Vulcanoctopus: Difference between revisions
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{{Short description|Species of benthic octopus}} |
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'''''Vulcanoctopus hydrothermalis''''', also known as the '''vent octopus''', is a small [[benthic]] [[octopus]] [[endemic]] to [[hydrothermal vent]]s.<ref name=deepseanews1>{{cite web |
'''''Vulcanoctopus hydrothermalis''''', also known as the '''vent octopus''', is a small [[benthic]] [[octopus]] [[endemic]] to [[hydrothermal vent]]s.<ref name=deepseanews1>{{cite web |url = http://scienceblogs.com/deepseanews/2007/04/from_the_desk_of_zelnio_vulcan.php |title = From The Desk of Zelnio: ''Vulcanoctopus hydrothermalis'' |author = CR McClain |date = 11 April 2007 |publisher = Deep Sea News |accessdate = 4 January 2012}}</ref> It is the [[monotypic|only known species]] of the [[genus]] '''''Vulcanoctopus'''''. This vent octopus is endemic to the hydrothermal vent habitat that is located in the East Pacific Rise.<ref name=":0" /> |
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|url = http://scienceblogs.com/deepseanews/2007/04/from_the_desk_of_zelnio_vulcan.php |
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|title = From The Desk of Zelnio: Vulcanoctopus hydrothermalis |
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|author = CR McClain |
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|date = 11 April 2007 |
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|publisher = Deep Sea News |
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|accessdate = 4 January 2012 |
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}}</ref> Notably, It is the [[monotypic|only known species]] of the [[genus]] '''''Vulcanoctopus'''''. This vent octopus is endemic to the hydrothermal vent habitat that is located in the East Pacific Rise.<ref name=":0" /> |
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''V. hydrothermalis'' has evolved unique adaptations to accommodate for the distinct circumstances of this very dynamic habitat. In particular, they are characterized as having double rows of suckers on each arm.<ref name=":2" /> ''V. hydrothermalis'' has been shown to exhibit feeding that relies the coordination of their arms to entrap their prey. <ref name=":1" /> In terms of external appearance, both the female and male vent octopuses exhibit similar physical traits. Internally, the anatomy of the reproductive and digestive tract is different between female and male vent octopuses. <ref name=":3" /> |
''V. hydrothermalis'' has evolved unique adaptations to accommodate for the distinct circumstances of this very dynamic habitat. In particular, they are characterized as having double rows of suckers on each arm.<ref name=":2" /> ''V. hydrothermalis'' has been shown to exhibit feeding that relies the coordination of their arms to entrap their prey. <ref name=":1" /> In terms of external appearance, both the female and male vent octopuses exhibit similar physical traits. Internally, the anatomy of the reproductive and digestive tract is different between female and male vent octopuses. <ref name=":3" /> |
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==Habitat== |
==Habitat== |
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'' |
''Vulcanoctopus hydrothermalis'' lives along the [[East Pacific Rise]] which borders the [[Pacific Plate|Pacific]], [[Cocos Plate|Cocos]], and [[Nazca Plate]]s. The vent octopus is found near colonies of [[giant tube worm]]s,<ref name=":0">González, A. F., A. Guerra, S. Pascual and P. Briand. (1998). ''Vulcanoctopus hydrothermalis'' gen. Et sp. nov. (Mollusca, Cephalopoda): an octopod from a deep-sea hydrothermal vent site. Cah. Biol. Mar. 39: 169–184.</ref> which are located at hydrothermal vents. These environments are made very hostile as hot water rises through vents, releasing a black 'cloud,' or plume, of metal sulfides and other toxic chemicals that result in acidic conditions.<ref name=":0" /> The temperature of the hydrothermal vent in the East Pacific Rise varies from 1-10 degrees celsius depending on its surroundings of seawater or plumes and is around 2640 m deep. ''V. hydrothermalis'' are regarded as the only [[cephalopod]] endemic to this environment. The vent octopus has been observed to congregate around vents, but isolated elsewhere. <ref name=":5" /> It is because of this close proximity that ''V. hydrothermalis'' are thought to be more prone to infections by the parasite ''Genesis vocanoctopusi'', which is described further in Host-Parasite Relationships. <ref name=":1" /> |
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==Description== |
==Description== |
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The morphology of '' |
The morphology of ''Vulcanoctopus hydrothermalis'' is characterized by some unusual traits. Due to the selection pressures of the deep sea, ''V. hydrothermalis'' has adapted traits in response to these unique conditions. One such adaptation is that they do not have an [[ink sac]]. Additionally, its [[Dorsum (anatomy)|dorsal]] [[cephalopod limb|arms]] are longer than the [[ventral]] arms and feature [[biserial]] suckers. Overall, ''V. hydrothermalis'' has a mean total length of {{convert|184|mm|in|abbr=on}}.<ref name=":2">{{cite web|last=Gonzalez|first=A. F.|title=Morphological variation in males of ''Vulcanoctopus hydrothermalis'' (Mollusca, Cephalopoda)|url=http://digital.csic.es/bitstream/10261/25982/1/s22.pdf|publisher=Bulletin of marine science|author2=Guerra, A. |author3=Rocha, F. |author4=Briand, P }}</ref> |
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The first female ''V. hydrothermalis'' was discovered at the Gromit hydrothermal vent site in 2004 and captured for comparison against the male species.<ref name=":3">{{Cite journal |last=González |first=A. F. |last2=Guerra |first2=A. |last3=Pascual |first3=S. |last4=Segonzac |first4=M. |date=2008-03-25 |title=Female description of the hydrothermal vent cephalopod Vulcanoctopus hydrothermalis |url=https://www.cambridge.org/core/journals/journal-of-the-marine-biological-association-of-the-united-kingdom/article/abs/female-description-of-the-hydrothermal-vent-cephalopod-vulcanoctopus-hydrothermalis/29E6B06723627D6152FB01AC0F25FCE3 |journal=Journal of the Marine Biological Association of the United Kingdom |language=en |volume=88 |issue=2 |pages=375–379 |doi=10.1017/S0025315408000647 |issn=1469-7769|hdl=10261/26195 |hdl-access=free }}</ref> The ratio of recovered individuals is skewed towards males, indicating fewer females or spatial segregation by sex. <ref name=":5" /> The female was found to have similar external characteristics to males, but differed in its reproductive and digestive systems. <ref name=":3" /> Unlike the digestive systems of this male vent octopus, the females lacked the appearance of dark swelling. Females also lack spermathecae, which internally holds [[Spermatophore|spermatophores]].<ref name=":3" /> |
The first female ''V. hydrothermalis'' was discovered at the Gromit hydrothermal vent site in 2004 and captured for comparison against the male species.<ref name=":3">{{Cite journal |last=González |first=A. F. |last2=Guerra |first2=A. |last3=Pascual |first3=S. |last4=Segonzac |first4=M. |date=2008-03-25 |title=Female description of the hydrothermal vent cephalopod ''Vulcanoctopus hydrothermalis'' |url=https://www.cambridge.org/core/journals/journal-of-the-marine-biological-association-of-the-united-kingdom/article/abs/female-description-of-the-hydrothermal-vent-cephalopod-vulcanoctopus-hydrothermalis/29E6B06723627D6152FB01AC0F25FCE3 |journal=Journal of the Marine Biological Association of the United Kingdom |language=en |volume=88 |issue=2 |pages=375–379 |doi=10.1017/S0025315408000647 |issn=1469-7769|hdl=10261/26195 |hdl-access=free }}</ref> The ratio of recovered individuals is skewed towards males, indicating fewer females or spatial segregation by sex. <ref name=":5" /> The female was found to have similar external characteristics to males, but differed in its reproductive and digestive systems. <ref name=":3" /> Unlike the digestive systems of this male vent octopus, the females lacked the appearance of dark swelling. Females also lack spermathecae, which internally holds [[Spermatophore|spermatophores]].<ref name=":3" /> |
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==Behavior== |
==Behavior== |
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'' |
''Vulcanoctopus hydrothermalis''' primary defense mechanism against a predator is to freeze in place. The secondary defense involves pushing away from the bottom of the seafloor and then drifting back down once the threat has dissipated. ''V. hydrothermalis'' uses its front arms (I dorsal and II dorsolateral) to detect and catch prey. The back arms (III ventrolateral and IV ventral) function to support the weight of the vent octopus and move it forward. This species has not been observed to use [[jet propulsion]]. One specimen exhibited “tactile feeding,” using its dorsal arms to sense prey while crawling on the [[seabed]]. It attempted to seize a crab with arms I and II, but aborted the capture upon realizing the crab’s large size, subsequently altering its course. <ref name=":5">{{cite web |title=Behavioural observations of the cephalopod ''Vulcanoctopus hydrothermalis'' |url=http://archimer.ifremer.fr/doc/2002/publication-897.pdf |publisher=Cah. Biol. Mar. |author1=Rocha, F. |author2=Gonzalez, A. F. |author3=Segonzac, M. |author4=Guerra, A. |pages=299–302 |year=2002 |accessdate=8 October 2013}}</ref> |
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As for reproductive behavior, five mature specimens were observed displaying a reproductive patterns described as "mounting" or "mating at a distance." Three specimens were observed mounting a fourth while a fifth mated from a distance using its [[hectocotylus]]. The transparency of their skin allowed the observers to note their sexual maturity without specimens being gathered.<ref name=":5" /> |
As for reproductive behavior, five mature specimens were observed displaying a reproductive patterns described as "mounting" or "mating at a distance." Three specimens were observed mounting a fourth while a fifth mated from a distance using its [[hectocotylus]]. The transparency of their skin allowed the observers to note their sexual maturity without specimens being gathered.<ref name=":5" /> |
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==Predator- |
==Predator-prey relationships== |
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Its confirmed prey consist of the [[amphipod]] and [[crab]], which are thought to be their primary food sources.<ref name=deepseanews1 /> Analyzing the materials within '' |
Its confirmed prey consist of the [[amphipod]] and [[crab]], which are thought to be their primary food sources.<ref name=deepseanews1 /> Analyzing the materials within the digestive tracts of ''Vulcanoctopus hydrothermalis'', researchers believe that these vent octopuses engage in a foraging behavior and feed on large aggregates of amphipods.<ref name=":1" /> At 2,620 meters depth, the [[HOV Alvin]] has captured video evidence of ''V. hydrothermalis'' wrapping their arms around these [[Bathypelagic zone|bathypelagic]] amphipods. Specifically, they coordinate their arms in a starburst pattern to form a water-filled web and engulf their prey. Considering the fact that this predator-prey relationship has been predominantly observed around the hydrothermal vent site in the East Pacific Rise, researchers propose that [[sulfide]] spires located along the hydrothermal vent may serve to benefit ''V. hydrothermalis''' predatory behavior. The current hypothesis is that the spires enable the octopuses to effectively grip onto this section of the vent and gain access to the dense aggregations of their prey.<ref name=":1">{{Cite journal |last=Voight |first=Janet R. |date=2005 |title=Hydrothermal vent octopuses of ''Vulcanoctopus hydrothermalis'', feed on bathypelagic amphipods of ''Halice hesmonectes'' |url=https://www.cambridge.org/core/journals/journal-of-the-marine-biological-association-of-the-united-kingdom/article/abs/hydrothermal-vent-octopuses-of-vulcanoctopus-hydrothermalis-feed-on-bathypelagic-amphipods-of-halice-hesmonectes/D99EF5C3157D93B8B0F838596A9CED53 |journal=Journal of the Marine Biological Association of the United Kingdom |language=en |volume=85 |issue=4 |pages=985–988 |doi=10.1017/S0025315405011999 |issn=1469-7769 |via=Cambridge University Press}}</ref> |
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== Host- |
== Host-parasite relationships == |
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''Genesis vulcanoctopusi'', a [[copepod]] parasite, is described from '' |
''Genesis vulcanoctopusi'', a [[copepod]] parasite, is described from ''Vulcanoctopus hydrothermalis.'' An [[endoparasitic]] relationship is characterized by the presence of all copepodid stages, found within the connective tissue beneath the epithelium of ''V. hydrothermalis'' ' head and mantle.<ref name=":4" /> The parasitism leads to structural integrity loss in the ''V. hydrothermalis''<nowiki/>' tissue, with signs of compression, deformation, and mechanical disruption due to the copepods' presence, which causes significant cell-mediated immune response by cephalopod [[amoebocytes]].<ref name=":4">{{Cite journal |last=LÓPEZ-GONZÁLEZ |first=Pablo J. |last2=BRESCIANI |first2=José |last3=HUYS |first3=Rony |last4=GONZÁLEZ |first4=Angel F. |last5=GUERRA |first5=Angel |last6=PASCUAL |first6=Santiago |date=2000 |title=Description of ''Genesis vulcanoctopusi'' gen. et sp nov (Copepoda : Tisbidae) parasitic on a hydrothermal vent octopod and a reinterpretation of the life cycle of cholidyinid harpacticoids |url=http://hdl.handle.net/10261/26332 |journal=Cahiers de Biologie Marine |volume=41 |issue=3 |pages=241-253 |via=CSIC}}</ref> |
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== References == |
== References == |
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* [http://eol.org/pages/3100246/overview ''Vulcanoctopus hydrothermalis''] at [[Encyclopedia of Life]] (pictures) |
* [http://eol.org/pages/3100246/overview ''Vulcanoctopus hydrothermalis''] at [[Encyclopedia of Life]] (pictures) |
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{{Taxonbar| |
{{Taxonbar|from2=Q1948648|from1=Q21229929}} |
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[[Category:Enteroctopodidae]] |
[[Category:Enteroctopodidae]] |
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[[Category: |
[[Category:Taxa described in 1998]] |
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[[Category: |
[[Category:Monotypic mollusc genera]] |
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[[Category: |
[[Category:Cephalopod genera]] |
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[[Category:Molluscs described in 1998]] |
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Latest revision as of 14:58, 21 April 2024
| Vulcanoctopus | |
|---|---|
| |
Scientific classification 
| |
| Domain: | Eukaryota |
| Kingdom: | Animalia |
| Phylum: | Mollusca |
| Class: | Cephalopoda |
| Order: | Octopoda |
| Family: | Enteroctopodidae |
| Genus: | Vulcanoctopus González & Guerra, 1998 |
| Species: | V. hydrothermalis
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| Binomial name | |
| Vulcanoctopus hydrothermalis González & Guerra, 1998
| |
Vulcanoctopus hydrothermalis, also known as the vent octopus, is a small benthic octopus endemic to hydrothermal vents.[1] It is the only known species of the genus Vulcanoctopus. This vent octopus is endemic to the hydrothermal vent habitat that is located in the East Pacific Rise.[2]
V. hydrothermalis has evolved unique adaptations to accommodate for the distinct circumstances of this very dynamic habitat. In particular, they are characterized as having double rows of suckers on each arm.[3] V. hydrothermalis has been shown to exhibit feeding that relies the coordination of their arms to entrap their prey. [4] In terms of external appearance, both the female and male vent octopuses exhibit similar physical traits. Internally, the anatomy of the reproductive and digestive tract is different between female and male vent octopuses. [5]
Habitat[edit]
Vulcanoctopus hydrothermalis lives along the East Pacific Rise which borders the Pacific, Cocos, and Nazca Plates. The vent octopus is found near colonies of giant tube worms,[2] which are located at hydrothermal vents. These environments are made very hostile as hot water rises through vents, releasing a black 'cloud,' or plume, of metal sulfides and other toxic chemicals that result in acidic conditions.[2] The temperature of the hydrothermal vent in the East Pacific Rise varies from 1-10 degrees celsius depending on its surroundings of seawater or plumes and is around 2640 m deep. V. hydrothermalis are regarded as the only cephalopod endemic to this environment. The vent octopus has been observed to congregate around vents, but isolated elsewhere. [6] It is because of this close proximity that V. hydrothermalis are thought to be more prone to infections by the parasite Genesis vocanoctopusi, which is described further in Host-Parasite Relationships. [4]
Description[edit]
The morphology of Vulcanoctopus hydrothermalis is characterized by some unusual traits. Due to the selection pressures of the deep sea, V. hydrothermalis has adapted traits in response to these unique conditions. One such adaptation is that they do not have an ink sac. Additionally, its dorsal arms are longer than the ventral arms and feature biserial suckers. Overall, V. hydrothermalis has a mean total length of 184 mm (7.2 in).[3]
The first female V. hydrothermalis was discovered at the Gromit hydrothermal vent site in 2004 and captured for comparison against the male species.[5] The ratio of recovered individuals is skewed towards males, indicating fewer females or spatial segregation by sex. [6] The female was found to have similar external characteristics to males, but differed in its reproductive and digestive systems. [5] Unlike the digestive systems of this male vent octopus, the females lacked the appearance of dark swelling. Females also lack spermathecae, which internally holds spermatophores.[5]
Behavior[edit]
Vulcanoctopus hydrothermalis' primary defense mechanism against a predator is to freeze in place. The secondary defense involves pushing away from the bottom of the seafloor and then drifting back down once the threat has dissipated. V. hydrothermalis uses its front arms (I dorsal and II dorsolateral) to detect and catch prey. The back arms (III ventrolateral and IV ventral) function to support the weight of the vent octopus and move it forward. This species has not been observed to use jet propulsion. One specimen exhibited “tactile feeding,” using its dorsal arms to sense prey while crawling on the seabed. It attempted to seize a crab with arms I and II, but aborted the capture upon realizing the crab’s large size, subsequently altering its course. [6]
As for reproductive behavior, five mature specimens were observed displaying a reproductive patterns described as "mounting" or "mating at a distance." Three specimens were observed mounting a fourth while a fifth mated from a distance using its hectocotylus. The transparency of their skin allowed the observers to note their sexual maturity without specimens being gathered.[6]
Predator-prey relationships[edit]
Its confirmed prey consist of the amphipod and crab, which are thought to be their primary food sources.[1] Analyzing the materials within the digestive tracts of Vulcanoctopus hydrothermalis, researchers believe that these vent octopuses engage in a foraging behavior and feed on large aggregates of amphipods.[4] At 2,620 meters depth, the HOV Alvin has captured video evidence of V. hydrothermalis wrapping their arms around these bathypelagic amphipods. Specifically, they coordinate their arms in a starburst pattern to form a water-filled web and engulf their prey. Considering the fact that this predator-prey relationship has been predominantly observed around the hydrothermal vent site in the East Pacific Rise, researchers propose that sulfide spires located along the hydrothermal vent may serve to benefit V. hydrothermalis' predatory behavior. The current hypothesis is that the spires enable the octopuses to effectively grip onto this section of the vent and gain access to the dense aggregations of their prey.[4]
Host-parasite relationships[edit]
Genesis vulcanoctopusi, a copepod parasite, is described from Vulcanoctopus hydrothermalis. An endoparasitic relationship is characterized by the presence of all copepodid stages, found within the connective tissue beneath the epithelium of V. hydrothermalis ' head and mantle.[7] The parasitism leads to structural integrity loss in the V. hydrothermalis' tissue, with signs of compression, deformation, and mechanical disruption due to the copepods' presence, which causes significant cell-mediated immune response by cephalopod amoebocytes.[7]
References[edit]
- ^ a b CR McClain (11 April 2007). "From The Desk of Zelnio: Vulcanoctopus hydrothermalis". Deep Sea News. Retrieved 4 January 2012.
- ^ a b c González, A. F., A. Guerra, S. Pascual and P. Briand. (1998). Vulcanoctopus hydrothermalis gen. Et sp. nov. (Mollusca, Cephalopoda): an octopod from a deep-sea hydrothermal vent site. Cah. Biol. Mar. 39: 169–184.
- ^ a b Gonzalez, A. F.; Guerra, A.; Rocha, F.; Briand, P. "Morphological variation in males of Vulcanoctopus hydrothermalis (Mollusca, Cephalopoda)" (PDF). Bulletin of marine science.
- ^ a b c d Voight, Janet R. (2005). "Hydrothermal vent octopuses of Vulcanoctopus hydrothermalis, feed on bathypelagic amphipods of Halice hesmonectes". Journal of the Marine Biological Association of the United Kingdom. 85 (4): 985–988. doi:10.1017/S0025315405011999. ISSN 1469-7769 – via Cambridge University Press.
- ^ a b c d González, A. F.; Guerra, A.; Pascual, S.; Segonzac, M. (25 March 2008). "Female description of the hydrothermal vent cephalopod Vulcanoctopus hydrothermalis". Journal of the Marine Biological Association of the United Kingdom. 88 (2): 375–379. doi:10.1017/S0025315408000647. hdl:10261/26195. ISSN 1469-7769.
- ^ a b c d Rocha, F.; Gonzalez, A. F.; Segonzac, M.; Guerra, A. (2002). "Behavioural observations of the cephalopod Vulcanoctopus hydrothermalis" (PDF). Cah. Biol. Mar. pp. 299–302. Retrieved 8 October 2013.
- ^ a b LÓPEZ-GONZÁLEZ, Pablo J.; BRESCIANI, José; HUYS, Rony; GONZÁLEZ, Angel F.; GUERRA, Angel; PASCUAL, Santiago (2000). "Description of Genesis vulcanoctopusi gen. et sp nov (Copepoda : Tisbidae) parasitic on a hydrothermal vent octopod and a reinterpretation of the life cycle of cholidyinid harpacticoids". Cahiers de Biologie Marine. 41 (3): 241–253 – via CSIC.
External links[edit]
- Vulcanoctopus hydrothermalis at Encyclopedia of Life (pictures)