Granophyre
Granophyre (/ˈɡrænəfaɪər/ GRAN-ə-fire;[1][2] from granite and porphyry) is a subvolcanic rock that contains quartz and alkali feldspar in characteristic angular intergrowths such as those in the accompanying image.
The texture is called granophyric. The texture can be similar to micrographic texture and to the coarser graphic intergrowths of quartz and alkali feldspar common in pegmatite. These textures document simultaneous crystallization of quartz and feldspar from a silicate melt at the eutectic point, perhaps in the presence of a water-rich phase. They may also be formed by crystallization when the magma is significantly undercooled, not necessarily under eutectic conditions.[3]
Granophyres typically are intrusive rocks that crystallized at shallow depths, and many have compositions similar to those of granites.[4] A common occurrence of granophyre is within layered igneous intrusions dominated by rocks with compositions like that of gabbro. In such occurrences, the granophyre may form as an end product of fractional crystallization of a parent mafic magma, or by melting of rocks into which the mafic magma was emplaced, or by a combination of the two processes.
Granophyre may also form as the uppermost stratigraphic layer resulting from melting of upper-middle crustal rocks by a meteorite impact. For example, the upper layer of the Main Mass of the 1850 Ma Sudbury Structure is composed of fine-medium grained granitic rocks with abundant granophyric textures.
See also
- Micrographic texture
- Rock microstructure – The texture of a rock and the small scale rock structures
- Granite – common type of intrusive, felsic, igneous rock with granular structure
- Eutectic
- Solidus
References
- "Granophyre". Oxford Dictionaries UK Dictionary. Oxford University Press. Retrieved 2016-01-23.
- "Granophyre". Merriam-Webster Dictionary. Retrieved 2016-01-23.
- Lowenstern, J.B.; Clynne M.A.; Bullen T.D. (1997). "Comagmatic A-Type Granophyre and Rhyolite from the Alid Volcanic Center, Eritrea, Northeast Africa" (PDF). Journal of Petrology. Oxford University Press. 38 (12): 1707–1721. doi:10.1093/petroj/38.12.1707. Retrieved 7 July 2012.
- McDonnell, S.; Troll, V. R.; Emeleus, C. H.; Meighan, I. G.; Brock, D.; Gould, R. J. (October 2004). "Intrusive history of the Slieve Gullion ring dyke, Ireland: implications for the internal structure of silicic sub-caldera magma chambers". Mineralogical Magazine. 68 (5): 725–738. doi:10.1180/0026461046850215. ISSN 0026-461X.