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{{short description|Japanese remotely operated underwater vehicle for deep sea exploration}}
{{short description|Japanese remotely operated underwater vehicle for deep sea exploration}}
{|{{Infobox ship begin |display title=ital}}
{|{{Infobox ship begin |display title=''Kaikō'' ROV}}
{{Infobox ship image
{{Infobox ship image
|Ship image=JAMSTEC Deep Sea ROV kaikou7000.jpg
|Ship image=JAMSTEC Deep Sea ROV kaikou7000.jpg
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|Ship country=Japan
|Ship country=Japan
|Ship flag=[[File:Flag of Japan.svg|50px]]
|Ship flag=[[File:Flag of Japan.svg|50px]]
Da oof|Ship owner=The [[Japan Agency for Marine-Earth Science and Technology]] (JAMSTEC)
|Ship owner=The [[Japan Agency for Marine-Earth Science and Technology]] (JAMSTEC)
|Ship operator=JAMSTEC
|Ship operator=JAMSTEC
vjabvpieabgvpibgivrw|Ship laid down=1991<ref name=Kyo1995/>
|Ship laid down=1991<ref name=Kyo1995/>
|Ship launched=1993<ref name=Kyo1995/>
|Ship launched=1993<ref name=Kyo1995/>
|Ship completed=1993<ref name=Kyo1995/>
|Ship completed=1993<ref name=Kyo1995/>
|Ship christened=1993<ref name=Kyo1995/>
|Ship christened=1993<ref name=Kyo1995/>|Ship maiden voyage=May 1993 to March 1995<ref name=Kyo1995/>
BFuhSBFvUOF|Ship maiden voyage=May 1993 to March 1995<ref name=Kyo1995/>
|Ship commissioned=1993<ref name=Kyo1995/>
|Ship cofunwgiohbwogbfoiharwgbmmissioned=1993<ref name=Kyo1995/>
|Ship recommissioned=
|Ship recommissioned=
|Ship decommissioned=
|Ship decommissioned=
jwqbgviqwbfiwbvhwbfiowbfvipwbipf|Ship out of service=2003
|Ship out of service=2003
|Ship renamed=
|Ship renamed=
|Ship reclassified=
|Ship reclassified=
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|Ship struck=2003
|Ship struck=2003
|Ship reinstated=
|Ship reinstated=
|Ship homeport=[[Yokosuka, Kanagawa]], [[Japan]]
|Ship homeport=[[Yokosuka]], Japan
|Ship identification=
|Ship identification=
|Ship nickname=
|Ship nickname=
|Ship fate=Lost at sea off [[Shikoku|Shikoku Island]] during [[2003 Pacific typhoon season#Typhoon Chan-hom|Typhoon Chan-Hom]], 29 May 2003<ref name=Ishibashi2008/>
|Ship fate=Lost at sea off [[Shikoku|Shikoku Island]] during [[2003 Pacific typhoon season#Typhoon Chan-hom|Typhoon Chan-Hom]], 29 May 2003<ref name=Ishibashi2008/>
|Ship status=
|Ship notes=
|Ship notes=
|Ship badge=
|Ship badge=
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|Ship tonnage=
|Ship tonnage=
|Ship displacement=10.6 tons in air<ref name=Kakuchi/>
|Ship displacement=10.6 tons in air<ref name=Kakuchi/>
|Ship tons burthen=
|Ship length=3.0 meters<ref name=Kakuchi/>
|Ship length=3.0 meters<ref name=Kakuchi/>
|Ship beam=
|Ship beam=
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}}
}}
|}
|}
{{nihongo|'''''Kaikō'''''|海溝||"Ocean Trench"}} was a [[remotely operated underwater vehicle]] (ROV) built by the [[Japan Agency for Marine-Earth Science and Technology]] (JAMSTEC) for exploration of the [[deep sea]]. ''Kaikō'' was the second of only five vessels ever to reach the bottom of the [[Challenger Deep]], as of 2019. Between 1995 and 2003, this 10.6 ton unmanned [[submersible]] conducted more than 250 dives, collecting 350 biological species (including 180 different bacteria), some of which could prove to be useful in medical and industrial applications.<ref name=Kakuchi>{{cite web
{{nihongo|'''''Kaikō'''''|かいこう||"Ocean Trench"}}<ref>{{Cite web |title=「かいこう」<研究船・探査機<研究船・施設・設備<JAMSTECについて<海洋研究開発機構 |url=https://www.jamstec.go.jp/j/about/equipment/ships/kaiko.html |access-date=2022-03-18 |website=www.jamstec.go.jp}}</ref> was a [[remotely operated underwater vehicle]] (ROV) built by the [[Japan Agency for Marine-Earth Science and Technology]] (JAMSTEC) for exploration of the [[deep sea]]. ''Kaikō'' was the second of only five vessels ever to reach the bottom of the [[Challenger Deep]], as of 2019. Between 1995 and 2003, this 10.6 ton unmanned [[submersible]] conducted more than 250 dives, collecting 350 biological species (including 180 different bacteria), some of which could prove to be useful in medical and industrial applications.<ref name=Kakuchi>{{cite web
|author=Suvendrini Kakuchi
|author=Suvendrini Kakuchi
|date=21 July 2003
|date=21 July 2003
Line 68: Line 65:
}}</ref> On 29 May 2003, ''Kaikō'' was lost at sea off the coast of [[Shikoku|Shikoku Island]] during [[2003 Pacific typhoon season#Typhoon Chan-hom|Typhoon Chan-Hom]], when a secondary cable connecting it to its launcher at the ocean surface broke.<ref name=Ishibashi2008/>
}}</ref> On 29 May 2003, ''Kaikō'' was lost at sea off the coast of [[Shikoku|Shikoku Island]] during [[2003 Pacific typhoon season#Typhoon Chan-hom|Typhoon Chan-Hom]], when a secondary cable connecting it to its launcher at the ocean surface broke.<ref name=Ishibashi2008/>


Another ROV, ''Kaikō7000II'', served as the replacement for ''Kaikō'' until 2007. At that time, JAMSTEC researchers began [[sea trial]]s for the permanent replacement ROV, ''[[ABISMO]]'' ('''A'''utomatic '''B'''ottom '''I'''nspection and '''S'''ampling '''Mo'''bile). ''ABISMO'' is currently one of only two ROVs rated to 11,000-meters (the other being ''[[Deepsea Challenger]]'', piloted by director [[James Cameron]]).
Another ROV, ''Kaikō7000II'', served as the replacement for ''Kaikō'' until 2007. At that time, JAMSTEC researchers began [[sea trial]]s for the permanent replacement ROV, ''[[ABISMO]]'' ('''A'''utomatic '''B'''ottom '''I'''nspection and '''S'''ampling '''Mo'''bile).


==Challenger Deep==
==Challenger Deep==
{{Main|Challenger Deep}}
{{Main|Challenger Deep}}
[[File:Marianatrenchmap.png|300px|thumb|left|Location of the [[Challenger Deep]] in the [[Mariana Trench]]]]
[[File:Marianatrenchmap.png|300px|thumb|left|Location of the [[Challenger Deep]] in the [[Mariana Trench]]]]
[[Bathymetry|Bathymetric]] data obtained during the course of the [[Challenger expedition|expedition]] (December 1872 – May 1876) of the British [[Royal Navy]] survey ship [[HMS Challenger (1858)|HMS ''Challenger'']] enabled scientists to draw maps,<ref>{{cite book
[[Bathymetry|Bathymetric]] data obtained during the course of the [[Challenger expedition|expedition]] (December 1872 – May 1876) of the British [[Royal Navy]] survey ship {{HMS|Challenger|1858|6}} enabled scientists to draw maps,<ref>{{cite book
|author1=John Murray |author2=Rev. A.F. Renard |title=Report of the scientific results of the voyage of H.M.S. Challenger during the years 1873 to 1876
|author1=John Murray |author2=Rev. A.F. Renard |title=Report of the scientific results of the voyage of H.M.S. Challenger during the years 1873 to 1876
|publisher=Her Majesty's Stationery Office
|publisher=Her Majesty's Stationery Office
Line 101: Line 98:
|date=February 1, 1960
|date=February 1, 1960
|url=http://www.onr.navy.mil/focus/ocean/vessels/submersibles11.htm
|url=http://www.onr.navy.mil/focus/ocean/vessels/submersibles11.htm
|title=Research Vessels: Submersibles - ''Trieste''
|title=Research Vessels: Submersibles ''Trieste''
|publisher=United States Navy
|publisher=United States Navy
|access-date=27 June 2010
|access-date=27 June 2010
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|archive-url=https://web.archive.org/web/20020418105908/http://www.onr.navy.mil/focus/ocean/vessels/submersibles11.htm
|archive-url=https://web.archive.org/web/20020418105908/http://www.onr.navy.mil/focus/ocean/vessels/submersibles11.htm
|archive-date=18 April 2002
|archive-date=18 April 2002
}}</ref> the maximum recorded depth was later calculated to be {{convert|10911|m}}. At this depth, the [[water column]] above exerts a [[barometric pressure]] of {{convert|108.6|MPa|psi}}, over one thousand times the [[atmospheric pressure#Standard atmospheric pressure|standard atmospheric pressure]] at sea level. Even at this great depth and pressure, a small [[flounder]]-like fish was seen moving away from the spotlight of the bathyscaphe. Since then, only one manned vessel has ever returned to the Challenger Deep, the [[Deepsea Challenger]], which was piloted by director [[James Cameron]] on March 26, 2012 to the bottom of the trench.<ref name="James Cameron Now at Ocean's Deepest Point">{{cite web |author=National Geographic |title=James Cameron Now at Ocean's Deepest Point |url=http://news.nationalgeographic.com/news/2012/03/120325-james-cameron-mariana-trench-challenger-deep-deepest-science-sub/ |date=25 March 2012 |publisher=National Geographic Society |access-date=25 March 2012 }}</ref>
}}</ref> the maximum recorded depth was later calculated to be {{convert|10911|m}}. At this depth, the [[water column]] above exerts a [[barometric pressure]] of {{convert|108.6|MPa|psi}}, over one thousand times the [[atmospheric pressure#Standard atmospheric pressure|standard atmospheric pressure]] at sea level. Since then, only one manned vessel has ever returned to the Challenger Deep, the [[Deepsea Challenger]], which was piloted by director [[James Cameron]] on March 26, 2012, to the bottom of the trench.<ref name="James Cameron Now at Ocean's Deepest Point">{{cite web |author=National Geographic |title=James Cameron Now at Ocean's Deepest Point |url=http://news.nationalgeographic.com/news/2012/03/120325-james-cameron-mariana-trench-challenger-deep-deepest-science-sub/ |archive-url=https://web.archive.org/web/20120327053619/http://news.nationalgeographic.com/news/2012/03/120325-james-cameron-mariana-trench-challenger-deep-deepest-science-sub/ |url-status=dead |archive-date=March 27, 2012 |date=25 March 2012 |publisher=National Geographic Society |access-date=25 March 2012 }}</ref>


In March 1995, ''Kaikō'' became the second vessel ever to reach the bottom of the [[Challenger Deep]], and the first craft to visit this location since the ''Trieste'' mission.<ref name=Kakuchi/><ref name=BBC/> The maximum depth measured on that dive was 10,911.4 meters,<ref name=Kyo1995>{{cite book
In March 1995, ''Kaikō'' became the second vessel ever to reach the bottom of the [[Challenger Deep]], and the first craft to visit this location since the ''Trieste'' mission.<ref name=Kakuchi/><ref name=BBC/> The maximum depth measured on that dive was 10,911.4 meters,<ref name=Kyo1995>{{cite book
|author1=M. Kyo |author2=E. Hiyazaki |author3=S. Tsukioka |author4=H. Ochi |author5=Y. Amitani |author6=T. Tsuchiya |author7=T. Aoki |author8=S. Takagawa |title=OCEANS '95. MTS/IEEE. Challenges of Our Changing Global Environment (Conference Proceedings)
|author1=M. Kyo |author2=E. Hiyazaki |author3=S. Tsukioka |author4=H. Ochi |author5=Y. Amitani |author6=T. Tsuchiya |author7=T. Aoki |author8=S. Takagawa |title=OCEANS '95. MTS/IEEE. Challenges of Our Changing Global Environment (Conference Proceedings)
|chapter=The sea trial of “KAIKO”, the full ocean depth research ROV
|chapter=The sea trial of "KAIKO", the full ocean depth research ROV
|volume=3
|volume=3
|location=San Diego, CA
|location=San Diego, California
|isbn=978-0-933957-14-5
|isbn=978-0-933957-14-5
|doi=10.1109/OCEANS.1995.528882
|doi=10.1109/OCEANS.1995.528882
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|title=Maximum depth reached by ''Kaikō''
|title=Maximum depth reached by ''Kaikō''
|publisher=Japan Agency for Marine-Earth Science and Technology
|publisher=Japan Agency for Marine-Earth Science and Technology
|location=[[Yokosuka, Kanagawa|Yokosuka]], [[Japan]]
|location=[[Yokosuka, Kanagawa|Yokosuka]], Japan
|access-date=27 June 2010
|access-date=27 June 2010}}</ref> marking the deepest dive for an unmanned submersible to date. On 31 May 2009, ''Nereus'' became the third vessel to visit the bottom of the [[Challenger Deep]], reaching a maximum recorded depth of 10,902 meters.<ref name=BBC/><ref name=Moana1>{{cite web
|archive-date=15 June 2010
|archive-url=https://web.archive.org/web/20100615055050/http://www.jamstec.go.jp/e/about/equipment/ships/kaiko7000.html
|url-status=dead
}}</ref> marking the deepest dive for an unmanned submersible to date. On 31 May 2009, ''Nereus'' became the third vessel to visit the bottom of the [[Challenger Deep]], reaching a maximum recorded depth of 10,902 meters.<ref name=BBC/><ref name=Moana1>{{cite web
|author=University of Hawaii Marine Center
|author=University of Hawaii Marine Center
|date=4 June 2009
|date=4 June 2009
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|title=Deep Sea Research Vessel ''KAIREI''
|title=Deep Sea Research Vessel ''KAIREI''
|publisher=Japan Agency for Marine-Earth Science and Technology
|publisher=Japan Agency for Marine-Earth Science and Technology
|location=[[Yokosuka, Kanagawa|Yokosuka]], [[Japan]]
|location=[[Yokosuka, Kanagawa|Yokosuka]], Japan
|access-date=27 June 2010}}</ref>
|access-date=27 June 2010}}</ref>


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''Kaikō'' reached a maximum depth of 10,911.4 meters at the Challenger Deep on 24 March 1995, during its initial sea trials.<ref name=Kyo1995/><ref name=BBC/><ref name=JAMSTEC01/> At that time, the craft collected video and photographs of various [[extremophile|barophilic]] [[benthos]], including [[Tube worm (body plan)|tubeworms]] and [[shrimp]].
''Kaikō'' reached a maximum depth of 10,911.4 meters at the Challenger Deep on 24 March 1995, during its initial sea trials.<ref name=Kyo1995/><ref name=BBC/><ref name=JAMSTEC01/> At that time, the craft collected video and photographs of various [[extremophile|barophilic]] [[benthos]], including [[Tube worm (body plan)|tubeworms]] and [[shrimp]].
[[remotely operated underwater vehicle|ROV]] in position under its launcher, aboard the deep sea research ship [[RV Kairei|RV ''Kairei'']].]]
[[remotely operated underwater vehicle|ROV]] in position under its launcher, aboard the deep sea research ship [[RV Kairei|RV ''Kairei'']].]]
[[File:Hirondellea gigas.jpg|thumb|left|200px|''[[Gammaridea|Hirondellea gigas]]'' specimen at [[Shin-Enoshima Aquarium]], [[Enoshima|Enoshima Island]], [[Fujisawa, Kanagawa]], [[Japan]].]]
[[File:Hirondellea gigas.jpg|thumb|left|200px|''[[Gammaridea|Hirondellea gigas]]'' specimen at [[Shin-Enoshima Aquarium]], [[Enoshima|Enoshima Island]], [[Fujisawa, Kanagawa]], Japan.]]
In February 1996, ''Kaikō'' returned to Challenger Deep, this time collecting [[sediment]] and [[microorganism]]s from the [[seabed]] at a depth of 10,898 meters. Among the novel organisms identified and collected was ''[[Moritella yayanosii]]''<ref name=Nogi1999>{{cite journal
In February 1996, ''Kaikō'' returned to Challenger Deep, this time collecting [[sediment]] and [[microorganism]]s from the [[seabed]] at a depth of 10,898 meters. Among the novel organisms identified and collected was ''[[Moritella yayanosii]]''<ref name=Nogi1999>{{cite journal
|author1=Y. Nogi |author2=Chiaki Kato |title=Taxonomic studies of extremely barophilic bacteria isolated from the Mariana Trench and description of Moritella yayanosii sp. nov., a new barophilic bacterial isolate
|author1=Y. Nogi |author2=Chiaki Kato |title=Taxonomic studies of extremely barophilic bacteria isolated from the Mariana Trench and description of Moritella yayanosii sp. nov., a new barophilic bacterial isolate
Line 177: Line 178:
|pages=1510–1513
|pages=1510–1513
|date=April 1998
|date=April 1998
|doi=10.1128/AEM.64.4.1510-1513.1998 |url=http://aem.asm.org/cgi/content/full/64/4/1510
|doi=10.1128/AEM.64.4.1510-1513.1998 |url= |pmid=9546187
|pmid=9546187
|pmc=106178
|pmc=106178
|bibcode=1998ApEnM..64.1510K }}</ref> These two species of bacteria appear to be obligately barophilic. The optimal pressure conditions for growth of ''S. benthica'' is 70 [[Pascal (unit)|Megapascals (MPa)]], while ''M. yayanosii'' grows best at 80 MPa; no growth at all was detected at pressures of less than 50 MPa with either strain.<ref name=Kato1998/> Both species appear to contain high levels of [[docosahexaenoic acid]] (DHA) and [[eicosapentaenoic acid]] (EPA), [[omega-3 fatty acid]]s which could prove to be useful in the treatment of [[hypertension]] and even [[cancer]].<ref name=Kakuchi/>
|access-date=27 June 2010
}}</ref> These two species of bacteria appear to be obligately barophilic. The optimal pressure conditions for growth of ''S. benthica'' is 70 [[Pascal (unit)|Megapascals (MPa)]], while ''M. yayanosii'' grows best at 80 MPa; no growth at all was detected at pressures of less than 50 MPa with either strain.<ref name=Kato1998/> Both species appear to contain high levels of [[docosahexaenoic acid]] (DHA) and [[eicosapentaenoic acid]] (EPA), [[omega-3 fatty acid]]s which could prove to be useful in the treatment of [[hypertension]] and even [[cancer]].<ref name=Kakuchi/>


In December 1997, ''Kaikō'' located the wreck of ''[[Tsushima Maru]]'' on the sea floor off the coast of [[Okinawa Prefecture|Okinawa]]. ''Tsushima Maru'' was an unmarked [[Japan]]ese passenger/cargo ship that was sunk during [[World War II]] by [[USS Bowfin (SS-287)|USS ''Bowfin'']], a [[United States Navy]] [[submarine]].
In December 1997, ''Kaikō'' located the wreck of ''[[Tsushima Maru]]'' on the sea floor off the coast of [[Okinawa Prefecture|Okinawa]]. ''Tsushima Maru'' was an unmarked Japanese passenger/cargo ship that was sunk during World War II by {{USS|Bowfin|SS-287|6}}, a [[United States Navy]] [[submarine]].


In May 1998, ''Kaikō'' returned again to Challenger Deep, this time collecting specimens of ''[[Gammaridea|Hirondellea gigas]]''. ''Hirondellea gigas'' (Birstein and Vinagradov, 1955) is a [[crustacean]] of the [[Uristidae]] [[family (biology)|family]] of [[marine (ocean)|marine]] [[Amphipoda|amphipods]].<ref>{{ITIS |id=94312 |taxon=Hirondellea |access-date=24 June 2010}}</ref>
In May 1998, ''Kaikō'' returned again to Challenger Deep, this time collecting specimens of ''[[Gammaridea|Hirondellea gigas]]''. ''Hirondellea gigas'' (Birstein and Vinagradov, 1955) is a [[crustacean]] of the [[Uristidae]] [[family (biology)|family]] of [[marine (ocean)|marine]] [[Amphipoda|amphipods]].<ref>{{ITIS |id=94312 |taxon=Hirondellea |access-date=24 June 2010}}</ref>
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{{Main|ABISMO}}
{{Main|ABISMO}}
While the temporary replacement ROV (''Kaikō7000II'') has a remarkable performance record, it is only rated to 7,000 meters and cannot reach the deepest oceanic trenches. For this reason, JAMSTEC engineers began work on a new 11,000-meter class of ROV in April 2005.<ref name=Ishibashi2008>{{cite journal
While the temporary replacement ROV (''Kaikō7000II'') has a remarkable performance record, it is only rated to 7,000 meters and cannot reach the deepest oceanic trenches. For this reason, JAMSTEC engineers began work on a new 11,000-meter class of ROV in April 2005.<ref name=Ishibashi2008>{{cite journal
|author1=Shojiro Ishibashi
|author1=Shōjirō Ishibashi
|author2=Hiroshi Yoshida
|author2=Hiroshi Yoshida
|title=Developing a Sediment Sampling ROV for the Deepest Ocean
|title=Developing a Sediment Sampling ROV for the Deepest Ocean
Line 222: Line 221:
|author4=Hiroyuki Osawa
|author4=Hiroyuki Osawa
|author5=Hiroshi Yoshida
|author5=Hiroshi Yoshida
|author6=Shojiro Ishibashi
|author6=Shōjirō Ishibashi
|author7=Yoshitaka Watanabe
|author7=Yoshitaka Watanabe
|author8=Takao Sawa
|author8=Takao Sawa
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|archive-url=https://web.archive.org/web/20111004094404/http://www.isope.org/publications/proceedings/ISOPE-PACOMS/PACOMS2008/papers/P08-57itoh.pdf
|archive-url=https://web.archive.org/web/20111004094404/http://www.isope.org/publications/proceedings/ISOPE-PACOMS/PACOMS2008/papers/P08-57itoh.pdf
|archive-date= 4 October 2011
|archive-date= 4 October 2011
}}</ref> The project is called ''ABISMO'' (Automatic Bottom Inspection and Sampling Mobile), which translates to ''abyss'' in Spanish. Initial sea trials of ''ABISMO'' were conducted in 2007. The craft successfully reached a planned depth of 9,760-meters, the deepest part of [[Izu-Ogasawara Trench]], where it collected core samples of sediment from the seabed.<ref name=Ishibashi2008/><ref name=Itoh2008/> Plans are underway for a mission to the Challenger Deep.{{citation needed|date=March 2011}}
}}</ref> The project is called ''ABISMO'' (Automatic Bottom Inspection and Sampling Mobile), which translates to ''abyss'' in Spanish. Initial sea trials of ''ABISMO'' were conducted in 2007. The craft successfully reached a planned depth of 9,760-meters, the deepest part of [[Izu–Ogasawara Trench]], where it collected core samples of sediment from the seabed.<ref name=Ishibashi2008/><ref name=Itoh2008/>


==See also==
==See also==
Line 273: Line 272:


==External links==
==External links==
* [https://web.archive.org/web/20090502161047/http://www.jamstec.go.jp/jamstec-e/gallery/mujin/kaiko.html JAMSTEC's Kaikō page]
* [http://www.jamstec.go.jp/e/about/equipment/ships/kaiko.html JAMSTEC's Kaikō page]
* [http://marinebio.org/oceans/deep/ Marine Biology: The Deep Sea] - General resource on deep sea creatures
* [http://marinebio.org/oceans/deep/ Marine Biology: The Deep Sea] General resource on deep sea creatures
* [http://oceanexplorer.noaa.gov/technology/subs/abe/abe.html Autonomous Benthic Explorer AUV (ABE)]
* [http://oceanexplorer.noaa.gov/technology/subs/abe/abe.html Autonomous Benthic Explorer AUV (ABE)]
* [http://www.whoi.edu/oceanus/viewArticle.do?id=70906&sectionid=1002 R.I.P. A.B.E: The pioneering Autonomous Benthic Explorer is lost at sea]
* [http://www.whoi.edu/oceanus/viewArticle.do?id=70906&sectionid=1002 R.I.P. A.B.E: The pioneering Autonomous Benthic Explorer is lost at sea]


{{Japan Agency for Marine-Earth Science and Technology vessels and vehicles}}
{{physical oceanography|expanded=other}}
{{physical oceanography|expanded=other}}
{{Underwater diving|divsup}}
{{Underwater diving|divsup}}

Latest revision as of 05:43, 22 November 2023

Kaikō
History
Japan
OwnerThe Japan Agency for Marine-Earth Science and Technology (JAMSTEC)
OperatorJAMSTEC
Laid down1991[1]
Launched1993[1]
Christened1993[1]
Completed1993[1]
Commissioned1993[1]
Maiden voyageMay 1993 to March 1995[1]
Out of service2003
Stricken2003
HomeportYokosuka, Japan
FateLost at sea off Shikoku Island during Typhoon Chan-Hom, 29 May 2003[2]
General characteristics
Typeremotely operated underwater vehicle
Displacement10.6 tons in air[3]
Length3.0 meters[3]
Installed powerelectrical (Lithium-ion batteries)
Test depth10911.4 meters
Complementunmanned
Sensors and
processing systems		side-scan sonar and search lights

Kaikō (かいこう, "Ocean Trench")[4] was a remotely operated underwater vehicle (ROV) built by the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) for exploration of the deep sea. Kaikō was the second of only five vessels ever to reach the bottom of the Challenger Deep, as of 2019. Between 1995 and 2003, this 10.6 ton unmanned submersible conducted more than 250 dives, collecting 350 biological species (including 180 different bacteria), some of which could prove to be useful in medical and industrial applications.[3] On 29 May 2003, Kaikō was lost at sea off the coast of Shikoku Island during Typhoon Chan-Hom, when a secondary cable connecting it to its launcher at the ocean surface broke.[2]

Another ROV, Kaikō7000II, served as the replacement for Kaikō until 2007. At that time, JAMSTEC researchers began sea trials for the permanent replacement ROV, ABISMO (Automatic Bottom Inspection and Sampling Mobile).

Challenger Deep

[edit]
Main article: Challenger Deep
Location of the Challenger Deep in the Mariana Trench

Bathymetric data obtained during the course of the expedition (December 1872 – May 1876) of the British Royal Navy survey ship HMS Challenger enabled scientists to draw maps,[5] which provided a rough outline of certain major submarine terrain features, such as the edge of the continental shelves and the Mid-Atlantic Ridge. This discontinuous set of data points was obtained by the simple technique of taking soundings by lowering long lines from the ship to the seabed.[6]

Among the many discoveries of the Challenger expedition was the identification of the Challenger Deep. This depression, located at the southern end of the Mariana Trench near the Mariana Islands group, is the deepest surveyed point of the World Ocean. The Challenger scientists made the first recordings of its depth on 23 March 1875 at station 225. The reported depth was 4,475 fathoms (8184 meters) based on two separate soundings.

On 23 January 1960, Don Walsh and Jacques Piccard were the first men to descend to the bottom of the Challenger Deep in the Trieste bathyscaphe. Though the initial report claimed the bathyscaphe had attained a depth of 37,800 feet,[7] the maximum recorded depth was later calculated to be 10,911 metres (35,797 ft). At this depth, the water column above exerts a barometric pressure of 108.6 megapascals (15,750 psi), over one thousand times the standard atmospheric pressure at sea level. Since then, only one manned vessel has ever returned to the Challenger Deep, the Deepsea Challenger, which was piloted by director James Cameron on March 26, 2012, to the bottom of the trench.[8]

In March 1995, Kaikō became the second vessel ever to reach the bottom of the Challenger Deep, and the first craft to visit this location since the Trieste mission.[3][9] The maximum depth measured on that dive was 10,911.4 meters,[1][9][10] marking the deepest dive for an unmanned submersible to date. On 31 May 2009, Nereus became the third vessel to visit the bottom of the Challenger Deep, reaching a maximum recorded depth of 10,902 meters.[9][11]

RV Kairei

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RV Kairei
RV Kairei Control Room

RV Kairei (かいれい) is a deep sea research vessel that served as the support ship for Kaikō, and for its replacement ROV, Kaikō7000II. It now serves as the support ship for ABISMO. Kairei uses ABISMO to conduct surveys and observations of oceanic plateaus, abyssal plains, oceanic basins, submarine volcanoes, hydrothermal vents, oceanic trenches and other underwater terrain features to a maximum depth of 11,000 meters. Kairei also conducts surveys of the structure of deep sub-bottoms with complicated geographical shapes in subduction zones using its on-board multi-channel reflection survey system.[12]

Timeline and fate of Kaikō

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The launcher for Kaikō ROV.
Kaikō7000II Kaikō reached a maximum depth of 10,911.4 meters at the Challenger Deep on 24 March 1995, during its initial sea trials.[1][9][10] At that time, the craft collected video and photographs of various barophilic benthos, including tubeworms and shrimp. ROV in position under its launcher, aboard the deep sea research ship RV Kairei.
Hirondellea gigas specimen at Shin-Enoshima Aquarium, Enoshima Island, Fujisawa, Kanagawa, Japan.

In February 1996, Kaikō returned to Challenger Deep, this time collecting sediment and microorganisms from the seabed at a depth of 10,898 meters. Among the novel organisms identified and collected was Moritella yayanosii[13] and Shewanella benthica.[14] These two species of bacteria appear to be obligately barophilic. The optimal pressure conditions for growth of S. benthica is 70 Megapascals (MPa), while M. yayanosii grows best at 80 MPa; no growth at all was detected at pressures of less than 50 MPa with either strain.[14] Both species appear to contain high levels of docosahexaenoic acid (DHA) and eicosapentaenoic acid (EPA), omega-3 fatty acids which could prove to be useful in the treatment of hypertension and even cancer.[3]

In December 1997, Kaikō located the wreck of Tsushima Maru on the sea floor off the coast of Okinawa. Tsushima Maru was an unmarked Japanese passenger/cargo ship that was sunk during World War II by USS Bowfin, a United States Navy submarine.

In May 1998, Kaikō returned again to Challenger Deep, this time collecting specimens of Hirondellea gigas. Hirondellea gigas (Birstein and Vinagradov, 1955) is a crustacean of the Uristidae family of marine amphipods.[15]

In October 1999, Kaikō performed a robotic mechanical operation at a depth of 2,150 meters off the coast of Okinawa near the Ryukyu Trench, connecting measuring equipment with underwater cables on the sea floor. On this mission, another bacterial species, Shewanella violacea, was discovered at a depth of 5,110 meters.[16] This organism is notable for its brilliant violet-colored pigment. Certain compounds found in S. violacea may have applications in the cosmetics industry (development of products for lightening of skin tone) and also in the semiconductor industry (development of chemicals to be used in production of semiconductors).[3]

In late November 1999, Kaikō located the wreckage of H-2 No. 8, a NASDA rocket (satellite launch system), on the sea floor at a depth of 2,900 meters off the Ogasawara Islands. H-2 flight F8 was conducted on 15 November 1999. The rocket, which was carrying a Multi-Functional Transport Satellite (MTSAT) payload, self-destructed after experiencing an engine malfunction shortly after it was launched.

In August 2000, Kaikō discovered hydrothermal vents and their associated deep sea communities at a depth of 2,450 meters near the Central Indian Ridge. The Central Indian Ridge is a divergent tectonic plate boundary between the African Plate and the Indo-Australian Plate located in the western Indian Ocean.

On 29 May 2003, Kaikō was lost at sea during Typhoon Chan-Hom, when a steel secondary cable connecting it to its launcher at the surface broke off the coast of Shikoku Island.[2]

In May 2004, JAMSTEC resumed its research operations, using a converted ROV as its vehicle. The ROV, formerly known as UROV 7K, was rechristened Kaikō7000II. The 7000 designation indicates that this vessel is rated for diving to a maximum depth of 7,000 meters.

Development of ABISMO

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Main article: ABISMO

While the temporary replacement ROV (Kaikō7000II) has a remarkable performance record, it is only rated to 7,000 meters and cannot reach the deepest oceanic trenches. For this reason, JAMSTEC engineers began work on a new 11,000-meter class of ROV in April 2005.[2][17] The project is called ABISMO (Automatic Bottom Inspection and Sampling Mobile), which translates to abyss in Spanish. Initial sea trials of ABISMO were conducted in 2007. The craft successfully reached a planned depth of 9,760-meters, the deepest part of Izu–Ogasawara Trench, where it collected core samples of sediment from the seabed.[2][17]

See also

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  • MIR – Self-propelled deep submergence vehicle
  • Shinkai – Crewed research submersible
  • Explorer – Autonomous underwater vehicle from People's Republic of China
  • Nereus – Hybrid remotely operated or autonomous underwater vehicle
  • ABISMO ROV – Japanese remotely operated underwater vehicle for deep sea exploration
  • Autonomous underwater vehicle – Uncrewed underwater vehicle with autonomous guidance system
  • Bathymetry – Study of underwater depth of lake or ocean floors
  • Deep sea – Lowest layer in the ocean
  • Deep-submergence vehicle – Self-propelled deep-diving crewed submersible
  • Diving chamber – Hyperbaric pressure vessel for human occupation used in diving operations
  • Timeline of diving technology – Chronological list of notable events in the history of underwater diving equipment

References

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  1. ^ a b c d e f g h M. Kyo; E. Hiyazaki; S. Tsukioka; H. Ochi; Y. Amitani; T. Tsuchiya; T. Aoki; S. Takagawa (October 1995). "The sea trial of "KAIKO", the full ocean depth research ROV". OCEANS '95. MTS/IEEE. Challenges of Our Changing Global Environment (Conference Proceedings). Vol. 3. San Diego, California. pp. 1991–1996. doi:10.1109/OCEANS.1995.528882. ISBN 978-0-933957-14-5. S2CID 110932870.{{cite book}}: CS1 maint: location missing publisher (link)
  2. ^ a b c d e Shōjirō Ishibashi; Hiroshi Yoshida (March 2008). "Developing a Sediment Sampling ROV for the Deepest Ocean". Sea Technology. Retrieved 27 June 2010.[permanent dead link]
  3. ^ a b c d e f Suvendrini Kakuchi (21 July 2003). "The Underwater Wonders Revealed by Kaiko". Tierramérica: Environment & Development. Archived from the original on 26 May 2011. Retrieved 27 June 2010.
  4. ^ "「かいこう」<研究船・探査機<研究船・施設・設備<JAMSTECについて<海洋研究開発機構". www.jamstec.go.jp. Retrieved 2022-03-18.
  5. ^ John Murray; Rev. A.F. Renard (1891). Report of the scientific results of the voyage of H.M.S. Challenger during the years 1873 to 1876. London: Her Majesty's Stationery Office. p. 525. Retrieved 27 June 2010.
  6. ^ John Murray; Rev. A.F. Renard (1891). Report on the Deepsea Deposits based on the Specimens Collected during the Voyage of H.M.S. Challenger in the years 1873 to 1876. London: Her Majesty's Stationery Office. p. 525. Archived from the original on 2011-07-24. Retrieved 27 June 2010.
  7. ^ Press Release, Office of Naval Research (February 1, 1960). "Research Vessels: Submersibles – Trieste". United States Navy. Archived from the original on 18 April 2002. Retrieved 27 June 2010.
  8. ^ National Geographic (25 March 2012). "James Cameron Now at Ocean's Deepest Point". National Geographic Society. Archived from the original on March 27, 2012. Retrieved 25 March 2012.
  9. ^ a b c d "Robot sub reaches deepest ocean". BBC News. 3 June 2009. Retrieved 27 June 2010.
  10. ^ a b JAMSTEC (2007). "Maximum depth reached by Kaikō". Yokosuka, Japan: Japan Agency for Marine-Earth Science and Technology. Archived from the original on 15 June 2010. Retrieved 27 June 2010.
  11. ^ University of Hawaii Marine Center (4 June 2009). "Daily Reports for R/V KILO MOANA June & July 2009". Honolulu, Hawaii: University of Hawaii. Archived from the original on 19 September 2009. Retrieved 27 June 2010.
  12. ^ JAMSTEC (2007). "Deep Sea Research Vessel KAIREI". Yokosuka, Japan: Japan Agency for Marine-Earth Science and Technology. Retrieved 27 June 2010.
  13. ^ Y. Nogi; Chiaki Kato (January 1999). "Taxonomic studies of extremely barophilic bacteria isolated from the Mariana Trench and description of Moritella yayanosii sp. nov., a new barophilic bacterial isolate". Extremophiles. 3 (1): 71–77. doi:10.1007/s007920050101. PMID 10086847. S2CID 9565878.
  14. ^ a b Chiaki Kato; Lina Li; Yuichi Nogi; Yuka Nakamura; Jin Tamaoka; Koki Horikoshi (April 1998). "Extremely Barophilic Bacteria Isolated from the Mariana Trench, Challenger Deep, at a Depth of 11,000 Meters". Appl Environ Microbiol. 64 (4): 1510–1513. Bibcode:1998ApEnM..64.1510K. doi:10.1128/AEM.64.4.1510-1513.1998. PMC 106178. PMID 9546187.
  15. ^ "Hirondellea". Integrated Taxonomic Information System. Retrieved 24 June 2010.
  16. ^ Yuichi Nogi; C. Kato; Koki Horikoshi (September 1998). "Taxonomic studies of deep-sea barophilic Shewanella strains and description of Shewanella violacea sp. nov". Archives of Microbiology. 170 (5): 331–338. doi:10.1007/s002030050650. PMID 9818352. S2CID 22472007.
  17. ^ a b Kazuaki Itoh; Tomoya Inoue; Junichiro Tahara; Hiroyuki Osawa; Hiroshi Yoshida; Shōjirō Ishibashi; Yoshitaka Watanabe; Takao Sawa; Taro Aoki (10–14 November 2008). "Sea Trials of the New ROV ABISMO to Explore the Deepest Parts of Oceans" (PDF). Proceedings of the Eighth (2008) ISOPE Pacific/Asia Offshore Mechanics Symposium. Bangkok, Thailand: The International Society of Offshore and Polar Engineers. p. 1. ISBN 978-1-880653-52-4. Archived from the original (PDF) on 4 October 2011. Retrieved 27 June 2010.

Further reading

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