Picrite basalt
Picrite basalt or picrobasalt is a variety of high-magnesium olivine basalt that is very rich in the mineral olivine. It is dark with yellow-green olivine phenocrysts (20-50%) and black to dark brown pyroxene, mostly augite.
The olivine-rich picrite basalts that occur with the more common tholeiitic basalts of Kīlauea and other volcanoes of the Hawaiian Islands are the result of accumulation of olivine crystals either in a portion of the magma chamber or in a caldera lava lake.[1] The compositions of these rocks are well represented by mixes of olivine and more typical tholeiitic basalt.
The name "picrite" can also be applied to an olivine-rich alkali basalt: such picrite consists largely of phenocrysts of olivine and titanium-rich augite pyroxene with minor plagioclase set in a groundmass of augite and more sodic plagioclase and perhaps analcite and biotite.
More generally the classification of fine grained rocks recognises a group known as 'picritic rocks' that are characterised by high magnesium content and low SiO2 content. They fit in the TAS classification system only at the lowest level of Si02 (41 to 43% by weight) and Na2O + K2O (up to 3% by weight). They include picrite, komatiite and meimechite.
Picrites and komatiites are somewhat similar chemically (defined as >18% MgO), but differ in having 1 to 3% total alkalis and <1% total alkalis respectively. Komatiite lavas are products of more magnesium-rich melts, and good examples exhibit the spinifex texture.[2] They are largely restricted to the Archean. In contrast, picrites are magnesium-rich because crystals of olivine have accumulated in more normal melts by magmatic processes.[1]
Picrite basalt is found in the lavas of Mauna Kea and Mauna Loa in Hawaiʻi[3], Curaçao, in the Piton de la Fournaise[4] volcano on Réunion Island and various other oceanic island volcanoes.
- Picrite basalt has erupted in historical times from Mauna Loa during the eruptions of 1852 and 1868 (from different flanks of Mauna Loa).[5]
- Picrite basalt with 30% olivine commonly erupts from the Piton de la Fournaise.[6]
In addition to extrusive occurrences, it also occurs in minor intrusions.
Oceanite
[edit]Oceanite is a variety of picritic basalt characterized by its large amounts of olivine phenocrysts and lesser amounts of augite and by having a groundmass of olivine, plagioclase and augite. The term was coined by Antoine Lacroix in 1923 for rare basalts with more than 50% olivine.[7]
Common uses
[edit]Olivine basalt is commonly used by foundries, boilermakers and boiler users to protect the area around a burner tip or to protect a floor from molten metal and other slag. It's use in this fashion is appropriate since olivine is a highly refractory, high-melting-temperature mineral.[2][3]
References
[edit]- ^ Vozniak, Alexey A.; Kopylova, M.G.; Peresetskaya, Ekaterina; Nosova, Anna; Sazonova, L.V.; Anosova, M.O. (2022). "Olivine in Lamprophyres of the Kola Alkaline Province: Insights into the Magmatic Evolution of Olivine in Carbonate Melts". SSRN Electronic Journal. doi:10.2139/ssrn.4169719. ISSN 1556-5068.
- ^ moshiri, hossien (30 October 2023). "Olivine Sand Metal foundry-". Iran Chemkraft Representative Office. Retrieved 12 December 2024.
- ^ Huo, Yonglin; Qin, Guilu; Huo, Jichuan; Zhang, Xingquan; Zhu, Yongchang (2022). "Crystallization Kinetics of Basalt Glass-Ceramics Produced from Olivine Basalt Rock". Crystals. 12 (7): 899. doi:10.3390/cryst12070899. ISSN 2073-4352.
- ^ Carmichael, Ian S. E.; Turner, Francis J.; Verhoogen, John (1974). Igneous Petrology. McGraw-Hill. pp. 406–426.
- ^ Metrich, Nicole; Pineau, Françoise; Javoy, Marc (1988). "Volatiles: Mantle Source Characterization and Degassing Process for Hot Spot Volcanism - The Piton de la Fournaise (Reunion Island) Example". Archived from the original on 8 November 2005.
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(help) - ^ Kerr, A. C. (1997). "What is the difference between a komatiite and a picrite?". Archived from the original on 22 June 2004..
- ^ Le Maitre, L. E., ed. (2002). Igneous Rocks: A Classification and Glossary of Terms (2nd ed.). Cambridge. p. 118.
- ^ Rhodes, J. M. (1995). "The 1852 and 1868 Mauna Loa Picrite Eruptions". Geophysical Monograph Series. 92. American Geophysical Union. Retrieved 18 February 2006.
- Wilkinson, J. F. G.; Hensel, H. D. (1988). "The petrology of some picrites from Mauna Loa and Kilauea volcanoes, Hawaii". Contributions to Mineralogy and Petrology. 98 (3): 326–345. Bibcode:1988CoMP...98..326W. doi:10.1007/bf00375183. S2CID 115132181.
- ^ Williams, Howel; Turner, Francis J.; Gilbert, Charles M. (1954). Petrography. W. H. Freeman. pp. 40–41.