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'''Macdonald seamount''' has a shallow summit below sea level, at approximately 20m deep. It is named after [[Gordon A. MacDonald]].<ref name="SI">{{cite book |title = Plate velocities in hotspot reference frame: electronic supplement |date = |publisher = |pages = 111 |url = http://www.mantleplumes.org/P%5E4/P%5E4Chapters/MorganP4ElectronicSupp1.pdf |accessdate = 2010-04-23
'''Macdonald seamount''' has a shallow summit below sea level, at approximately 20m deep. It is named after [[Gordon A. MacDonald]].<ref name="SI">{{cite book |title = Plate velocities in hotspot reference frame: electronic supplement |date = |publisher = |pages = 111 |url = http://www.mantleplumes.org/P%5E4/P%5E4Chapters/MorganP4ElectronicSupp1.pdf |accessdate = 2010-04-23
|author = [[W. Jason Morgan]] and Jason Phipps Morgan }}</ref><ref>{{Cite journal |author=John P. Lockwood |title=Gordon A. MacDonald, 1911–1978 |journal=Journal of Volcanology and Geothermal Research |volume=7 |issue=3–4 |date=May 1980 |pages=177–188 |doi=10.1016/0377-0273(80)90028-1}}</ref> It erupted explosively in 1987, during which a specimen of floating lava composed of alkali basalt was sampled by researchers on the R/V Melville and subsequently analyzed.<ref name="Rubin and Macdougal">{{Cite journal|author=K.H. Rubin and J.D. Macdougall|title=Submarine magma degassing and explosive magmatism at Macdonald (Tamarii) seamount|doi=10.1038/341050a0|url=http://www.nature.com/nature/journal/v341/n6237/abs/341050a0.html|journal=Nature |volume=341 |year=1989|issue=6237|pages=50–52}}</ref> It experienced a second eruption in 1989.<ref name="Rubin and Macdougal"/>
|author = [[W. Jason Morgan]] and Jason Phipps Morgan }}</ref><ref>{{Cite journal |author=John P. Lockwood |title=Gordon A. MacDonald, 1911–1978 |journal=Journal of Volcanology and Geothermal Research |volume=7 |issue=3–4 |date=May 1980 |pages=177–188 |doi=10.1016/0377-0273(80)90028-1}}</ref> It erupted explosively in 1987, during which a specimen of floating lava composed of alkali basalt was sampled by researchers on the R/V Melville and subsequently analyzed.<ref name="Rubin and Macdougal">{{Cite journal|author=K.H. Rubin and J.D. Macdougall|title=Submarine magma degassing and explosive magmatism at Macdonald (Tamarii) seamount|doi=10.1038/341050a0|url=http://www.nature.com/nature/journal/v341/n6237/abs/341050a0.html|journal=Nature |volume=341 |year=1989|issue=6237|pages=50–52}}</ref> It experienced a second eruption in 1989.<ref name="Rubin and Macdougal"/>

Hotspots have been explained either by [[mantle plume]]s producing magma in the crust, reactivation of old [[lithospheric]] structures such as fractures or spreading of the crust through tectonic tension.{{sfn|Binard|Hekinian|Stoffers|Cheminée|2004|p=158}} Aside from Macdonald seamount, active volcanoes in the Pacific Ocean include [[Hawaii]], [[Bounty Seamount|Bounty seamount]] at [[Pitcairn]], [[Vailulu'u]] in [[Samoa]] and [[Mehetia]]/[[Teahitia]] in the [[Society Islands]].{{sfn|Binard|Hekinian|Stoffers|Cheminée|2004|p=157}}

This volcanic region has been associated with the "South Pacific Superswell", a region where the seafloor is abnormally shallow.It is the site of a number of often short-lived volcanic chains, including the previously mentioned hotspots and [[Arago hotspot]], [[Marquesas Islands]] and [[Rarotonga]]. Beneath the Superswell, a region of [[upwelling]] has been identified in the [[Mantle (geology)|mantle]], although the scarcity of seismic stations in the regions make it difficult to reliably image it.{{sfn|Tanaka|Obayashi|Suetsugu|Shiobara|2009|p=268}} In the case of Macdonald, it seems like a low velocity anomaly in the mantle rises from another anomaly at {{convert|1200|km}} depth to the surface.{{sfn|Tanaka|Obayashi|Suetsugu|Shiobara|2009|p=276}} This has been explained by the presence of a "superplume", a very large mantle plume which also formed [[oceanic plateau]]s during the [[Cretaceous]],{{sfn|Suetsugu|Hanyu|2013|p=260}} with present-day volcanism at the Society and Macdonald volcanoes originating from secondary plumes that rise from the superplume to the crust.{{sfn|Suetsugu|Hanyu|2013|p=267}}

The [[Austral Islands]] and the [[Cook Islands]] may have been formed by the Macdonald hotspot,{{sfn|Talandier|Okal|1984|p=813}} as the [[Pacific Plate]] was carried above it at a rate of {{convert|10|-|11|cm/year|in/year}}. A {{convert|500|-|300|m}} high swell underpins the Austral Islands as far as Macdonald seamount,{{sfn|Bideau|Hekinian|2004|p=309}} which is the presently active volcano of the Macdonald hotspot.{{sfn|Bideau|Hekinian|2004|p=312}} They fit the pattern of linear volcanism, seeing as they are progressively less degraded southeastward (with the exception of Marotiri, which unprotected by [[coral reef]]s unlike the other more equatorial islands has been heavily eroded) and the active Macdonald volcano lies at their southeastern end.{{sfn|Johnson|Malahoff|1971|p=3284}} However, there appear to be somewhat older [[guyot]]s in the area as well, some of which show evidence that secondary volcanoes formed on them. It is possible that the guyots are much older and that lithospheric anomalies were periodically reactivated and triggered renewed volcanism on the older guyots.{{sfn|Johnson|Malahoff|1971|p=3289}}

In addition, dating of the various volcanoes in the Cook-Austral chain indicates that there is no simple age progression away from Macdonald seamount and that the chain appears to consist of two separate alignments. While the younger ages of [[Atiu]] and [[Aitutaki]] may be explained by the long-range effect of [[Rarotonga]]'s growth, Rarotonga itself is about 18-19 million years younger than would be expected if it was formed by Macdonald.<ref name="ThompsonMalpas2010" /><ref name="DalrympleJarrard1975" /> Additional younger ages in some volcanoes such as [[Rurutu]] have been explained by the presence of an additional system, the [[Arago hotspot]],{{sfn|Bonneville|Suavé|Audin|Clouard|2002|p=1024}} and some rocks from [[Tubuai]] and [[Raivavae]] appear to be too old to be explained by the Macdonald hotspot,<ref name="DalrympleJarrard1975" /> as are deeper samples taken on other volcanoes. Some of these may indicate an origin by the [[Foundation Seamounts|Foundation hotspot]].{{sfn|McNutt|Caress|Reynolds|Jordahl|1997|p=480}} Other problems with using a hotspot to explain this volcanism is the highly variable composition of volcanism between various edifices.{{sfn|McNutt|Caress|Reynolds|Jordahl|1997|p=482}} Finally, a number of the Cook Islands are not located on the reconstructed path of the Macdonald hotspot.<ref name="FleitoutMoriceau1992" /> Some of these issues may be due to the presence of multiple hotspots or the reactivation of dead volcanism by the passage nearby of another hotspot.{{sfn|Morgan|Morgan|2007|p=59}}

Overall, the list of candidate volcanoes produced by the Macdonald hotspot is:
* Rá seamount is located on the path of Macdonald but is too old to have been formed by Macdonald.{{sfn|Morgan|Morgan|2007|p=59}}
* [[Marotiri]], [[Rapa Iti|Rapa]], [[Raivavae]], [[Tubuai]] and the older volcanics of [[Rurutu]],{{sfn|Chauvel|McDonough|Guille|Maury|1997|p=127}} and the correlation is in part supported by isotope data, although a change in isotopic composition between Raivavae and Rapa appears to have occurred,{{sfn|Chauvel|McDonough|Guille|Maury|1997|p=133}} possibly as a consequence of the hotspot crossing the [[Austral Fracture Zone]].<ref name="Woodhead1996" /> Older ages at Marotiri may indicate a separate volcanic event, generated by the same source as Rá seamount.{{sfn|Morgan|Morgan|2007|p=60}}
* The Neilson Bank is on the path of Macdonald, but the only age is much older than predicted and of questionable accuracy.{{sfn|Morgan|Morgan|2007|p=60}}
* ZEP2-19 seamount may be 8.8 million years old.{{sfn|Morgan|Morgan|2007|p=60}}
* [[Mangaia]].{{sfn|Bonneville|Suavé|Audin|Clouard|2002|p=1025}}
* [[Rarotonga]] during the [[Oligocene]] but with more recent volcanism as well.<ref name="SipkinJordan1975" />
* [[Rose Atoll]] and Malulu seamount in [[Samoa]], if they are about 40 million years old.<ref name="JacksonHart2010" />
* [[Tokelau]], based on plate reconstructions and [[isotope]] data.<ref name="Konter2004" />
* [[Gilbert Islands]],{{sfn|Jarrard|Clague|1977|p=67}} although such a track would require a bend in the path of the hotspot and while such a bend exists in the [[Hawaii-Emperor seamount chain]] they are not contemporaneous.{{sfn|Jarrard|Clague|1977|p=68}}
* [[Phoenix Islands]], 43-66 million years ago.<ref name="FleitoutMoriceau1992" />
* The northern [[Marshall Islands]] 100-150 million years ago.{{sfn|Bergersen|1995|p=609}} Later some of these seamounts and atolls were influenced by the [[Rurutu hotspot]], the [[Society hotspot]] and the [[Rarotonga hotspot]] leading to a complex history of volcanism and uplift.{{sfn|Lincoln|Pringle|Silva|1993|p=303}}
** The [[guyot]] Aean-Kan during the mid-[[Cretaceous]].{{sfn|Bergersen|1995|p=610}}
** The northern [[Ralik Chain]]{{sfn|Bergersen|1995|p=612}} may also have been formed by the Macdonald hotspot, although uncertainties in plate motions from before about 90 million years ago make any such reconstruction uncertain.{{sfn|Bergersen|1995|p=611}}
** [[Erikub Atoll]], although [[Arago hotspot]] passed even closer to Erikub.<ref name="Staudigel1991" />
** Late [[Cretaceous]] volcanism of Lokkworkwor and Lomjenaelik seamounts.{{sfn|Lincoln|Pringle|Silva|1993|p=300}}
** [[Aptian]]-[[Albian]] volcanism at Lobbadede and Lewa guyots, followed by renewed activity at Lobbadede 82.4 million years ago probably linked to the [[Rurutu hotspot]].{{sfn|Lincoln|Pringle|Silva|1993|p=300}}
** Loen seamount during the [[Albian]].{{sfn|Lincoln|Pringle|Silva|1993|p=300}}
** [[Aptian]]-[[Albian]] volcanism at Wodejebato and Ruwituntun seamounts. Later these seamounts were further affected by the [[Rurutu hotspot]], at the same time as volcanism occurred at [[Bikini]] and [[Rongelap]].{{sfn|Lincoln|Pringle|Silva|1993|p=300}}

The high ratio of [[helium-3]] to [[helium-4]] has been used to infer a deep mantle origin of [[magma]]s of hotspot volcanoes.{{sfn|Moreira|Allègre|2004|p=984}} [[Helium]] samples taken from Macdonald support the contention{{sfn|Moreira|Allègre|2004|p=986}} and have been used to rule out the notion that such magmas may be derived from the [[Crust (geology)|crust]], although an origin in primitive-helium-enriched sectors of the [[lithosphere]] is possible.{{sfn|Moreira|Allègre|2004|p=987}}


==See also==
==See also==
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==References==
==References==
{{reflist}}
{{reflist}}

=== Sources ===
{{refbegin}}
* {{Cite book|url=http://www-odp.tamu.edu/publications/144_SR/VOLUME/CHAPTERS/sr144_35.pdf|title=Cretaceous Hotspot Tracks through the Marshall Islands|last=Bergersen|first=D.D.|doi=10.2973/odp.proc.sr.144.018.1995|date=1995|ref=harv}}
* {{cite journal|last1=Bideau|first1=D.|last2=Hekinian|first2=R.|title=Intraplate Gabbroic Rock Debris Ejected from the Magma Chamber of the Macdonald Seamount (Austral Hotspot): Comparison with Other Provinces|journal=Oceanic Hotspots|date=2004|pages=309–348|doi=10.1007/978-3-642-18782-7_11|url=https://link.springer.com/chapter/10.1007/978-3-642-18782-7_11|ref=harv|publisher=Springer, Berlin, Heidelberg}}
* {{cite journal|last1=Binard|first1=N.|last2=Hekinian|first2=R.|last3=Stoffers|first3=P.|last4=Cheminée|first4=J. L.|title=South Pacific Intraplate Volcanism: Structure, Morphology and Style of Eruption|journal=Oceanic Hotspots|date=2004|pages=157–207|doi=10.1007/978-3-642-18782-7_6|url=https://link.springer.com/chapter/10.1007/978-3-642-18782-7_6|ref=harv|publisher=Springer, Berlin, Heidelberg}}
* {{cite journal|last1=Bonneville|first1=Alain|last2=Suavé|first2=Raymond Le|last3=Audin|first3=Laurence|last4=Clouard|first4=Valérie|last5=Dosso|first5=Laure|last6=Gillot|first6=Pierre Yves|last7=Janney|first7=Philip|last8=Jordahl|first8=Kelsey|last9=Maamaatuaiahutapu|first9=Keitapu|title=Arago Seamount: The missing hotspot found in the Austral Islands|journal=Geology|date=1 November 2002|volume=30|issue=11|pages=1023-1026|doi=10.1130/0091-7613(2002)030<1023:ASTMHF>2.0.CO;2|url=https://pubs.geoscienceworld.org/geology/article-lookup/30/11/1023|ref=harv||issn=0091-7613}}
* {{cite journal|last1=Chauvel|first1=C.|last2=McDonough|first2=W.|last3=Guille|first3=G.|last4=Maury|first4=R.|last5=Duncan|first5=R.|title=Contrasting old and young volcanism in Rurutu Island, Austral chain|journal=Chemical Geology|volume=139|issue=1-4|pages=125–143|date=1997|doi=10.1016/s0009-2541(97)00029-6|url=http://www.sciencedirect.com/science/article/pii/S0009254197000296|ref=harv}}
* {{cite journal|last1=Chemine'e|first1=J. -L.|last2=Stoffers|first2=P.|last3=McMurtry|first3=G.|last4=Richnow|first4=H.|last5=Puteanus|first5=D.|last6=Sedwick|first6=P.|title=Gas-rich submarine exhalations during the 1989 eruption of Macdonald Seamount|journal=Earth and Planetary Science Letters|date=1 November 1991|volume=107|issue=2|pages=318–327|doi=10.1016/0012-821X(91)90079-W|url=http://www.sciencedirect.com/science/article/pii/0012821X9190079W|ref=harv}}
* {{cite book|last1=Clouard|first1=V.|last2=Bonneville|first2=A.|title=Oceanic Hotspots|date=2004|publisher=Springer, Berlin, Heidelberg|isbn=9783642622908|pages=209–238|url=https://link.springer.com/chapter/10.1007/978-3-642-18782-7_7|ref=harv|language=en|chapter=Submarine Landslides in French Polynesia}}
* {{cite journal|last1=Hekinian|first1=Roger|last2=Bideau|first2=Daniel|last3=Stoffers|first3=Peter|last4=Cheminee|first4=Jean Louis|last5=Muhe|first5=Richard|last6=Puteanus|first6=Doris|last7=Binard|first7=Nicolas|title=Submarine intraplate volcanism in the South Pacific: Geological setting and petrology of the society and the austral regions|journal=Journal of Geophysical Research|date=1991|volume=96|issue=B2|page=2109|doi=10.1029/90JB02139|ref=harv}}
* {{cite journal|last1=Huber|first1=R.|last2=Stotters|first2=P.|last3=Cheminee|first3=J. L.|last4=Richnow|first4=H. H.|last5=Stetter|first5=K. O.|title=Hyperthermophilic archaebacteria within the crater and open-sea plume of erupting Macdonald Seamount|journal=Nature|date=10 May 1990|volume=345|issue=6271|pages=179–182|doi=10.1038/345179a0|url=http://www.nature.com/nature/journal/v345/n6271/abs/345179a0.html|ref=harv}}
* {{cite journal|last1=Jarrard|first1=Richard D.|last2=Clague|first2=David A.|title=Implications of Pacific Island and seamount ages for the origin of volcanic chains|journal=Reviews of Geophysics|date=1977|volume=15|issue=1|pages=57|doi=10.1029/RG015i001p00057|ref=harv}}
* {{cite journal|last1=Johnson|first1=Rockne H.|last2=Malahoff|first2=Alexander|title=Relation of Macdonald Volcano to migration of volcanism along the Austral Chain|journal=Journal of Geophysical Research|date=10 May 1971|volume=76|issue=14|pages=3282–3290|doi=10.1029/JB076i014p03282|url=http://onlinelibrary.wiley.com/doi/10.1029/JB076i014p03282/abstract|ref=harv|issn=2156-2202}}
* {{cite journal|last1=Lincoln|first1=Jonathan M.|last2=Pringle|first2=Malcolm S.|last3=Silva|first3=Isabella Premoli|title=Early and Late Cretaceous Volcanism and Reef-Building in the Marshall Islands|journal=The Mesozoic Pacific: Geology, Tectonics, and Volcanism|date=1993|pages=279–305|doi=10.1029/gm077p0279|url=http://onlinelibrary.wiley.com/doi/10.1029/GM077p0279/summary|ref=harv|publisher=American Geophysical Union}}
* {{cite journal|last1=McNutt|first1=M. K.|last2=Caress|first2=D. W.|last3=Reynolds|first3=J.|last4=Jordahl|first4=K. A.|last5=Duncan|first5=R. A.|title=Failure of plume theory to explain midplate volcanism in the southern Austral islands|journal=Nature|date=2 October 1997|volume=389|issue=6650|pages=479–482|doi=10.1038/39013|url=https://www.nature.com/nature/journal/v389/n6650/abs/389479a0.html|ref=harv|issn=0028-0836}}
* {{cite journal|last1=Moreira|first1=Manuel|last2=Allègre|first2=Claude|title=Helium isotopes on the Macdonald seamount (Austral chain): constraints on the origin of the superswell|journal=Comptes Rendus Geoscience|date=1 August 2004|volume=336|issue=11|pages=983–990|doi=10.1016/j.crte.2004.04.006|url=http://www.sciencedirect.com/science/article/pii/S1631071304001312|ref=harv}}
* {{Cite web|url=http://www.geosociety.org/datarepository/2007/2007090.pdf|title=Plate velocities in hotspot reference frame: electronic supplement|last=Morgan|first=W. Jason|date=2007|website=geosociety.org|ref=harv|last2=Morgan|first2=Jason Phipps}}
* {{cite journal|last1=Rubin|first1=K. H.|last2=Macdougall|first2=J. D.|title=Submarine magma degassing and explosive magmatism at Macdonald (Tamarii) seamount|journal=Nature|date=7 September 1989|volume=341|issue=6237|pages=50–52|doi=10.1038/341050a0|url=https://www.nature.com/nature/journal/v341/n6237/abs/341050a0.html|ref=harv}}
* {{cite journal|last1=Stoffers|first1=P.|last2=Botz|first2=R.|last3=Cheminée|first3=J.-L.|last4=Devey|first4=C.W.|last5=Froger|first5=V.|last6=Glasby|first6=G.P.|last7=Hartmann|first7=M.|last8=Hékinian|first8=R.|last9=Kögler|first9=F.|last10=Laschek|first10=D.|last11=Larqué|first11=P.|last12=Michaelis|first12=W.|last13=Mühe|first13=R.K.|last14=Puteanus|first14=D.|last15=Richnow|first15=H.H.|title=Geology of Macdonald Seamount region, Austral Islands: Recent hotspot volcanism in the south Pacific|journal=Marine Geophysical Researches|date=1 June 1989|volume=11|issue=2|pages=101–112|doi=10.1007/BF00285661|url=https://link.springer.com/article/10.1007%2FBF00285661?LI=true|ref=harv|issn=0025-3235}}
* {{cite journal|last1=Suetsugu|first1=Daisuke|last2=Hanyu|first2=Takeshi|title=Origin of hotspots in the South Pacific: Recent advances in seismological and geochemical models|journal=Geochemical Journal|date=2013|volume=47|issue=2|pages=259–284|doi=10.2343/geochemj.2.0229|url=https://www.jstage.jst.go.jp/article/geochemj/47/2/47_2.0229/_article|ref=harv}}
* {{cite journal|last1=Talandier|first1=Jacques|last2=Okal|first2=Emile A.|title=New surveys of MacDonald Seamount, southcentral Pacific, following volcanoseismic activity, 1977-1983|journal=Geophysical Research Letters|date=1 September 1984|volume=11|issue=9|pages=813–816|doi=10.1029/GL011i009p00813|url=http://onlinelibrary.wiley.com/doi/10.1029/GL011i009p00813/abstract|ref=harv|issn=1944-8007}}
* {{cite book|last1=Talandier|first1=J.|title=Oceanic Hotspots|date=2004|publisher=Springer, Berlin, Heidelberg|isbn=9783642622908|pages=29–71|url=https://link.springer.com/chapter/10.1007/978-3-642-18782-7_3|ref=harv|chapter=Seismicity of the Society and Austral Hotspots in the South Pacific: Seismic Detection, Monitoring and Interpretation of Underwater Volcanism}}
* {{cite journal|last1=Tanaka|first1=S.|last2=Obayashi|first2=M.|last3=Suetsugu|first3=D.|last4=Shiobara|first4=H.|last5=Sugioka|first5=H.|last6=Yoshimitsu|first6=J.|last7=Kanazawa|first7=T.|last8=Fukao|first8=Y.|last9=Barruol|first9=G.|title=P-wave tomography of the mantle beneath the South Pacific Superswell revealed by joint ocean floor and islands broadband seismic experiments|journal=Physics of the Earth and Planetary Interiors|date=2009|volume=172|issue=3-4|pages=268–277|doi=10.1016/j.pepi.2008.10.016|url=https://doi.org/10.1016/j.pepi.2008.10.016|ref=harv}}
{{refend}}


[[Category:Hotspots of the Pacific Ocean]]
[[Category:Hotspots of the Pacific Ocean]]
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[[Category:Geography of the Cook Islands]]
[[Category:Geography of the Cook Islands]]
[[Category:Geography of the Austral Islands]]
[[Category:Geography of the Austral Islands]]
[[Category:Seamounts of the Pacific Ocean]]


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{{Volcanology-stub}}

Revision as of 11:35, 5 November 2017

The Macdonald hotspot is the Pacific Ocean, marked 24 on this map.

The Macdonald hotspot is a volcanic hotspot in the southern Pacific Ocean. The hotspot was responsible for the formation of the Macdonald Seamount, and possibly the Austral-Cook Islands chain.[1] It experienced a second eruption in 1989 (ibid).

Macdonald seamount has a shallow summit below sea level, at approximately 20m deep. It is named after Gordon A. MacDonald.[2][3] It erupted explosively in 1987, during which a specimen of floating lava composed of alkali basalt was sampled by researchers on the R/V Melville and subsequently analyzed.[4] It experienced a second eruption in 1989.[4]

Hotspots have been explained either by mantle plumes producing magma in the crust, reactivation of old lithospheric structures such as fractures or spreading of the crust through tectonic tension.[5] Aside from Macdonald seamount, active volcanoes in the Pacific Ocean include Hawaii, Bounty seamount at Pitcairn, Vailulu'u in Samoa and Mehetia/Teahitia in the Society Islands.[6]

This volcanic region has been associated with the "South Pacific Superswell", a region where the seafloor is abnormally shallow.It is the site of a number of often short-lived volcanic chains, including the previously mentioned hotspots and Arago hotspot, Marquesas Islands and Rarotonga. Beneath the Superswell, a region of upwelling has been identified in the mantle, although the scarcity of seismic stations in the regions make it difficult to reliably image it.[7] In the case of Macdonald, it seems like a low velocity anomaly in the mantle rises from another anomaly at 1,200 kilometres (750 mi) depth to the surface.[8] This has been explained by the presence of a "superplume", a very large mantle plume which also formed oceanic plateaus during the Cretaceous,[9] with present-day volcanism at the Society and Macdonald volcanoes originating from secondary plumes that rise from the superplume to the crust.[10]

The Austral Islands and the Cook Islands may have been formed by the Macdonald hotspot,[11] as the Pacific Plate was carried above it at a rate of 10–11 centimetres per year (3.9–4.3 in/year). A 500–300 metres (1,640–980 ft) high swell underpins the Austral Islands as far as Macdonald seamount,[12] which is the presently active volcano of the Macdonald hotspot.[13] They fit the pattern of linear volcanism, seeing as they are progressively less degraded southeastward (with the exception of Marotiri, which unprotected by coral reefs unlike the other more equatorial islands has been heavily eroded) and the active Macdonald volcano lies at their southeastern end.[14] However, there appear to be somewhat older guyots in the area as well, some of which show evidence that secondary volcanoes formed on them. It is possible that the guyots are much older and that lithospheric anomalies were periodically reactivated and triggered renewed volcanism on the older guyots.[15]

In addition, dating of the various volcanoes in the Cook-Austral chain indicates that there is no simple age progression away from Macdonald seamount and that the chain appears to consist of two separate alignments. While the younger ages of Atiu and Aitutaki may be explained by the long-range effect of Rarotonga's growth, Rarotonga itself is about 18-19 million years younger than would be expected if it was formed by Macdonald.[16][17] Additional younger ages in some volcanoes such as Rurutu have been explained by the presence of an additional system, the Arago hotspot,[18] and some rocks from Tubuai and Raivavae appear to be too old to be explained by the Macdonald hotspot,[17] as are deeper samples taken on other volcanoes. Some of these may indicate an origin by the Foundation hotspot.[19] Other problems with using a hotspot to explain this volcanism is the highly variable composition of volcanism between various edifices.[20] Finally, a number of the Cook Islands are not located on the reconstructed path of the Macdonald hotspot.[21] Some of these issues may be due to the presence of multiple hotspots or the reactivation of dead volcanism by the passage nearby of another hotspot.[22]

Overall, the list of candidate volcanoes produced by the Macdonald hotspot is:

The high ratio of helium-3 to helium-4 has been used to infer a deep mantle origin of magmas of hotspot volcanoes.[40] Helium samples taken from Macdonald support the contention[41] and have been used to rule out the notion that such magmas may be derived from the crust, although an origin in primitive-helium-enriched sectors of the lithosphere is possible.[42]

See also

References

  1. ^ W. J. Morgan (1971). "Convection Plumes in the Lower Mantle". Nature. 230 (5288): 42. Bibcode:1971Natur.230...42M. doi:10.1038/230042a0.
  2. ^ W. Jason Morgan and Jason Phipps Morgan. Plate velocities in hotspot reference frame: electronic supplement (PDF). p. 111. Retrieved 2010-04-23.
  3. ^ John P. Lockwood (May 1980). "Gordon A. MacDonald, 1911–1978". Journal of Volcanology and Geothermal Research. 7 (3–4): 177–188. doi:10.1016/0377-0273(80)90028-1.
  4. ^ a b K.H. Rubin and J.D. Macdougall (1989). "Submarine magma degassing and explosive magmatism at Macdonald (Tamarii) seamount". Nature. 341 (6237): 50–52. doi:10.1038/341050a0.
  5. ^ Binard et al. 2004, p. 158.
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  13. ^ Bideau & Hekinian 2004, p. 312.
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  15. ^ Johnson & Malahoff 1971, p. 3289.
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  19. ^ McNutt et al. 1997, p. 480.
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Sources

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