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Flood basalt

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Moses Coulee in the US showing multiple flood basalt flows of the Columbia River Basalt Group. The upper basalt is Roza Member, while the lower canyon exposes Frenchmen Springs Member basalt

A flood basalt is the result of a giant volcanic eruption or series of eruptions that coats large stretches of land or the ocean floor with basalt lava. Flood basalt provinces are often called traps, which derives from the characteristic stairstep morphology of many associated landscapes. Eleven distinct flood basalt episodes occurred in the past 250 million years, resulting in large volcanic provinces, creating plateaus and mountain ranges on Earth. Large igneous provinces have been connected to five mass extinction events. The timing of six out of eleven known provinces coincide with episodes of global warming and marine anoxia/dysoxia. Thus, suggesting that volcanic CO2 emissions can force an important effect on the climate system.

Formation

One proposed explanation for flood basalts is that they are caused by the combination of continental rifting and its associated decompression melting, in conjunction with a mantle plume also undergoing decompression melting, producing vast quantities of a tholeiitic basaltic magma. These have a very low viscosity, which is why they 'flood' rather than form taller volcanoes. Another explanation is that they result from the release, over a short time period, of melt that has accumulated in the mantle over a long time period.

The Deccan Traps of central India, the Siberian Traps, and the Columbia River Plateau of western North America are three regions covered by prehistoric flood basalts. The largest and best-preserved continental flood basalt terrain on Earth is part of the Mackenzie Large Igneous Province in Canada. The maria on the Moon are additional, even more extensive, flood basalts. Flood basalts on the ocean floor produce oceanic plateaus.

The surface covered by one eruption can vary from around 200,000 km² (Karoo) to 1,500,000 km² (Siberian Traps). The thickness can vary from 2000 metres (Deccan Traps) to 12,000 m (Lake Superior). These are smaller than the original volumes due to erosion.

Petrography

Ethiopian Highlands basalt

Flood basalts have tholeiite and olivine compositions (according to the classification of Yoder and Tilley). The composition of the basalts from the Paraná is fairly typical of that of flood basalts; it contains phenocrysts occupying around 25% of the volume of rock, trapped in volcanic glass. These phenocrysts are pyroxenes (augite and pigeonite), plagioclases, opaque crystals such as titanomagnetite or ilmenite, and occasionally some olivine. Sometimes more differentiated volcanic products such as andesites, dacites and rhyodacites have been observed, but only in small quantities at the top of former magma chambers.

Structures

Subaerial flood basalts can be of two kinds :

  • with a smooth or twisted surface : very compact surface; vesicles (gas bubbles) are rare. Degassing was easy (magma maintained at a high temperature and more fluid in a chamber of a size such that confining pressures did not confine gases to the melt before expulsion). Such lava flows may form underground rivers; when degassing fractures and conduits are present, very large flows may reach the surface.
  • with a chaotic surface : the basalt flood is very rich in bubbles of gas, with an irregular, fragmental surface. Degassing was difficult (less fluid magma expelled from a rift with no chance of progressive expansion in a hot chamber; the degassing took place closer to the surface where the flow forms a crust which cracks under the pressure of the gases in the flow itself and during more rapid cooling).

In the Massif Central in Auvergne, France, there is a good example of chaotic lava flow, produced by eruptions from Puy de la Vache and Puy de Lassolas.

At depth, flows can crystallise more slowly, producing columnar jointing.

Geochemistry

Multiple flood basalt flows of the Chilcotin Group, British Columbia, Canada

Geochemical analysis of the major oxides reveals a composition close to that of mid-ocean ridge basalts (MORB) but also close to that of ocean island basalts (OIB). These are in fact tholeiites with a silicon dioxide percentage close to 50%.

Two kinds of basaltic floods basalts can be distinguished :

  • those poor in P2O5 and in TiO2, called LPT (low phosphorus and titanium)
  • those rich in P2O5 and in TiO2, called HPT (high phosphorus and titanium)

The isotopic ratios Sr/Sr and Pb/Pb are different from that observed in general, which shows that the basalt flood magma was contaminated as it passed through the continental crust. It is this contamination that explains the difference between the two kinds of basalt mentioned above. The LPT type has an excess of elements from the crust such as potassium and strontium.

The content in incompatible elements of basaltic floods is lower than that of ocean island basalts, but higher than that of mid-ocean ridge basalts.

Other occurrences and implications

  • Basalt floods on the planet Venus are larger than those on Earth (see: Volcanism on Venus). Their study may help understand the mechanisms responsible for these major geological events.

List of flood basalts

See also: World's largest eruptions

Representative continental flood basalts (also known as traps) and oceanic plateaus, together forming a listing of large igneous provinces:

  1. Chilcotin Group (south-central British Columbia, Canada)
  2. High Arctic Large Igneous Province
  3. Columbia-Snake River flood basalts (see Columbia River Basalt Group)
  4. Ethiopian and Yemen traps in the Ethiopian Highlands
  5. Viluy traps
  6. Pre-Devonian traps
  7. North Atlantic Volcanic Province
  8. Emeishan Traps (western China)
  9. Deccan Traps (India) 66 million years ago (end of Cretaceous period)
  10. Caribbean large igneous province
  11. Mackenzie Large Igneous Province
  12. Kerguelen Plateau
  13. Ontong Java–Manihiki–Hikurangi Plateau
  14. Paraná and Etendeka traps (Brazil-Namibia)
  15. Karoo and Ferrar provinces (South Africa-Antarctica)
  16. Central Atlantic Magmatic Province
  17. Siberian Traps (Russia) 251 million years ago (end of Permian)

See also

References

  1. http://pubs.giss.nasa.gov/docs/1988/1988_Rampino_Stothers_1.pdf "Flood Basalt Volcanism During the Past 250 Million Years" (PDF). Science. 241 (4866): 663–668. 1988. doi:10.1126/science.241.4866.663. {{cite journal}}: Check |url= value (help); Unknown parameter |authors= ignored (help)
  2. P.B. Wignall (2001). "Large igneous provinces and mass extinctions". Earth-Science Reviews. 53 (1–2): 1–33. doi:10.1016/S0012-8252(00)00037-4.
  3. Foulger, G.R. (2010). Plates vs. Plumes: A Geological Controversy. Wiley-Blackwell. ISBN 978-1-4051-6148-0.
  4. Muskox Property - The Muskox Intrusion
  5. Sur l'âge des trapps basaltiques (On the ages of flood basalt events); Vincent E. Courtillota & Paul R. Renneb; Comptes Rendus Geoscience; Vol: 335 Issue: 1, January, 2003; pp: 113-140
  6. Brian Taylor (31 January 2006). "The single largest oceanic plateau: Ontong Java-Manihiki-Hikurangi". Earth and Planetary Science Letters. 241 (3–4): 372–380. Bibcode:2006E&PSL.241..372T. doi:10.1016/j.epsl.2005.11.049. Retrieved 2007-05-22. Summary.
  • White, R.S. and McKenzie, D.P., 1989, Magmatism at rift zones: The generation of volcanic continental margins and flood basalts. J. Geophys. Res.,94, 7685-7729.
Types of basalts
Basalts by tectonic setting
Basalts by form and flow
Basalts by chemistry
Important minerals
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