Geology of Madagascar explained

The geology of Madagascar comprises a variety of rocks of Precambrian age which make up the larger part of the east and centre of the island. They are intruded by basalts and rhyolites of Mesozoic to Cenozoic age. In contrast, the western part of the island is formed from sedimentary rocks of Carboniferous to Quaternary age. Archean rocks occur from the northeast portion of the island down to the south in the Ranotsara shear zone. Rocks in the northern portion of Madagascar are greenstone belts, from the Archean or Paleoproterozoic age.[1]

Summary

The center and eastern portions of the island consist primarily of metamorphic and igneous Precambrian basement granites, migmatites, and schists, ranging in age from 3 billion to 550 million years old. They are mostly overlain by laterite clays. The Itremo Massif consists of quartzite and marble outcrops 630 million years in age. The Morondava, Mahajanga and Ambilobe sedimentary basins occur along the western third of the island, and consist of terrestrial deposits that range in age from 350 million years ago to recent times. The western margins of Madagascar include Mesozoic and Tertiary limestones. These outcrop in the Ankarana and Bemaraha Massifs, Namoroka, Analamerana, and Ankara Plateau (172-162 million years in age), and the Mahafaly Plateau (54-38 million years in age) respectively. Flood basalts that ring Madagascar include the Mahajanga lavas (87.6 to 88.5 million years in age), the Toliara lavas and Ejeda-Bekily dike swarm (84.5-84.8 million years old), and the Androy lava flow (84.4 million years in age). These igneous rocks were emplaced during the interval when India and Madagascar were together (91 million years ago), and when apart (84 million years ago). More recent volcanic activity includes the formation of the Ankaratra Massif over the past 5 million years, and Montagne d'Ambre, which erupted from 50 to 2 million years ago.[2] [3] [4]

Tectonics

A NW-SE trending sinistral shear belt separates northern and southern crustal terranes. The Ampanihy ductile shear zone was created by flattening events associated with granulite metamorphism, isoclinal folding, flattened sheaths, steep to vertical foliations and sheath-like geometry of massif-type anorthosite bodies.[5]

Paleontology

See also: List of fossiliferous stratigraphic units in Madagascar.

Economic geology

Madagascar is the world's leading producer of many colored gemstones, including sapphires, rubies, multi-coloured tourmalines, emeralds, amethysts, cordierites, aquamarines and garnets. Madagascar is also a major source of graphite, making it the second-largest producer in Africa. Additionally, Madagascar is Africa's third leading producer of chromite.[8] Titanium oxide is found in significant quantities in beach sands located near Toalagnaro, however, 75% of the coastal forest zone in that area would have to be destroyed in order to exploit it, which has not been done.

Huge oil fields lie to the west of Madagascar, however they would require steam injection to extract, which is both technologically difficult and expensive. The oil fields of Tsimiroro and Bemolanga are estimated to hold combined reserves of 11.5 billion barrels.

See also

Notes and References

  1. Web site: Madagascar, geology Extractive Industries Source Book. October 23, 2016. Extractive Industries. March 26, 2018. https://web.archive.org/web/20180326115414/http://www.eisourcebook.org/1235_Madagascar.html. dead.
  2. Book: D.J. Du Puy . J. Moat . Using Geological Substrate to Identify and Map Primary Vegetation Types in Madagascar and the Implications for Planning Biodiversity Conservation . Goodman . Steve . Benstead . Jonathan . The Natural History of Madagascar . 2003 . The University of Chicago Press . Chicago . 9780226303062 . 51–57.
  3. Book: N.A. Wells . Some Hypotheses on the Mesozoic and Cenozoic Paleoenvironmental History of Madagascar . Goodman . Steve . Benstead . Jonathan . The Natural History of Madagascar . 2003 . The University of Chicago Press . Chicago . 9780226303062 . 21–29.
  4. Book: J.J. Flynn . A.R. Wyss . Mesozoic Terrestrial Vertebrate Faunas: The Early History of Madagascar's Vertebrate Diversity . Goodman . Steve . Benstead . Jonathan . The Natural History of Madagascar . 2003 . The University of Chicago Press . Chicago . 9780226303062 . 34–40.
  5. Book: Schlüter, Thomas. [{{Google books|IfvKWpsISTQC|page=144|plainurl=yes}} Geological Atlas of Africa: With Notes on Stratigraphy, Tectonics, Economic Geology, Geohazards, Geosites and Geoscientific Education of Each Country]. Springer Science & Business Media. October 23, 2016. April 19, 2008.
  6. Web site: Ammonoïdes (ammonites) permo-triasiques provenant de Madagascar (collection Collignon de l'Universit CNRS Images . 2024-01-07 . images.cnrs.fr . fr.
  7. Web site: Jurassic ammonites from southwestern Madagascar . 2024-01-07 . Gondwana Fossils . en-GB.
  8. Web site: Extractive Industries: Mining. Extractive Industries. October 23, 2016. March 27, 2018. https://web.archive.org/web/20180327014057/http://www.eisourcebook.org/1478_ExtractiveIndustries.html. dead.