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Macdonald seamount

December 15, 2023

Macdonald seamount (named after Gordon A. Macdonald) is a seamount in Polynesia, southeast of the Austral Islands and in the neighbourhood of a system of seamounts that include the Ngatemato seamounts and the Taukina seamounts. It rises 4,200 metres (13,800 ft) from the seafloor to a depth of about 40 metres (130 ft) and has a flat top, but the height of its top appears to vary with volcanic activity. There are some subsidiary cones such as Macdocald seamount. The seamount was discovered in 1967 and has been periodically active with gas release and seismic activity since then. There is hydrothermal activity on Macdonald, and the vents are populated by hyperthermophilic bacteria.

Macdonald seamount
Summit depth40m
HeightVaries
Location
LocationSouth Pacific Ocean
Coordinates28°58.7′S 140°15.5′W / 28.9783°S 140.2583°W / -28.9783; -140.2583[1]
Geology
TypeSeamount
Last eruption1987-89
History
Discovery date1967

Macdonald seamount is the currently active volcano of the Macdonald hotspot, a volcanic hotspot that has formed this seamount and some other volcanoes. Eruptions occurred in 1967, 1977, 1979–1983 and 1987–1989, and earthquakes were recorded in 2007. The activity, which has produced basaltic rocks, has modified the shape of the volcano and may lead to the formation of an island in the future.

Discovery and name edit

Macdonald seamount was discovered in 1967, when hydrophones noted earthquake activity in the area.[2] The seamount was named in 1970 after Gordon A. Macdonald.[3] It is also known as Tamarii,[4] while MacDonald appears to be an incorrect capitalization.[3]

Geography and geology edit

Regional setting edit

Further information: Macdonald hotspot

The Pacific Ocean is characterized by long island chains, which typically extend from the southeast to the northwest in direction of the motion of the Pacific Plate. Often, such chains begin in the southeast with volcanoes such as Hawaii that become progressively more eroded northwestward and eventually end as series of atolls. This has led to the suggestion that they are formed by deep sources over which the Pacific Plate drifts and eventually carries the volcano away from its magma source.[5] These sources are known as "hotspots", and their total number has been estimated to be between 42 and 117.[6] Hotspots may also be formed by cracks propagating in the crust, and such hotspots would not necessarily show an age progression.[7]

Local setting edit

Macdonald seamount is located off the southeastern end of the Austral Islands.[8] The Austral Islands extend away from the southern Cook Islands to Îles Maria and eventually Marotiri southeastward,[5] including the islands Rimatara, Rurutu, Tubuai, Raivavae and Rapa.[9] A relatively large gap separates Marotiri from the Macdonald volcano.[10] The Ngatemato seamounts and Taukina seamounts lie north of Macdonald,[11] they are considerably older and appear to have a very different origin.[12] Even farther southeast lies the Foundation seamount chain,[13] and the associated hotspot may have generated some of the seamounts close to Macdonald.[14]

The seamount lies close to the southeastern end of an area of shallower ocean, which extends northwestward towards Marotiri,[15] and includes Annie seamount, Simone seamount and President Thiers Bank.[16] The 3,000 metres (9,800 ft) high Ra seamount (named after Polynesian term for "sun") rises 100 kilometres (62 mi) northwest of Macdonald to a depth of 1,040 metres (3,410 ft); it is apparently an extinct volcano and may have once emerged above sea level.[17] A smaller seamount, Macdocald, rises from the southern foot of Macdonald 850 metres (2,790 ft) to depths of 3,150 metres (10,330 ft).[18] Additional small seamounts that appear to have formed at the East Pacific Rise are also found in the area.[19] The crust beneath Macdonald is of Eocene age,[4] and away from the area of shallower ocean it is covered with hills and sediment.[20]

Macdonald seamount rises 4,200 metres (13,800 ft) from the seafloor to a depth of about 40 metres (130 ft) below sea level;[21] surveys in 1979 found a pinnacle reaching to a depth of 49 metres (161 ft) below sea level[22] and a 150 by 100 metres (490 ft × 330 ft) wide summit plateau with small (6 metres (20 ft) high and 3 metres (9.8 ft) wide) spatter cones.[23] Other sources indicate a surface area of 2.4 square kilometres (0.93 sq mi) for the summit plateau.[24] Ongoing volcanic activity may have modified the topography of the summit of Macdonald between surveys in 1975 and 1982, forming another elliptical pinnacle reaching a depth of 29 metres (95 ft) at the northwestern margin of the plateau and raising the summit plateau to depths of 50–34 metres (164–112 ft).[23] By the time of a new survey in 1986, the pinnacle had been replaced by a pile of rocks which only reached a depth of 42 metres (138 ft).[25]

The upper parts of the edifice are covered by 50 centimetres (20 in) thick lapilli with lava flows underneath. Some hydrothermal alteration products are also found,[17] and a thick ash cover occurs to depths of 2,000 metres (6,600 ft).[26] Aside from these lapilli deposits, scoriaceous lava flows are exposed on the edifice as well.[27] Farther down, lava flow fronts form scarps which become particularly noticeable at depths of 620–1,000 metres (2,030–3,280 ft), except on the northern flank. Even deeper, pillow lavas predominate.[28]

Below the summit area, the slopes fall down steeply to a depth of 600 metres (2,000 ft) and then flatten out.[17] Save for a debris-covered ridge to the northwest, Macdonald has a circular shape,[29] with a width of 45 kilometres (28 mi) at a depth of 3,900 metres (12,800 ft). The slopes of Macdonald display radial ridges which may reflect tectonically-controlled rift zones, as well as isolated parasitic cones.[17] The volume of the whole edifice has been estimated to be 820 cubic kilometres (200 cu mi).[24] Macdonald seamount bears traces of landslides, including collapse scars up on the edifice and smooth terrain formed by debris on its lower slopes;[30] collapses have been inferred on the eastern, southern, western and northwestern flank.[31] The seafloor further shows evidence of turbidity currents, including ripples.[30]

Geomagnetic analysis of the edifice has demonstrated the existence of a normally magnetized structure at the base of the volcano and an additional anomaly which seems to be the magma chamber at a depth of 2 kilometres (1.2 mi) within the edifice, close to the northern flank.[32] Data obtained in gabbroic rocks expelled by the volcano during its eruptions also suggest that another magma reservoir exists at depths of 5 kilometres (3.1 mi), that is within the crust beneath Macdonald.[33]

Composition edit

Macdonald has principally erupted basalt. This basalt contains phenocrysts of clinopyroxene, olivine and especially plagioclase.[34] Additional rocks are basanite, mugearite,[26] picrite[35] and tephrite.[36] The overall composition is alkaline[4] and nephelinic.[37] Rock debris found on Macdonald seamount includes intrusive rocks such as gabbro, metadolerite, picrite and pyroxenite;[28] the gabbros appear to originate from slow crystallization of basaltic magma[38] within a magma reservoir, followed by low temperature alteration.[39] Such rocks were uprooted by explosive activity. In addition, hydrothermal and thermal alteration has formed amphibole, chlorite, epidote, phyllosilicates, pyrite, quartz and smectite,[34] with additional components including albite, biotite, labradorite, leucodiorite and orthopyroxene.[40]

The vulcanites are typical ocean island basalts,[41] whose alkaline nature is unlike the tholeiite that is found on other hotspot volcanoes such as Hawaii, Iceland and Reunion. In these volcanoes alkaline lavas are erupted in the post-shield stage but Macdonald is clearly a developing volcano, and further research is needed to explain the chemical history of Macdonald.[42] These magmas in the case of Macdonald were derived from the partial melting of spinel-lherzolite and further influenced by fractional crystallization[36] and carbon dioxide,[37] but with no influence of the overlying plate.[43]

Eruptions edit

Macdonald is the only known active volcano in the Cook Islands and Austral Islands,[44] unlike in the Society Islands where active volcanism is spread over several volcanoes.[45] The first recorded eruptions at Macdonald occurred in 1967 and was followed by additional activity in 1977,[2] although pumice rafts observed in 1928 and 1936 could have been formed by the seamount as well.[46] These eruptions were recorded with hydrophones; further such activity occurred 1979–1983. Some eruptions, especially eruptions on the southern flank or within a crater, would have passed unnoticed.[22] Additional eruptions at Macdonald occurred between June 1987 – December 1988,[21] and a seismic swarm probably unassociated with eruptions occurred in 2007.[47]

Eruptions at Macdonald include phreatic and phreatomagmatic activity which led to the formation of lapilli and lava bombs and also to the hydrophone signals, but also effusive eruptions forming lava flows.[34] Volcanic activity is not steady, with prolonged pauses observed between eruptions.[48] Macdonald seamount is among the most active submarine volcanoes in the world,[21] and the most active on the floor of the Pacific Ocean.[49]

Radiometric dating of rocks dredged from Macdonald has yielded two separate clusters of ages, one less than two million years old and the second about 30 million years.[50]

1989 events edit

Several eruptions occurred in 1989 when a scientific expedition was underway on the seamount. These eruptions were accompanied by the discolouration of the water over 1.6 kilometres (1 mi) of length, the release of burning hydrogen and hydrogen sulfide[21] accompanied by the formation of a plume of hydrothermally altered water.[8] The submarine Cyana observed activity directly in one summit crater in the form of intense bubbling,[51] while steam and water fountains were seen on the ocean surface.[21]

Grey-coloured slicks developed on the ocean surface,[51] which were formed by pyrite, sulfur and volcanic glass plus smaller amounts of cinnabar, cubatine and quenstedtite.[8] The events caused changes in the pH of the water on the seamount and increased methane concentrations.[1]

Future birth of an island edit

Macdonald likely formed an island during the last glacial maximum when sea level was lower,[48] and future eruptions at Macdonald may lead to the birth of an island even with present-day sea levels. Such an eruption would have to be fairly large and continuous, otherwise the resulting island will likely be eroded away quickly.[52] Depending on how quickly erosion and other factors reduce its size, such an island will likely be temporary.[53]

Hydrothermal system edit

Macdonald seamount is hydrothermally active,[54] with several hydrothermal vents inferred to exist on the western flank.[55] A 2–3 metres (6 ft 7 in – 9 ft 10 in) wide eruption fissure was observed to be hydrothermally active in 1989.[56] Further, the volcano releases gases including carbon dioxide, methane and sulfur dioxide. Such release occurs in the summit area[57] in the so-called "Champagne Field",[37] but also from a second crater at 2,000 metres (6,600 ft) depth in the southeastern flank.[57] Macdonald volcano may be a major source of heavy metals for the area.[58] The methane appears to be partially of biological origin and partly abiogenic.[59]

Biology edit

Hyperthermophilic bacteria have been found on Macdonald, including Archaeoglobus, Pyrococcus, Pyrodictium and Thermococcus as well as previously undescribed species. These bacterial communities contain both hydrogen- or sulfur- consuming autotrophs and heterotrophs and appear to be capable of long-range propagation, considering that relatives of the species found are known from Vulcano in Italy.[54]

Aside from hyperthermophiles, craniids,[60] corals,[61] polynoids[62] and sponges have been found in the summit area of Macdonald.[63]

References edit

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  2. ^ a b Talandier & Okal 1984, p. 813.
  3. ^ a b Morgan & Morgan 2007, p. 59.
  4. ^ a b c Rubin & Macdougall 1989, p. 50.
  5. ^ a b Johnson & Malahoff 1971, p. 3282.
  6. ^ Stoffers et al. 1989, p. 101.
  7. ^ Jarrard & Clague 1977, p. 74.
  8. ^ a b c Chemine'e et al. 1991, p. 319.
  9. ^ Johnson & Malahoff 1971, p. 3283.
  10. ^ Johnson & Malahoff 1971, p. 3289.
  11. ^ Bonneville et al. 2002, p. 1024.
  12. ^ McNutt et al. 1997, p. 480.
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  14. ^ Morgan & Morgan 2007, p. 58.
  15. ^ Stoffers et al. 1989, p. 103.
  16. ^ Binard et al. 2004, p. 176.
  17. ^ a b c d Stoffers et al. 1989, p. 104.
  18. ^ Binard et al. 2004, p. 178.
  19. ^ Binard et al. 2004, p. 196.
  20. ^ Hekinian et al. 1991, p. 2112.
  21. ^ a b c d e Chemine'e et al. 1991, p. 318.
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  24. ^ a b Binard et al. 2004, p. 160.
  25. ^ Talandier 2004, p. 65.
  26. ^ a b Binard et al. 2004, p. 177.
  27. ^ Bideau & Hekinian 2004, p. 315.
  28. ^ a b Stoffers et al. 1989, p. 107.
  29. ^ Johnson & Malahoff 1971, p. 3285.
  30. ^ a b Clouard & Bonneville 2004, p. 222.
  31. ^ Clouard & Bonneville 2004, p. 223.
  32. ^ Johnson & Malahoff 1971, p. 3286.
  33. ^ Bideau & Hekinian 2004, p. 344.
  34. ^ a b c Stoffers et al. 1989, p. 109.
  35. ^ Hekinian et al. 1991, p. 2115.
  36. ^ a b Hekinian et al. 1991, p. 2136.
  37. ^ a b c Stoffers 1993, p. 20.
  38. ^ Stoffers et al. 1989, p. 111.
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  40. ^ Hekinian et al. 1991, p. 2117.
  41. ^ Chauvel et al. 1997, p. 133.
  42. ^ Suetsugu & Hanyu 2013, p. 268.
  43. ^ Stoffers 1993, p. 18.
  44. ^ Bonneville et al. 2002, p. 1023.
  45. ^ Stoffers 1993, p. 16.
  46. ^ "Macdonald". Global Volcanism Program. Smithsonian Institution.
  47. ^ "Report on Macdonald (Undersea Features)". Bulletin of the Global Volcanism Network. 32 (1). 2007. doi:10.5479/si.gvp.bgvn200701-333060.
  48. ^ a b Bideau & Hekinian 2004, p. 313.
  49. ^ Binard et al. 2004, p. 175.
  50. ^ Lassiter, J.C; Blichert-Toft, J; Hauri, E.H; Barsczus, H.G (2003). "Isotope and trace element variations in lavas from Raivavae and Rapa, Cook–Austral islands: constraints on the nature of HIMU- and EM-mantle and the origin of mid-plate volcanism in French Polynesia". Chemical Geology. 202 (1–2): 116. Bibcode:2003ChGeo.202..115L. doi:10.1016/j.chemgeo.2003.08.002.
  51. ^ a b Chemine'e et al. 1991, p. 322.
  52. ^ Talandier 2004, p. 69.
  53. ^ Bideau & Hekinian 2004, p. 312.
  54. ^ a b Huber et al. 1990, p. 181.
  55. ^ Stüben, Doris; Stoffers, Peter; Cheminée, Jean-L; Hartmann, Martin; McMurtry, Gary M; Richnow, Hans-Hermann; Jenisch, Angela; Michaelis, Walter (1992). "Manganese, methane, iron, zinc, and nickel anomalies in hydrothermal plumes from Teahitia and Macdonald volcanoes". Geochimica et Cosmochimica Acta. 56 (10): 3703. Bibcode:1992GeCoA..56.3693S. doi:10.1016/0016-7037(92)90162-c.
  56. ^ Stoffers et al. 1989, p. 104,107.
  57. ^ a b Bideau & Hekinian 2004, p. 311.
  58. ^ Rubin & Macdougall 1989, p. 51.
  59. ^ Thießen, O.; Schmidt, M.; Botz, R.; Schmitt, M.; Stoffers, P. (2004). "Methane Venting into the Water Column Above the Pitcairn and the Society — Austral Seamounts, South Pacific". Oceanic Hotspots. p. 426. doi:10.1007/978-3-642-18782-7_14. ISBN 978-3-642-62290-8.
  60. ^ L., Cohen, Bernard; Anne, Kaulfuss; Carsten, Lüter (1 May 2014). "Craniid brachiopods: aspects of clade structure and distribution reflect continental drift (Brachiopoda: Craniiformea)". Zoological Journal of the Linnean Society. 171 (1): 144. doi:10.1111/zoj12121. ISSN 0024-4082.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  61. ^ Stoffers et al. 1989, p. 108.
  62. ^ Molodtsova, T.; Budaeva, N. (2007-11-01). "Modifications of corallum morphology in black corals as an effect of associated fauna". Bulletin of Marine Science. 81 (3): 478.
  63. ^ Binard et al. 2004, p. 173.

Sources edit

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  • Huber, R.; Stotters, P.; Cheminee, J. L.; Richnow, H. H.; Stetter, K. O. (10 May 1990). "Hyperthermophilic archaebacteria within the crater and open-sea plume of erupting Macdonald Seamount". Nature. 345 (6271): 179–182. Bibcode:1990Natur.345..179H. doi:10.1038/345179a0. S2CID 4333955.
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December 15, 2023
macdonald, seamount, named, after, gordon, macdonald, seamount, polynesia, southeast, austral, islands, neighbourhood, system, seamounts, that, include, ngatemato, seamounts, taukina, seamounts, rises, metres, from, seafloor, depth, about, metres, flat, height. Macdonald seamount named after Gordon A Macdonald is a seamount in Polynesia southeast of the Austral Islands and in the neighbourhood of a system of seamounts that include the Ngatemato seamounts and the Taukina seamounts It rises 4 200 metres 13 800 ft from the seafloor to a depth of about 40 metres 130 ft and has a flat top but the height of its top appears to vary with volcanic activity There are some subsidiary cones such as Macdocald seamount The seamount was discovered in 1967 and has been periodically active with gas release and seismic activity since then There is hydrothermal activity on Macdonald and the vents are populated by hyperthermophilic bacteria Macdonald seamountSouth Pacific OceanSummit depth40mHeightVariesLocationLocationSouth Pacific OceanCoordinates28 58 7 S 140 15 5 W 28 9783 S 140 2583 W 28 9783 140 2583 1 GeologyTypeSeamountLast eruption1987 89HistoryDiscovery date1967Macdonald seamount is the currently active volcano of the Macdonald hotspot a volcanic hotspot that has formed this seamount and some other volcanoes Eruptions occurred in 1967 1977 1979 1983 and 1987 1989 and earthquakes were recorded in 2007 The activity which has produced basaltic rocks has modified the shape of the volcano and may lead to the formation of an island in the future Contents 1 Discovery and name 2 Geography and geology 2 1 Regional setting 2 2 Local setting 2 3 Composition 3 Eruptions 3 1 1989 events 3 2 Future birth of an island 3 3 Hydrothermal system 4 Biology 5 References 5 1 SourcesDiscovery and name editMacdonald seamount was discovered in 1967 when hydrophones noted earthquake activity in the area 2 The seamount was named in 1970 after Gordon A Macdonald 3 It is also known as Tamarii 4 while MacDonald appears to be an incorrect capitalization 3 Geography and geology editRegional setting edit Further information Macdonald hotspot The Pacific Ocean is characterized by long island chains which typically extend from the southeast to the northwest in direction of the motion of the Pacific Plate Often such chains begin in the southeast with volcanoes such as Hawaii that become progressively more eroded northwestward and eventually end as series of atolls This has led to the suggestion that they are formed by deep sources over which the Pacific Plate drifts and eventually carries the volcano away from its magma source 5 These sources are known as hotspots and their total number has been estimated to be between 42 and 117 6 Hotspots may also be formed by cracks propagating in the crust and such hotspots would not necessarily show an age progression 7 Local setting edit Macdonald seamount is located off the southeastern end of the Austral Islands 8 The Austral Islands extend away from the southern Cook Islands to Iles Maria and eventually Marotiri southeastward 5 including the islands Rimatara Rurutu Tubuai Raivavae and Rapa 9 A relatively large gap separates Marotiri from the Macdonald volcano 10 The Ngatemato seamounts and Taukina seamounts lie north of Macdonald 11 they are considerably older and appear to have a very different origin 12 Even farther southeast lies the Foundation seamount chain 13 and the associated hotspot may have generated some of the seamounts close to Macdonald 14 The seamount lies close to the southeastern end of an area of shallower ocean which extends northwestward towards Marotiri 15 and includes Annie seamount Simone seamount and President Thiers Bank 16 The 3 000 metres 9 800 ft high Ra seamount named after Polynesian term for sun rises 100 kilometres 62 mi northwest of Macdonald to a depth of 1 040 metres 3 410 ft it is apparently an extinct volcano and may have once emerged above sea level 17 A smaller seamount Macdocald rises from the southern foot of Macdonald 850 metres 2 790 ft to depths of 3 150 metres 10 330 ft 18 Additional small seamounts that appear to have formed at the East Pacific Rise are also found in the area 19 The crust beneath Macdonald is of Eocene age 4 and away from the area of shallower ocean it is covered with hills and sediment 20 Macdonald seamount rises 4 200 metres 13 800 ft from the seafloor to a depth of about 40 metres 130 ft below sea level 21 surveys in 1979 found a pinnacle reaching to a depth of 49 metres 161 ft below sea level 22 and a 150 by 100 metres 490 ft 330 ft wide summit plateau with small 6 metres 20 ft high and 3 metres 9 8 ft wide spatter cones 23 Other sources indicate a surface area of 2 4 square kilometres 0 93 sq mi for the summit plateau 24 Ongoing volcanic activity may have modified the topography of the summit of Macdonald between surveys in 1975 and 1982 forming another elliptical pinnacle reaching a depth of 29 metres 95 ft at the northwestern margin of the plateau and raising the summit plateau to depths of 50 34 metres 164 112 ft 23 By the time of a new survey in 1986 the pinnacle had been replaced by a pile of rocks which only reached a depth of 42 metres 138 ft 25 The upper parts of the edifice are covered by 50 centimetres 20 in thick lapilli with lava flows underneath Some hydrothermal alteration products are also found 17 and a thick ash cover occurs to depths of 2 000 metres 6 600 ft 26 Aside from these lapilli deposits scoriaceous lava flows are exposed on the edifice as well 27 Farther down lava flow fronts form scarps which become particularly noticeable at depths of 620 1 000 metres 2 030 3 280 ft except on the northern flank Even deeper pillow lavas predominate 28 Below the summit area the slopes fall down steeply to a depth of 600 metres 2 000 ft and then flatten out 17 Save for a debris covered ridge to the northwest Macdonald has a circular shape 29 with a width of 45 kilometres 28 mi at a depth of 3 900 metres 12 800 ft The slopes of Macdonald display radial ridges which may reflect tectonically controlled rift zones as well as isolated parasitic cones 17 The volume of the whole edifice has been estimated to be 820 cubic kilometres 200 cu mi 24 Macdonald seamount bears traces of landslides including collapse scars up on the edifice and smooth terrain formed by debris on its lower slopes 30 collapses have been inferred on the eastern southern western and northwestern flank 31 The seafloor further shows evidence of turbidity currents including ripples 30 Geomagnetic analysis of the edifice has demonstrated the existence of a normally magnetized structure at the base of the volcano and an additional anomaly which seems to be the magma chamber at a depth of 2 kilometres 1 2 mi within the edifice close to the northern flank 32 Data obtained in gabbroic rocks expelled by the volcano during its eruptions also suggest that another magma reservoir exists at depths of 5 kilometres 3 1 mi that is within the crust beneath Macdonald 33 Composition edit Macdonald has principally erupted basalt This basalt contains phenocrysts of clinopyroxene olivine and especially plagioclase 34 Additional rocks are basanite mugearite 26 picrite 35 and tephrite 36 The overall composition is alkaline 4 and nephelinic 37 Rock debris found on Macdonald seamount includes intrusive rocks such as gabbro metadolerite picrite and pyroxenite 28 the gabbros appear to originate from slow crystallization of basaltic magma 38 within a magma reservoir followed by low temperature alteration 39 Such rocks were uprooted by explosive activity In addition hydrothermal and thermal alteration has formed amphibole chlorite epidote phyllosilicates pyrite quartz and smectite 34 with additional components including albite biotite labradorite leucodiorite and orthopyroxene 40 The vulcanites are typical ocean island basalts 41 whose alkaline nature is unlike the tholeiite that is found on other hotspot volcanoes such as Hawaii Iceland and Reunion In these volcanoes alkaline lavas are erupted in the post shield stage but Macdonald is clearly a developing volcano and further research is needed to explain the chemical history of Macdonald 42 These magmas in the case of Macdonald were derived from the partial melting of spinel lherzolite and further influenced by fractional crystallization 36 and carbon dioxide 37 but with no influence of the overlying plate 43 Eruptions editMacdonald is the only known active volcano in the Cook Islands and Austral Islands 44 unlike in the Society Islands where active volcanism is spread over several volcanoes 45 The first recorded eruptions at Macdonald occurred in 1967 and was followed by additional activity in 1977 2 although pumice rafts observed in 1928 and 1936 could have been formed by the seamount as well 46 These eruptions were recorded with hydrophones further such activity occurred 1979 1983 Some eruptions especially eruptions on the southern flank or within a crater would have passed unnoticed 22 Additional eruptions at Macdonald occurred between June 1987 December 1988 21 and a seismic swarm probably unassociated with eruptions occurred in 2007 47 Eruptions at Macdonald include phreatic and phreatomagmatic activity which led to the formation of lapilli and lava bombs and also to the hydrophone signals but also effusive eruptions forming lava flows 34 Volcanic activity is not steady with prolonged pauses observed between eruptions 48 Macdonald seamount is among the most active submarine volcanoes in the world 21 and the most active on the floor of the Pacific Ocean 49 Radiometric dating of rocks dredged from Macdonald has yielded two separate clusters of ages one less than two million years old and the second about 30 million years 50 1989 events edit Several eruptions occurred in 1989 when a scientific expedition was underway on the seamount These eruptions were accompanied by the discolouration of the water over 1 6 kilometres 1 mi of length the release of burning hydrogen and hydrogen sulfide 21 accompanied by the formation of a plume of hydrothermally altered water 8 The submarine Cyana observed activity directly in one summit crater in the form of intense bubbling 51 while steam and water fountains were seen on the ocean surface 21 Grey coloured slicks developed on the ocean surface 51 which were formed by pyrite sulfur and volcanic glass plus smaller amounts of cinnabar cubatine and quenstedtite 8 The events caused changes in the pH of the water on the seamount and increased methane concentrations 1 Future birth of an island edit Macdonald likely formed an island during the last glacial maximum when sea level was lower 48 and future eruptions at Macdonald may lead to the birth of an island even with present day sea levels Such an eruption would have to be fairly large and continuous otherwise the resulting island will likely be eroded away quickly 52 Depending on how quickly erosion and other factors reduce its size such an island will likely be temporary 53 Hydrothermal system edit Macdonald seamount is hydrothermally active 54 with several hydrothermal vents inferred to exist on the western flank 55 A 2 3 metres 6 ft 7 in 9 ft 10 in wide eruption fissure was observed to be hydrothermally active in 1989 56 Further the volcano releases gases including carbon dioxide methane and sulfur dioxide Such release occurs in the summit area 57 in the so called Champagne Field 37 but also from a second crater at 2 000 metres 6 600 ft depth in the southeastern flank 57 Macdonald volcano may be a major source of heavy metals for the area 58 The methane appears to be partially of biological origin and partly abiogenic 59 Biology editHyperthermophilic bacteria have been found on Macdonald including Archaeoglobus Pyrococcus Pyrodictium and Thermococcus as well as previously undescribed species These bacterial communities contain both hydrogen or sulfur consuming autotrophs and heterotrophs and appear to be capable of long range propagation considering that relatives of the species found are known from Vulcano in Italy 54 Aside from hyperthermophiles craniids 60 corals 61 polynoids 62 and sponges have been found in the summit area of Macdonald 63 References edit a b Huber et al 1990 p 180 a b Talandier amp Okal 1984 p 813 a b Morgan amp Morgan 2007 p 59 a b c Rubin amp Macdougall 1989 p 50 a b Johnson amp Malahoff 1971 p 3282 Stoffers et al 1989 p 101 Jarrard amp Clague 1977 p 74 a b c Chemine e et al 1991 p 319 Johnson amp Malahoff 1971 p 3283 Johnson amp Malahoff 1971 p 3289 Bonneville et al 2002 p 1024 McNutt et al 1997 p 480 Mammerickx J 1992 The Foundation Seamounts tectonic setting of a newly discovered seamount chain in the South Pacific Earth and Planetary Science Letters 113 3 293 306 Bibcode 1992E amp PSL 113 293M doi 10 1016 0012 821x 92 90135 i Morgan amp Morgan 2007 p 58 Stoffers et al 1989 p 103 Binard et al 2004 p 176 a b c d Stoffers et al 1989 p 104 Binard et al 2004 p 178 Binard et al 2004 p 196 Hekinian et al 1991 p 2112 a b c d e Chemine e et al 1991 p 318 a b Talandier amp Okal 1984 p 814 a b Talandier amp Okal 1984 p 815 a b Binard et al 2004 p 160 Talandier 2004 p 65 a b Binard et al 2004 p 177 Bideau amp Hekinian 2004 p 315 a b Stoffers et al 1989 p 107 Johnson amp Malahoff 1971 p 3285 a b Clouard amp Bonneville 2004 p 222 Clouard amp Bonneville 2004 p 223 Johnson amp Malahoff 1971 p 3286 Bideau amp Hekinian 2004 p 344 a b c Stoffers et al 1989 p 109 Hekinian et al 1991 p 2115 a b Hekinian et al 1991 p 2136 a b c Stoffers 1993 p 20 Stoffers et al 1989 p 111 Bideau amp Hekinian 2004 p 343 Hekinian et al 1991 p 2117 Chauvel et al 1997 p 133 Suetsugu amp Hanyu 2013 p 268 Stoffers 1993 p 18 Bonneville et al 2002 p 1023 Stoffers 1993 p 16 Macdonald Global Volcanism Program Smithsonian Institution Report on Macdonald Undersea Features Bulletin of the Global Volcanism Network 32 1 2007 doi 10 5479 si gvp bgvn200701 333060 a b Bideau amp Hekinian 2004 p 313 Binard et al 2004 p 175 Lassiter J C Blichert Toft J Hauri E H Barsczus H G 2003 Isotope and trace element variations in lavas from Raivavae and Rapa Cook Austral islands constraints on the nature of HIMU and EM mantle and the origin of mid plate volcanism in French Polynesia Chemical Geology 202 1 2 116 Bibcode 2003ChGeo 202 115L doi 10 1016 j chemgeo 2003 08 002 a b Chemine e et al 1991 p 322 Talandier 2004 p 69 Bideau amp Hekinian 2004 p 312 a b Huber et al 1990 p 181 Stuben Doris Stoffers Peter Cheminee Jean L Hartmann Martin McMurtry Gary M Richnow Hans Hermann Jenisch Angela Michaelis Walter 1992 Manganese methane iron zinc and nickel anomalies in hydrothermal plumes from Teahitia and Macdonald volcanoes Geochimica et Cosmochimica Acta 56 10 3703 Bibcode 1992GeCoA 56 3693S doi 10 1016 0016 7037 92 90162 c Stoffers et al 1989 p 104 107 a b Bideau amp Hekinian 2004 p 311 Rubin amp Macdougall 1989 p 51 Thiessen O Schmidt M Botz R Schmitt M Stoffers P 2004 Methane Venting into the Water Column Above the Pitcairn and the Society Austral Seamounts South Pacific Oceanic Hotspots p 426 doi 10 1007 978 3 642 18782 7 14 ISBN 978 3 642 62290 8 L Cohen Bernard Anne Kaulfuss Carsten Luter 1 May 2014 Craniid brachiopods aspects of clade structure and distribution reflect continental drift Brachiopoda Craniiformea Zoological Journal of the Linnean Society 171 1 144 doi 10 1111 zoj12121 ISSN 0024 4082 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Stoffers et al 1989 p 108 Molodtsova T Budaeva N 2007 11 01 Modifications of corallum morphology in black corals as an effect of associated fauna Bulletin of Marine Science 81 3 478 Binard et al 2004 p 173 Sources edit Bideau D Hekinian R 2004 Intraplate Gabbroic Rock Debris Ejected from the Magma Chamber of the Macdonald Seamount Austral Hotspot Comparison with Other Provinces Oceanic Hotspots pp 309 348 doi 10 1007 978 3 642 18782 7 11 ISBN 978 3 642 62290 8 Binard N Hekinian R Stoffers P Cheminee J L 2004 South Pacific Intraplate Volcanism Structure Morphology and Style of Eruption Oceanic Hotspots pp 157 207 doi 10 1007 978 3 642 18782 7 6 ISBN 978 3 642 62290 8 Bonneville Alain Suave Raymond Le Audin Laurence Clouard Valerie Dosso Laure Gillot Pierre Yves Janney Philip Jordahl Kelsey Maamaatuaiahutapu Keitapu 1 November 2002 Arago Seamount The missing hotspot found in the Austral Islands Geology 30 11 1023 1026 Bibcode 2002Geo 30 1023B doi 10 1130 0091 7613 2002 030 lt 1023 ASTMHF gt 2 0 CO 2 ISSN 0091 7613 S2CID 130183862 Chauvel C McDonough W Guille G Maury R Duncan R 1997 Contrasting old and young volcanism in Rurutu Island Austral chain Chemical Geology 139 1 4 125 143 Bibcode 1997ChGeo 139 125C doi 10 1016 s0009 2541 97 00029 6 Chemine e J L Stoffers P McMurtry G Richnow H Puteanus D Sedwick P 1 November 1991 Gas rich submarine exhalations during the 1989 eruption of Macdonald Seamount Earth and Planetary Science Letters 107 2 318 327 Bibcode 1991E amp PSL 107 318C doi 10 1016 0012 821X 91 90079 W Clouard V Bonneville A 2004 Submarine Landslides in French Polynesia Oceanic Hotspots Springer Berlin Heidelberg pp 209 238 doi 10 1007 978 3 642 18782 7 7 ISBN 9783642622908 Hekinian Roger Bideau Daniel Stoffers Peter Cheminee Jean Louis Muhe Richard Puteanus Doris Binard Nicolas 1991 Submarine intraplate volcanism in the South Pacific Geological setting and petrology of the society and the austral regions Journal of Geophysical Research 96 B2 2109 Bibcode 1991JGR 96 2109H doi 10 1029 90JB02139 Huber R Stotters P Cheminee J L Richnow H H Stetter K O 10 May 1990 Hyperthermophilic archaebacteria within the crater and open sea plume of erupting Macdonald Seamount Nature 345 6271 179 182 Bibcode 1990Natur 345 179H doi 10 1038 345179a0 S2CID 4333955 Jarrard Richard D Clague David A 1977 Implications of Pacific Island and seamount ages for the origin of volcanic chains Reviews of Geophysics 15 1 57 Bibcode 1977RvGSP 15 57J doi 10 1029 RG015i001p00057 Johnson Rockne H Malahoff Alexander 10 May 1971 Relation of Macdonald Volcano to migration of volcanism along the Austral Chain Journal of Geophysical Research 76 14 3282 3290 Bibcode 1971JGR 76 3282J doi 10 1029 JB076i014p03282 ISSN 2156 2202 McNutt M K Caress D W Reynolds J Jordahl K A Duncan R A 2 October 1997 Failure of plume theory to explain midplate volcanism in the southern Austral islands Nature 389 6650 479 482 Bibcode 1997Natur 389 479M doi 10 1038 39013 ISSN 0028 0836 S2CID 205026871 Morgan W Jason Morgan Jason Phipps 2007 Plate velocities in hotspot reference frame electronic supplement geosociety org doi 10 1130 2007090 Rubin K H Macdougall J D 7 September 1989 Submarine magma degassing and explosive magmatism at Macdonald Tamarii seamount Nature 341 6237 50 52 Bibcode 1989Natur 341 50R doi 10 1038 341050a0 S2CID 4334110 Stoffers P Botz R Cheminee J L Devey C W Froger V Glasby G P Hartmann M Hekinian R Kogler F Laschek D Larque P Michaelis W Muhe R K Puteanus D Richnow H H 1 June 1989 Geology of Macdonald Seamount region Austral Islands Recent hotspot volcanism in the south Pacific Marine Geophysical Researches 11 2 101 112 Bibcode 1989MarGR 11 101S doi 10 1007 BF00285661 ISSN 0025 3235 S2CID 130515595 Stoffers P 1993 Active submarine hotspot volcanism Proceedings of the 4th Hellenic Symposium on Oceanography and Fisheries Retrieved 14 April 2019 Suetsugu Daisuke Hanyu Takeshi 2013 Origin of hotspots in the South Pacific Recent advances in seismological and geochemical models Geochemical Journal 47 2 259 284 Bibcode 2013GeocJ 47 259S doi 10 2343 geochemj 2 0229 Talandier J 2004 Seismicity of the Society and Austral Hotspots in the South Pacific Seismic Detection Monitoring and Interpretation of Underwater Volcanism Oceanic Hotspots Springer Berlin Heidelberg pp 29 71 doi 10 1007 978 3 642 18782 7 3 ISBN 9783642622908 Talandier Jacques Okal Emile A 1 September 1984 New surveys of MacDonald Seamount southcentral Pacific following volcanoseismic activity 1977 1983 Geophysical Research Letters 11 9 813 816 Bibcode 1984GeoRL 11 813T doi 10 1029 GL011i009p00813 ISSN 1944 8007 Retrieved from https en wikipedia org w index php title Macdonald seamount amp oldid 1181795741, 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