysis that occurs they have no way of signalling for help or any way of indicating distress. Respiratory support, together with reassurance, until medical assistance arrives ensures that the victim will generally recover well.
The blue-ringed octopus feeds on fish and crustaceans. It pounces on its prey, seizing it with its arms and pulling it towards its mouth. It uses its ] to pierce through the tough crab or shrimp ], releasing its venom. The venom paralyzes the muscles required for movement, which effectively kills the prey.<ref>{{Cite web |last=Newman |first=Shane |date=2015-05-05 |title=Blue-Ringed Octopus Facts, Habitat, Life Cycle, Venom, Pictures |url=https://www.animalspot.net/blue-ringed-octopus.html |access-date=2023-08-25 |website=Animal Spot |language=en-US}}</ref>


== Reproduction ==
The blue-ringed octopus is currently one of the most dangerous known sea creatures and, despite its small size, the blue-ringed octopus carries enough venom to kill 26 adult humans within minutes.<ref>{{cite web | url = http://www.barrierreefaustralia.com/the-great-barrier-reef/blueringedoctopus.htm | title = Dangers on the Barrier Reef | accessdate = 2006-12-06}}</ref>
The mating ritual for the blue-ringed octopus begins when a male approaches a female and begins to caress her with his modified arm, the ]. A male mates with a female by grabbing her, which sometimes completely obscures the female's vision, then transferring ] packets by inserting his hectocotylus into her mantle cavity repeatedly. Mating continues until the female has had enough, and in at least one species, the female has to remove the over-enthusiastic male by force. Males will attempt copulation with members of their own species regardless of sex or size, but interactions between males are most often shorter in duration and end with the mounting octopus withdrawing the hectocotylus without packet insertion or struggle.<ref>{{cite journal |last1=Cheng |first1=M.W. |last2=Caldwell |first2=R.L. |s2cid=32899443 |year=2000 |title=Sex identification and mating in the blue-ringed octopus, ''Hapalochlaena lunulata'' |journal=Anim Behav |volume=60 |issue=1 |pages=27–33 |doi=10.1006/anbe.2000.1447 |pmid=10924200 }}</ref>


Blue-ringed octopus females lay only one clutch of about 50 eggs in their lifetimes, towards the end of fall. Eggs are laid and then incubated underneath the female's arms for about six months. During this process, the female does not eat. After the eggs hatch, the female dies, and the new offspring will reach maturity and be able to mate by the next year.
==Feeding==
Their diet typically consists of small ] and ], but they may also feed on fish if they can catch them. They pounce on their prey, paralyze them with venom and use their beaks to tear off pieces. They then suck out the flesh from the ]'s ]. In laboratory conditions they have been observed to engage in ], however this has not been recorded in the wild.{{Fact|date=May 2008}}


==Mating== === Mating behavior ===
In the ], body mass is observed to be the strongest factor that influences copulatory rates. Evidence of female preference of larger males is apparent, although no male preference of females is shown. In this species, it is suggested that males expend more effort than females to initiate copulation. Additionally, it is unlikely that males use odor cues to identify females with which to mate. Male-male mounting attempts are common in ''H. maculosa'', proposing that there is no discrimination between sex. Male blue-ringed octopus will adjust mating durations based on the female's recent mating history. Termination of copulation is not likely to happen with a female if she has not yet mated with another male. Duration length of mating is also found to be longer in these cases as well.<ref>{{cite journal |last1=Morse |first1=Peter |last2=Zenger |first2=Kyall R. |last3=McCormick |first3=Mark I. |last4=Meekan |first4=Mark G. |last5=Huffard |first5=Christine L. |title=Nocturnal mating behaviour and dynamic male investment of copulation time in the southern blue-ringed octopus, Hapalochlaena maculosa (Cephalopoda: Octopodidae) |journal=Behaviour |date=2015 |volume=152 |issue=14 |pages=1883–1910 |doi=10.1163/1568539X-00003321 |url=https://researchonline.jcu.edu.au/40900/4/40900%20Morse%20et%20al%202015%20-%20Accepted.pdf }}</ref>
A male mates with a female by grabbing her mantle, which sometimes completely obscures the female's vision, then transferring ] packets by inserting his ] into her mantle cavity over and over again. Mating continues until the female has had enough, and in at least one species the female has to remove the over-enthusiastic male by force. Males will attempt copulation with members of their own species regardless of sex or size, however interactions between males are most often shorter in duration and end with the mounting octopus withdrawing the hectocotylus without packet insertion or struggle.<ref>Cheng, M.W. & R.L. Caldwell 2000. Sex identification and mating in the blue-ringed octopus, ''Hapalochlaena lunulata''. ''Anim Behav.'' '''60'''(1): 27-33.</ref>


== Toxicity ==
Blue-ringed octopus females lay only one clutch of about fifty eggs in their lifetime towards the end of Autumn. Eggs are laid then incubated underneath the female's arms for approximately six months, and during this process she will not eat. After the eggs hatch, the female dies, and the new offspring will reach maturity and be able to mate by the next year.
The blue-ringed octopus, despite its small size, carries enough venom to kill 26 adult humans within minutes. Their bites are tiny and often painless, with many victims not realizing they have been ] until ] and ] begins.<ref>{{cite web |url=http://www.barrierreefaustralia.com/the-great-barrier-reef/blueringedoctopus.htm |title=Dangers on the Barrier Reef |access-date=2006-12-06 |archive-url=https://web.archive.org/web/20061205092145/http://www.barrierreefaustralia.com/the-great-barrier-reef/blueringedoctopus.htm |archive-date=2006-12-05 }}</ref> No blue-ringed octopus ] is available.<ref>{{Cite web |url=http://www.toxinology.com/generic_static_files/cslavh_marine.html#blue%2520ringed |title=CSL Antivenom Handbook – Jellyfish and other Marine Animals |website=Clinical Toxinology Resources |publisher=The University of Adelaide |access-date=2018-01-31}}</ref>


=== Venom ===
==References==<!-- Pacific Science (2002), vol. 56, no. 3:255–257 -->
], ]]]

The octopus produces venom containing ], ], ], ], ], ], and ]. The venom can result in ], ], ], severe and sometimes total ], ], and can lead to death within minutes if not treated. Death is usually from suffocation due to paralysis of the diaphragm.<ref>{{cite web |last1=Spencer |first1=Erin |url=https://oceanconservancy.org/blog/2017/03/13/the-blue-ringed-octopus-small-but-deadly/ |title=The Blue-Ringed Octopus: Small but Deadly |date=13 March 2017 |website=] |access-date=7 April 2024}}</ref>

The venom is produced in the posterior salivary gland of the octopus by ].<ref>{{cite web |last1=Allan |first1=Bronwyn |title=Blue ringed octopus |url=https://www.aims.gov.au/docs/projectnet/blue-ringed-octopus.html |website=] |access-date=7 April 2024}}</ref><ref>{{cite web |last1=Laidlaw |first1=Shawn |url=https://biologydictionary.net/blue-ringed-octopus/ |title=Blue Ringed Octopus - Facts and Beyond |date=2 October 2020 |website=Biology Dictionary}}</ref><ref>{{cite web |url=http://www.thecephalopodpage.org/bluering2.php |title=What makes blue-rings so deadly? |author=Caldwell, Roy |access-date=2007-03-19}}</ref> The salivary glands possess a ] ] structure and are located in the intestinal blood space.{{fact|date=November 2022}}

The major ] component of the blue-ringed octopus is a compound originally known as 'maculotoxin'; in 1978, this maculotoxin was found to be ],<ref>{{cite journal |vauthors=Sheumack DD, Howden ME, Spence I, Quinn RJ |title=Maculotoxin: a neurotoxin from the venom glands of the octopus ''Hapalochlaena maculosa'' identified as tetrodotoxin |journal=Science |volume=199 |issue=4325 |pages=188–9 |year=1978 |pmid=619451 |doi=10.1126/science.619451 |bibcode=1978Sci...199..188S }}</ref> a neurotoxin also found in ], ]s, and some ]s; the blue-ringed octopus is the first reported instance in which tetrodotoxin is used as a venom.<ref>{{cite journal |doi= 10.1016/0041-0101(94)90081-7 |author1=Daly, J.W. |author2=Gusovsky, F. |author3=Myers, C.W. |author4=Yotsuyamashita, M. |author5=Yasumoto, T. |name-list-style=amp |title=1st Occurrence of Tetrodotoxin in a Dendrobatid Frog (''Colostethus inguinalis''), with Further Reports for the Bufonid Genus ''Atelopus'' |journal=Toxicon |volume=32 |issue=3 |year=1994 |pages=279–285 |pmid=8016850|bibcode=1994Txcn...32..279D }}</ref> Tetrodotoxin blocks ]s, causing ] ] and ] within minutes of exposure. The octopus's own sodium channels are adapted to be resistant to tetrodotoxin.<ref>{{Cite journal |last1=Geffeney |first1=Shana L. |last2=Williams |first2=Becky L. |last3=Rosenthal |first3=Joshua J.C. |last4=Birk |first4=Matthew A. |last5=Felkins |first5=Justin |last6=Wisell |first6=Christine M. |last7=Curry |first7=Eveningstar R. |last8=Hanifin |first8=Charles T. |date=2019 |title=Convergent and parallel evolution in a voltage-gated sodium channel underlies TTX-resistance in the Greater Blue-ringed Octopus: Hapalochlaena lunulata |journal=Toxicon |language=en |volume=170 |pages=77–84 |doi=10.1016/j.toxicon.2019.09.013 |pmid=31550451 |s2cid=202761604 |doi-access=free|bibcode=2019Txcn..170...77G }}</ref>

Direct contact is necessary to be envenomated. Faced with danger, the octopus's first instinct is to flee. If the threat persists, the octopus will go into a defensive stance, and display its blue rings. If the octopus is cornered and touched, it may bite and envenomate its attacker.<ref name=":1"/>

Estimates of the number of recorded human fatalities caused by blue-ringed octopuses vary, ranging from seven to sixteen deaths; most scholars agree that there have been at least eleven.<ref name=rifkin>{{cite book |last1=Burnett |first1=Joseph W. |last2=Burnett |first2=Joseph |last3=Rifkin |first3=Jacqueline F. |title=Venomous and Poisonous Marine Animals: A Medical and Biological Handbook |date=1996 |publisher=UNSW Press |isbn=978-0-86840-279-6 }}{{pn|date=November 2022}}</ref>

Tetrodotoxin can be found in nearly every organ and gland of its body. Even sensitive areas such as the ], ], nephridia, and gills have been found to contain tetrodotoxin, and it has no effect on the octopus's normal functions.<ref>{{cite journal |author=Caldwell, R. |author2=Stark, Michael |author3=Williams, B. L. | year = 2012 | title = Microdistribution of tetrodotoxin in two species of blue-ringed octopuses (''Hapalochlaena lunulata'' and ''Hapalochlaena fasciata'') detected by fluorescent immunolabeling | journal = Toxicon | volume = 60 | issue = 7 | pages = 1307–1313 | doi = 10.1016/j.toxicon.2012.08.015 | pmid = 22983011 |bibcode=2012Txcn...60.1307W }}</ref> This may be possible through a unique blood transport. The mother will inject the neurotoxin (and perhaps the toxin-producing bacteria) into her eggs to make them generate their own venom before hatching.<ref>{{cite journal |author=Becky L. Williams |author2=Charles T. Hanifin |author3=Edmund D. Brodie Jr. |author4=Roy L. Caldwell | s2cid = 11624429 | year = 2011 | title = Ontogeny of Tetrodotoxin Levels in Blue-ringed octopuses: Maternal Investment and Apparent Independent Production in Offspring of ''Hapalochlaena lunulata'' | journal = Journal of Chemical Ecology | volume = 37 | issue = 1 | pages = 10–17 | doi = 10.1007/s10886-010-9901-4 | pmid = 21165679 |bibcode=2011JCEco..37...10W }}</ref>

=== Effects ===
Tetrodotoxin causes severe and often total body paralysis. Tetrodotoxin envenomation can result in victims being fully aware of their surroundings but unable to move. Because of the paralysis, they have no way of signaling for help or indicating distress. The victim remains conscious and alert in a manner similar to the effect of ] or ]. This effect is temporary and will fade over a period of hours as the tetrodotoxin is metabolized and excreted by the body.

The symptoms vary in severity, with children being the most at risk because of their small body size.

=== Treatment ===
] treatment is pressure on the wound and ] once the paralysis has disabled the victim's respiratory muscles, which often occurs within minutes of being bitten. Because the venom primarily kills through paralysis, victims are frequently saved if artificial respiration is started and maintained before marked ] and ] develop. Respiratory support until medical assistance arrives will improve the victim's chances of survival.<ref name=":0">{{Cite web |title=Blue-Ringed Octopus Bite |url=https://www.dovemed.com/diseases-conditions/blue-ringed-octopus-bite/ |website=www.dovemed.com |access-date=2019-03-18}}</ref><ref name=":1">{{Cite web |url=https://www.diversalertnetwork.org/health/hazardous-marine-life/blue-ringed-octopus |title=Blue-Ringed Octopus |website=Divers Alert Network |language=en-US |access-date=2019-03-18}}</ref> Definitive ] treatment involves placing the patient on a ] until the toxin is removed by the body.<ref name=":1" /> Victims who survive the first 24 hours usually recover completely.<ref>Lippmann, John and Bugg, Stan (2004) ''DAN S.E. Asia-Pacific Diving First Aid Manual'', J.L. Publications, Australia. {{ISBN|0-646-23183-9}}{{pn|date=November 2022}}</ref>

== Conservation ==
Currently, the blue-ringed octopus population information is listed as Least Concern according to the ].<ref>{{cite iucn |last1=Allcock |first1=L. |last2=Taite |first2=M. |author3=Allen, G. |year=2018 |title=''Hapalochlaena lunulata'' |volume=2018 |page=e.T163293A994503 |doi=10.2305/IUCN.UK.2018-2.RLTS.T163293A994503.en |access-date=7 November 2022 }}</ref> However, threats such as ], ], ], ], and human disturbance, as well as species collections for aquarium trade, may be threats to population numbers. It is possible that ''Hapalochlaena'' contributes to a variety of advantages to marine conservation. This genera of octopus provides stability of habitat biodiversity as well as expanding the balance of marine food webs. Various species of blue-ringed octopus may help control populations of ]. Additionally, future research on ] produced by the blue-ringed octopus may produce new medicinal discoveries.<ref>{{cite thesis |last1=Lambert |first1=William A. |year=2011 |title=A Review of Blue-ringed Octopus Conservation |id={{ProQuest|871101826}} |oclc=778566691 |isbn=978-1-124-64712-8 }}</ref>

== In popular culture ==
In the 1983 ] film '']'', the blue-ringed octopus is the prominent symbol of the secret order of female bandits and smugglers, appearing in an aquarium tank, on silk robes, and as a tattoo on women in the order.<ref>{{cite web |url=https://www.imdb.com/title/tt0086034/trivia |title=Octopussy (1983) |publisher=IMDb}}</ref><ref name=tiny>{{cite web |url=http://www.cbsnews.com/news/tiny-but-deadly-spike-in-blue-ringed-octopus-sightings-sparks-fear-of-invasion-in-japan/ |title=Tiny but deadly: Spike in blue-ringed octopus sightings sparks fear of invasion in Japan |author=Craft, Lucy |publisher=CBS News |date=2013-07-01 |access-date=2018-01-23}}</ref> '']'' featured a blue-ringed octopus in its "Petals to the Metal" series.<ref>{{cite web |url=http://www.maximumfun.org/adventure-zone/ep-24-petals-metal-chapter-seven |title=Ep. 24. Petals to the Metal – Chapter Seven |website=Maximum Fun|date=24 September 2015 |access-date=2016-09-19}}</ref>

== References ==
{{reflist}} {{reflist}}


==External links== == External links ==
{{commons|Category:Hapalochlaena|Blue-ringed octopus}} {{Commons category|Hapalochlaena|Blue-ringed octopus}}
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{{CephBase Genus|Hapalochlaena}}
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* {{cite journal |last1=Gibbs |first1=P.J. |last2=Greenaway |first2=P. |title=Histological structure of the posterior salivary glands in the blue ringed octopus ''Hapalochlaena maculosa'' Hoyle |journal=Toxicon |date=January 1978 |volume=16 |issue=1 |pages=59–70 |doi=10.1016/0041-0101(78)90061-2 |pmid=622727 |bibcode=1978Txcn...16...59G }}


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Latest revision as of 02:07, 30 December 2024

Four species of mollusk

Blue-ringed octopus
Greater blue-ringed octopus
(Hapalochlaena lunulata)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Mollusca
Class: Cephalopoda
Order: Octopoda
Family: Octopodidae
Genus: Hapalochlaena
Robson, 1929
Type species
Hapalochlaena lunulata
Quoy & Gaimard, 1832
Species

Blue-ringed octopuses, comprising the genus Hapalochlaena, are four extremely venomous species of octopus that are found in tide pools and coral reefs in the Pacific and Indian oceans, from Japan to Australia. They can be identified by their yellowish skin and characteristic blue and black rings that can change color dramatically when the animal is threatened. They eat small crustaceans, including crabs, hermit crabs, shrimp, and other small sea animals.

They are one of the world's most venomous marine animals. Despite their small size—12 to 20 cm (5 to 8 in)—and relatively docile nature, they are very dangerous if provoked when handled because their venom contains a powerful neurotoxin called tetrodotoxin.

The species tends to have a lifespan of approximately two to three years. This may vary depending on factors such as nutrition, temperature, and the intensity of light within its environment.

Classification

The genus was described by British zoologist Guy Coburn Robson in 1929. There are four confirmed species of Hapalochlaena, and six possible but still undescribed species being researched:

Behavior

Blue-ringed octopuses spend most of their time hiding in crevices while displaying effective camouflage patterns with their dermal chromatophore cells. Like all octopuses, they can change shape easily, which allows them to squeeze into crevices much smaller than themselves. This, along with piling up rocks outside the entrance to its lair, helps safeguard the octopus from predators.

Variable ring patterns on mantles of Hapalochlaena lunulata

If they are provoked, they quickly change color, becoming bright yellow with each of the 50–60 rings flashing bright iridescent blue within a third of a second as an aposematic warning display. In the greater blue-ringed octopus (Hapalochlaena lunulata), the rings contain multi-layer light reflectors called iridophores. These are arranged to reflect blue–green light in a wide viewing direction. Beneath and around each ring are dark pigmented chromatophores which can be expanded within 1 second to enhance the contrast of the rings. There are no chromatophores above the ring, which is unusual for cephalopods as they typically use chromatophores to cover or spectrally modify iridescence. The fast flashes of the blue rings are achieved by using muscles which are under neural control. Under normal circumstances, each ring is hidden by contraction of muscles above the iridophores. When these relax and muscles outside the ring contract, the iridescence is exposed, thereby revealing the blue color.

Similar to other Octopoda, the blue-ringed octopus swims by expelling water from a funnel in a form of jet propulsion.

Feeding

The blue-ringed octopus feeds on fish and crustaceans. It pounces on its prey, seizing it with its arms and pulling it towards its mouth. It uses its horny beak to pierce through the tough crab or shrimp exoskeleton, releasing its venom. The venom paralyzes the muscles required for movement, which effectively kills the prey.

Reproduction

The mating ritual for the blue-ringed octopus begins when a male approaches a female and begins to caress her with his modified arm, the hectocotylus. A male mates with a female by grabbing her, which sometimes completely obscures the female's vision, then transferring sperm packets by inserting his hectocotylus into her mantle cavity repeatedly. Mating continues until the female has had enough, and in at least one species, the female has to remove the over-enthusiastic male by force. Males will attempt copulation with members of their own species regardless of sex or size, but interactions between males are most often shorter in duration and end with the mounting octopus withdrawing the hectocotylus without packet insertion or struggle.

Blue-ringed octopus females lay only one clutch of about 50 eggs in their lifetimes, towards the end of fall. Eggs are laid and then incubated underneath the female's arms for about six months. During this process, the female does not eat. After the eggs hatch, the female dies, and the new offspring will reach maturity and be able to mate by the next year.

Mating behavior

In the southern blue-ringed octopus, body mass is observed to be the strongest factor that influences copulatory rates. Evidence of female preference of larger males is apparent, although no male preference of females is shown. In this species, it is suggested that males expend more effort than females to initiate copulation. Additionally, it is unlikely that males use odor cues to identify females with which to mate. Male-male mounting attempts are common in H. maculosa, proposing that there is no discrimination between sex. Male blue-ringed octopus will adjust mating durations based on the female's recent mating history. Termination of copulation is not likely to happen with a female if she has not yet mated with another male. Duration length of mating is also found to be longer in these cases as well.

Toxicity

The blue-ringed octopus, despite its small size, carries enough venom to kill 26 adult humans within minutes. Their bites are tiny and often painless, with many victims not realizing they have been envenomated until respiratory depression and paralysis begins. No blue-ringed octopus antivenom is available.

Venom

Blue-ringed octopus from New South Wales, Australia

The octopus produces venom containing tetrodotoxin, histamine, tryptamine, octopamine, taurine, acetylcholine, and dopamine. The venom can result in nausea, respiratory arrest, heart failure, severe and sometimes total paralysis, blindness, and can lead to death within minutes if not treated. Death is usually from suffocation due to paralysis of the diaphragm.

The venom is produced in the posterior salivary gland of the octopus by endosymbiotic bacteria. The salivary glands possess a tubuloacinar exocrine structure and are located in the intestinal blood space.

The major neurotoxin component of the blue-ringed octopus is a compound originally known as 'maculotoxin'; in 1978, this maculotoxin was found to be tetrodotoxin, a neurotoxin also found in pufferfish, rough-skinned newts, and some poison dart frogs; the blue-ringed octopus is the first reported instance in which tetrodotoxin is used as a venom. Tetrodotoxin blocks sodium channels, causing motor paralysis and respiratory arrest within minutes of exposure. The octopus's own sodium channels are adapted to be resistant to tetrodotoxin.

Direct contact is necessary to be envenomated. Faced with danger, the octopus's first instinct is to flee. If the threat persists, the octopus will go into a defensive stance, and display its blue rings. If the octopus is cornered and touched, it may bite and envenomate its attacker.

Estimates of the number of recorded human fatalities caused by blue-ringed octopuses vary, ranging from seven to sixteen deaths; most scholars agree that there have been at least eleven.

Tetrodotoxin can be found in nearly every organ and gland of its body. Even sensitive areas such as the Needham's sac, branchial heart, nephridia, and gills have been found to contain tetrodotoxin, and it has no effect on the octopus's normal functions. This may be possible through a unique blood transport. The mother will inject the neurotoxin (and perhaps the toxin-producing bacteria) into her eggs to make them generate their own venom before hatching.

Effects

Tetrodotoxin causes severe and often total body paralysis. Tetrodotoxin envenomation can result in victims being fully aware of their surroundings but unable to move. Because of the paralysis, they have no way of signaling for help or indicating distress. The victim remains conscious and alert in a manner similar to the effect of curare or pancuronium bromide. This effect is temporary and will fade over a period of hours as the tetrodotoxin is metabolized and excreted by the body.

The symptoms vary in severity, with children being the most at risk because of their small body size.

Treatment

First aid treatment is pressure on the wound and artificial respiration once the paralysis has disabled the victim's respiratory muscles, which often occurs within minutes of being bitten. Because the venom primarily kills through paralysis, victims are frequently saved if artificial respiration is started and maintained before marked cyanosis and hypotension develop. Respiratory support until medical assistance arrives will improve the victim's chances of survival. Definitive hospital treatment involves placing the patient on a ventilator until the toxin is removed by the body. Victims who survive the first 24 hours usually recover completely.

Conservation

Currently, the blue-ringed octopus population information is listed as Least Concern according to the International Union for the Conservation of Nature (IUCN). However, threats such as bioprospecting, habitat fragmentation, degradation, overfishing, and human disturbance, as well as species collections for aquarium trade, may be threats to population numbers. It is possible that Hapalochlaena contributes to a variety of advantages to marine conservation. This genera of octopus provides stability of habitat biodiversity as well as expanding the balance of marine food webs. Various species of blue-ringed octopus may help control populations of Asian date mussels. Additionally, future research on tetrodotoxins produced by the blue-ringed octopus may produce new medicinal discoveries.

In popular culture

In the 1983 James Bond film Octopussy, the blue-ringed octopus is the prominent symbol of the secret order of female bandits and smugglers, appearing in an aquarium tank, on silk robes, and as a tattoo on women in the order. The Adventure Zone featured a blue-ringed octopus in its "Petals to the Metal" series.

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External links

Taxon identifiers
Hapalochlaena
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