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Types of Rock include Igneous, Sedimentary and Metamorphic Igneous Rocks Lecture 3 Marble demo, rock specimens, Petrographic Microscope, Olivine Porphyry or Gabbro Trays of mafic and felsic minerals Characteristics of magma Igneous rocks form as molten rock cools and solidifies Characteristics of magmas (molten rock) depend on parent material and where they crystallize Where determines speed of crystallization At surface, fast cooling makes small crystals Characteristics of magma General Characteristics of molten rock Forms from partial melting of rocks inside the Earth Rocks formed from lava at the surface are classified as extrusive, or volcanic rocks Rocks formed from magma that crystallizes at depth are termed intrusive, or plutonic rocks Two Geologic Environments Where Igneous Rocks Form Igneous Rocks Formed in Rift Igneous Rocks Formed Above Sinking Plate Both melts are "Basaltic" i.e. Olivine, Pyroxene and Ca++ Feldspars Extrusive Igneous Rock - Lava (Hawaii) Intrusive Igneous Rock (Granite) – This granite cooled 30 kilometers under the surface Plagioclase Feldspar Quartz Amphibole K Feldspar Characteristics of magma Three parts: – Liquid portion, called melt, that is mobile ions – Solids, if any, are silicate minerals already crystallized from the melt – Volatiles, which are gases dissolved in the melt, including water vapor (H2O), carbon BUT NOT OXYGEN dioxide (CO2), and sulfur dioxide (SO2),Nitrogen N2, Methane CH4, Ammonia Norman L. Bowen Characteristics of magma Crystallization of magma Cooling of magma results in the systematic arrangement of ions into orderly patterns The silicate minerals resulting from crystallization form in a predictable order Rock-forming minerals crystallize with increasing complexity as the magma cools. The most complex 3-D minerals crystallize last. The hottest magmas can only crystallize Olivine (Independent Tetrahedra), but as the magma cools, more complex minerals can form. Bowen’s Reaction Series Molten- VERY Hot No solids First mineral to crystallize out Independent Tetrahedra 3-D Single chains Double chains sheets 3-D Molten- Not so hot 100% Solid 3-D Dark Green Gray Pink to Salmon Fine crystals Need a microscope Low silica, HOT, fluid Course crystals Easily seen Intermediate High silica, warm, viscous Bowens reactrion series says: as a granitic melt cools, Biotite Mica and Plagioclase Feldspar crystallize out before Quartz Granite Hand Sample Granite Thin Section Order of Crystallization We can see the order of crystallization under the microscope If crystals are left in contact with melt … http://www4.nau.edu/meteori te/Meteorite/Eucrite.html • Ultramafic to Basaltic • Gray needles are Plagioclase (Plag) Feldspar, Yellow-brown crystals are Pyroxene (Py), brightly colored crystals are Olivine (Ol). The Olivine have been partially resorbed by the melt, their atoms reused to make Py & Plag. Plagioclase Feldspar Stable composition varies with Temperature If the first formed crystals of Calcium-rich (Ca) Plagioclase Feldspar are left in contact with the melt , as the melt cools more stable sodium-rich layers will be deposited on their outer rims Zoned feldspar (plagioclase) showing change in composition with time in magma chamber (calcium-rich in core to sodium-rich at rim) Isolated Olivine crystals • Early formed Olivine crystals can sink to the bottom of a magma chamber, so they are isolated from the very reactive ions in the melt. If early crystals are removed (isolated), the melt becomes richer in Silica Remove Fe, Mg, Ca Some Si Left with K and Al Most of Si You can start with a Mafic (silica-poor) magma and end up with some Felsic (silica-rich) Granites. Marble Demo A melt will crystallize its mafic components first, and the remaining melt may be granitic Classifying Igneous Rocks Igneous rocks are typically classified by both: – Texture – Mineral composition Texture in igneous rocks is determined by the size and arrangement of mineral grains Igneous textures Most important is crystal size Factors affecting crystal size Rate of cooling – Slow rate promotes the growth of fewer but larger crystals – Fast rate forms many small crystals – Very fast rate forms glass Types of Igneous textures Types of igneous textures Aphanitic (fine-grained) texture – Rapid rate of cooling of lava or magma – Microscopic crystals – May contain vesicles (holes from gas bubbles) http://en.wikipedia.org/wiki/Aphanitic Phaneritic (coarse-grained) texture – Slow cooling – Crystals can be identified without a microscope Aphanitic texture Fine grained because it cooled quickly at the surface Phaneritic texture Coarse crystals cooled slowly at great depth Igneous textures Types of igneous textures Porphyritic texture – Minerals form at different temperatures as well as differing rates – Large crystals, called phenocrysts, are embedded in a matrix of smaller crystals, called the groundmass Glassy texture – Very rapid cooling of molten rock – Resulting rock is called obsidian Porphyritic texture Granite Glassy texture Obsidian More types of Igneous textures Types of igneous textures Pyroclastic texture –Various fragments ejected during a violent volcanic eruption –Often appear layered, similar to some sedimentary rocks Pyroclastic Rock Superheated Flows Naming igneous rocks – pyroclastic rocks Composed of fragments ejected during a volcanic eruption Varieties Tuff – ash-sized fragments < 2 mm Volcanic breccia – particles larger than ash Ash and pumice layers Still more types of Igneous textures Types of igneous textures Pegmatitic texture –Exceptionally coarse grained crystals –Form in late stages of fractionation of magmas –This is often what prospectors are looking for A Pegmatite with Feldspar and Zircon Zircon is very good for obtaining radiometric ages Show tray of Mafic Minerals Igneous Compositions Igneous rocks are composed primarily of silicate minerals that include: dark (or ferromagnesian) colored silicates – Olivine – Pyroxene – Amphibole versus … “MAFIC” Magnesium and Iron Show tray of Felsic Minerals Igneous Compositions Igneous rocks also contain light colored silicate minerals that include: – Quartz – Muscovite mica – Feldspars “FELSIC” Feldspar and Silica Igneous Rock Classification- Bowen’s Reaction Series on its side Note Minerals in Felsic rocks crystallize from warm melts Note Minerals in Mafic from hot melts Geothermal Gradient Cool Silica-rich rocks (with Quartz, K-feldspar) melt at cooler temperatures. Melts are viscous Silica-poor rocks (with Olivine, Pyroxene, Ca-feldspar) melt at higher temperatures Melts are very fluid Hot Igneous compositions Naming igneous rocks – granitic (felsic) rocks Granite – Phaneritic – Over 20 percent quartz, about 25 percent or more feldspar (usually much more feldspars). – Plagioclase is Sodium-rich – Abundant and often associated with mountain building – The term granite covers a wide range of mineral compositions Igneous compositions Naming igneous rocks – granitic (felsic) rocks fine grained because extruded, so crystallized quickly Rhyolite – Extrusive equivalent of granite – May contain glass fragments and vesicles – Aphanitic texture (means fine grained minerals) – Less common and less voluminous than granite – Phenocrysts can include quartz and feldspar Igneous compositions Basaltic composition can be fine or coarse – Composed of dark Pyroxene and grey calciumrich plagioclase feldspar, minor Olivine – No Potassium-rich feldspar (no pink K-spar ‘Microcline’) – Designated as being mafic (magnesium and ferrum, for iron) in composition – Much denser than granitic rocks - sinks – Comprises the ocean floor as well as many volcanic islands such as Hawaii. Also rift valley lavas http://www.naturalsciences.org/microsites/education/Yellowstone/2006/pages/Yellow-bellied%20Marmot_side%20view.html Igneous compositions Naming igneous rocks – basaltic (mafic) rocks: Fine-grained Basalt – Volcanic origin – Aphanitic texture – Composed mainly of pyroxene, some olivine and also calcium-rich plagioclase feldspar – Most common extrusive igneous rock Scoria type Basalt note Gas Bubbles Igneous compositions Naming igneous rocks – basaltic (mafic) rocks: Coarse Grained Gabbro –Intrusive equivalent of basalt –Phaneritic texture consisting of pyroxene and calcium-rich plagioclase –Makes up a significant percentage of the oceanic crust, beneath the basalt pillow lavas. Igneous compositions Other compositional groups Intermediate (or andesitic) composition – Contain at least 25 percent dark silicate minerals – Associated with explosive volcanic activity – Often gray Igneous compositions Intermediate rocks Andesite – Volcanic origin – Aphanitic texture – Gray color – Intermediate silica content – Frequent composition in volcanoes above subduction zones, e.g. in Andes Mountains Igneous compositions Extrusive products can include: Pumice – Volcanic – Glassy texture, very light weight, mostly air – Frothy appearance with numerous voids (extrusive foam) – Forms when lavas have a lot of water and other volatiles Common with intermediate compositions Igneous compositions Intermediate rocks Diorite – Plutonic equivalent of andesite – Coarse grained – Intrusive – Composed mainly of intermediate feldspar and amphibole Igneous compositions Silica content influences a magma’s behavior Granitic magma Plutonic “Granite” – High silica content – Extremely viscous – Liquid exists at temperatures as low as 700oC – Huge explosion if it erupts (Yellowstone, Toba) When Yellowstone explodes, half of Wyoming will perish Volcanic “Rhyolite” Igneous compositions Silica content influences a magma’s behavior Basaltic magma – Much lower silica content – Fluid-like behavior – Crystallizes at higher temperatures – Example big island of Hawaii Origin of Basaltic Magma - 1 Role of Pressure – Reducing the pressure lowers the melting temperature – the rock probably melts – RIDGE: When confining pressures drop, decompression melting occurs Origin of Basaltic Magma - 2 Role of volatiles - WATER –Volatiles (primarily water) cause rocks to melt at lower temperatures –This is particularly important where oceanic lithosphere descends into the mantle in a subduction zone Assimilation and magmatic differentiation Why are the continents so silica rich? Weathering dissolves high-temp. minerals, but also: Fractionation: if early crystals settle out, remaining melt is relatively richer in silica Show Samples Basalts forming in rifts and MORs Decompression Melting: Magma under lithosphere heats and cracks it. Mantle rock is exposed to low pressures – it partially melts Origin of Andesite & Diorite: intermediate silica content Basaltic here Good diagram for the Andes Mountains Small blobs, not much heat in them Assimilate some crust, fractionate Plate Tectonics- Andesite Line Andes 50 Andesites form above the deep portions of a subduction zone Origin of Granitic Rocks Magma rises further distance, more fractionation. Passes through thicker crust, more assimilation. Huge blobs w/ low temps but lots of magma, fractionation & assimilation => Granite Batholiths Can also get small amounts of granites from deep felsic rock passed by ascending magma