TEXTURE OF IGNEOUS ROCKS[1].pptx
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About This Presentation
Introduction
Descriptive parameters of texture
Equigranular texture
Inequigranular texture
Directive texture
Intergrowth texture
Exsolution texture
Devitrification
Conclusion
Slide Content
TEXTURE OF IGNEOUS ROCKS -Komal Mohanty
CONTENT Introduction Descriptive parameters of texture Equigranular texture Inequigranular texture Directive texture Intergrowth texture Exsolution texture Devitrification Conclusion
INTRODUCTION Texture is the intimate mutual relations of the mineral constituents and glassy matter in a rock made up of a uniform aggregate. It is best studied in thin sections under transmitted light microscope but can also be interpreted megascopically . They indicate the geological processes that were in operation during the cooling and solidification of igneous rocks.
DESCRIPTIVE PARAMETERS OF TEXTURE 1 . Crystallinity : It is the ratio between crystallised and non-crystallised matter. There are generally 3 categories of crystallinity: Holocrystalline -When a rock is composed entirely of crystals. Example-Granite, Gabbro Holohyaline -When a rock consists entirely of glass. Example-Obsidian, Pitchstone Merocrystalline / Hypocrystalline -When a rock is composed partly of crystals and partly of glass. Example-Rhyolite, Trachyte
Holocrystalline Merocrystalline Holohyaline
2. Granularity : It refers to the absolute size of crystals. Igneous rocks are categorised into: Phenocrystalline -When the individual crystals are visible to naked eye. Aphanetic -If the individual crystals are not visible to naked eye or through a lens. Microcrystalline -When the crystals are distinguishable with aid of a petrological microscope. Cryptocrystalline -When the crystals are too small that can not be distinguished separately Coarse grained -The average crystal diameter is above 5mm. Example-Pegmatite Medium grained -The average crystal diameter is between 1 to 5mm. Example-Syenite Fine grained -The average crystal diameter is less than 1mm. Example-Basalt
FACTORS AFFECTING GRANULARITY Rate of cooling-Slow cooling favours growth of large crystals due to slow diffusion of ions. Viscosity- : If the magma is viscous, it opposes ionic diffusion thereby, hindering crystallisation. Thus, fine-grained or glassy rocks like rhyolite (obsidian) resulted from siliceous viscous magma. Volatile content- : Presence of volatiles, particularly water, in magma reduces the viscosity, but, promotes larger crystal growth.
3. Shape of crystals: The shape of crystals are described in terms of their development with reference to the 3 dimensions of space. Equidimensional -When the development of crystal is more or less equally in all directions. Tabular -Crystals are developed more in two spatial directions than the third. Prismatic -When crystals are comparatively more developed in one direction. Irregular -Crystal development with respect to different directions is not well defined. Euhedral -When the crystal has well developed faces. Subhedral -When the crystal faces are partially developed. Anhedral -Absence of any crystal faces. Anhedral garnet Subhedral pyrite Anhedral quartz
4. Mutual relation of crystals Based on the mutual relation of crystals the texture of igneous rocks are: Equigranular texture Inequigranular texture Directive texture Intergrowth texture Exsolution texture
EQUIGRANULAR TEXTURE When majority of the crystals in the igneous rock are of same relative size, it is called equigranular texture. Panidiomorphic texture -When most of the crystals are euhedral. Example-Lamprophyre Hypidiomorphic texture -When majority of the crystals are subhedral. Example-Granite, Gabbro Allotriomorphic texture -When most of the crystals are anhedral. Example- Aplites Microgranitic texture -It is characteristic of fine grained rocks where shape of grains is subhedral to anhedral. Orthophyric texture -It occurs in fine grained rocks with euhedral grains. Felsitic texture -When the grains are microcrystalline or cryptocrystalline that is the the grains are difficult to distinguish.
INEQUIGRANULAR TEXTURE When the size of crystals vary between wide limits that is the difference between the grain size of individual crystals is very pronounced, it is called inequigranular texture. Porphyritic texture -When the early formed large crystals, phenocrysts are surrounded by later formed fine grained groundmass. Vitrophyric -When the groundmass is glassy. Felsophyric -When the groundmass is cryptocrystalline. Megaporphyritic -When the grains are visible to naked eye. Microporphyritic -When the grains are visible only under microscope. Glomeroporphyritic -The phenocryst is formed by an aggregate of crystals rather than a single individual grain. Porphyritic Granite
Poikilitic texture -Smaller grains( chadacrysts ) are surrounded by larger grains(oikocrysts) Ophitic texture -It is a special type of poikilitic texture where anhedral Augite surrounds laths of Plagioclase. Sub-ophitic texture -When the augite partially encloses plagioclase. Granulo -ophitic -Here the grains of plagioclase are surrounded by a large patch of pyroxene which is made up of a number of pyroxene grains. Hyalophitic texture -It is same as ophitic texture but the plagioclase laths are completely surrounded by glass. Intergranular texture -When the triangular or polygonal interspaces between the crystals are entirely filled with granules of other minerals like olivine or augite. Intersertal texture -When the polygonal spaces between the grains are filled with glass. Seriate texture -When the size of crystals vary gradually from smallest to largest. Ophitic texture
DIRECTIVE TEXTURE/FLOW TEXTURE This type of texture is produced by flow in magma during crystallisation of minerals. During the time of crystallisation when the magma undergoes flow movement, the crystallising minerals tend to arrange in directive bands thus producing flow texture. Trachytic texture -This is typical of volcanic rocks like trachyte. The calcic plagioclase and glassy material show parallel to sub parallel alignment due to magma flow. Hyalopilitic texture -It develops when the plagioclase laths are intergrown with glass to produce a felted mass. Eutaxitic texture -Layered or banded texture in explosive volcanic rocks. It is caused by the compaction and parallel arrangement of glass shards and pumice fragments.
Trachytic Hyalopilitic Eutaxitic
INTERGROWTH TEXTURE Intergrowth texture results from the intergrowth of grains of two different minerals due to simultaneous crystallisation of of two minerals of the magma at a particular temperature. Graphic texture -This texture occurs from the intergrowth between quartz and orthoclase. When this texture is observed in hand specimens, it is called graphic texture and when it is in a microscopic level called as micrographic and the rock is called granophyre. Quartz is disposed in the form of prismatic wedge-shaped areas intersecting at an angle of about 60 degrees. This texture is common in granites. Myrmekite texture -It is formed from the intergrowth between quartz and plagioclase(usually oligoclase). Corona texture -It results from the reaction between crystallised mineral with magma forming a zone of reaction products surrounding the mineral called reaction rim. Graphic texture(blebs of grey quartz in the host of white orthoclase)
EXSOLUTION TEXTURES Sometimes mineral composition that are stable at high temperature become unstable when temperature decreases and exsolve(unmix) to form two different crystalline minerals such that the grain contains patches or stringers of two minerals. Perthitic texture -Intergrowth between orthoclase(host) and albite that is patches of albite are found within orthoclase. Antiperthitic texture -Intergrowth between orthoclase and plagioclase(host) that is patches of orthoclase occur within plagioclase. Perthite and Antiperthite
DEVITRIFICATION If a highly viscous magma is rapidly supercooled it does not get enough time for crystallisation thus forming glass. Being unstable at this condition they change in course of time to fibrous crystals called crystallites. This process of conversion of glass into crystals is called devitrification. It is a slow process at ordinary temperature but increasing heat, pressure and circulating fluids can speed up the process. Glasses older than pre-carboniferous is practically absent, it is inferred that the ancient glasses must have been converted to crystallites. Perlitic cracks -They refer to curved or spherical cracks found in glassy or devitrified igneous rocks, formed by contraction during rapid cooling of the magma.
Spherulitic texture - More rapid cooling and crystallisation of viscous magma yields spherulitic texture. Spherulitic aggregates are radiating arrays of fibrous or needle-like crystals. This texture is common in glassy felsic volcanic rocks. Spinifex texture -This texture is characteristic of komatite (an ultramafic rock of volcanic origin). Spinifex texture is defined as randomly oriented, extremely fine-grained, slender hollow crystals or acicular olivine phenocryst formed by rapid cooling or quenching of ultramafic lavas. Perlitic cracks Spherulitic texture Spinifex texture
CONCLUSION The study of texture is significant in determining the mode of origin of the igneous rock. It is used in rock classification on the basis of size and shape of mineral grains.
REFERENCE Igneous Petrology, M.K. Bose Principles of Igneous and Metamorphic Petrology, J.D. Winter A Text Book of Geology, G.B. Mahapatra Wikipedia www.ignou.ac.in
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