Lecture 06 7 sed n met rx k

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Lecture 06 7 sed n met rx k

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Lecture 6-7 Sedimentary and Metamorphic Rocks Part Sedimentary Rocks Kyanite, Sillimanite, and Andalucite What is a sedimentary rock? • Sedimentary rocks result from mechanical and chemical weathering • Comprise ~ 5% of Earth’s upper crust • About 75% of rocks at surface • Contain evidence of past environments • Record how sediment is transported • Often contain fossils What is the economic importance of sedimentary rocks? • They are important for economic reasons because they contain • Coal • Petroleum and natural gas • Iron, aluminum, uranium and manganese • Geologists use them to read Earth’s history Cementation • Precipitation of chemicals dissolved in water binds grains of a sediment together • After the cements solidify, compaction drives out the excess water • Important part of Lithification • Remember where cements come from? Types of sedimentary rocks • Chemical rocks – sediment from ions that were once in solution • Detrital rocks –sediment transported as solid particles Detrital sedimentary rocks • Constituents of detrital rocks can include • Clay minerals • Quartz • Feldspars • Micas • Particle size is used to distinguish among the various types of detrital rocks Detrital sedimentary rocks • Mudrocks: less than 063 mm – Mud: small particles easily kept in suspension – Settles in quiet water – Includes Shale: mud-sized particles 2mm in diameter – Conglomerate consists largely of rounded clasts Rounded pebbles in high velocity areas – Breccia is composed of large angular particles Breccia is made of shattered rock that accumulates at the base of a cliff Energy • Coarse sediments are deposited in high energy (fast water) environments such as under breaking waves at the beach, or in the beds of fast streams • Fine sediments are deposited in low energy environments, e.g the slow water of deep lagoons, the abyssal plain, etc Contact metamorphism Produced mostly by local heat source Hydrothermal Metamorphism • Due circulation of water near Magma • Important at mid-ocean ridge Hydrothermal Metamorphism Metamorphism in a Subduction Zone Shallow Lithosphere Near trench Deep Lithosphere Metamorphic Grade and Index Minerals • Certain minerals, called index minerals, are good indicators of the metamorphic conditions in which they form Certain minerals, called index minerals, are good indicators of the metamorphic conditions in which they form Notice Quartz and Feldspars are useless Note Quartz and Feldspar are not index minerals: Why? Some Useful as Thermometers and Pressure Gauges Sillimanite Kyanite Polymorphs of Andalusite CANADA 7_21 New England MAINE Dynamothermal A D Augusta ANA C A Metamorphism U.S Montpelier Mapped by index mineralsVERMONT NEW HAMPSHIRE Concord Boston Albany NEW YORK MASSACHUSETTS Hartford Binghamton R.I CONNECTICUT PENNSYLVANIA Scranton NEW JERSEY r i ATLANTIC OCEAN ft l va l ey Providence Low grade Long Medium Island grade Newark High grade Unmetamorphosed Chlorite/muscovite zone Biotite zone Garnet zone Staurolite zone Sillimanite zone Increasing pressure and temperature DIAGENESIS LOW GRADE HIGH GRADE INTERMEDIATE GRADE Chlorite and muscovite Biotite Garnet Staurolite MELTING Sillimanite Common metamorphic rocks • Nonfoliated rocks • Quartzite – Formed from a parent rock of quartz-rich sandstone – Quartz grains are fused together – Forms in intermediate T, P conditions Common metamorphic rocks • Nonfoliated rocks (cont.) • Marble – Coarse, crystalline – Parent rock usually limestone – Composed of calcite crystals – Fabric can be random or oriented Change in metamorphic grade with depth Metamorphism of a mudstone Increasing Directed Pressure and increasing Temps A mica garnet schist Definition: Schist Garnets are abrasives, long lasting bearings, and jewels Gneiss displays bands of light and dark minerals Development of foliation due to directed pressure Granodiorite Gneiss Migmatites- When Partial Melting Starts • Heat the rock, when the minerals with the lowest melting points (Quartz, Feldspar) at that pressure melt, then recrystallize We get separate regions of Metamorphic (dark, mafic) and Igneous (light, felsic) rock Part igneous, part metamorphic [...]... Cross bedding in Sand Dune deposits Navaho Sandstone Sandstone deposited in ancient sand dunes Frosted Grains, well sorted Mud Cracks: clay layer shrinks during drying, curls upward; cracks fill next flood Useful for right-side up Terms for Marine (i.e Ocean) Environments 6_ 27 and some characteristic sediment facies Continental shelf Shallo w marin e Abyssal Plain Dee p Define Graded Beds Continental slope... resistant and nonresistant lithologies HIGHLANDS LOWLANDS Particles are small and nearly spherical, and consist mainly of the most resistant lithologies, such as quartz NEAR-COASTAL Graded bedding Floods change the local conditions 6_6 Fine-grained sediment On floodplain Older sediment 1 Pre-flood Bounders on bottom, sands and muds suspended Flood water Erosion of uppermost fine-grained sediment 2 Flood... Continental slope mar ine Submarine volcanoes Fossils are traces of prehistoric life generally preserved in sedimentary rock Dinosaur footprint in mudstone End of Sedimentary Rocks Part 2 Metamorphism and Metamorphic Rocks Metamorphism • … is the transformation of rock by high temperatures (heat) and pressure • Metamorphic rocks are produced by transformation of: • Sedimentary and Igneous rocks, and by the further... –Examples include rock salt and rock gypsum Chemical Sediments: Coal Sedimentary environment determines roundness sorting, mineral diversity Character of detrital sediments depends on time, 6_5 distance, and energy For example, in streams: Particles are large and irregular, and consist of a variety of lithologies, including the least resistant Particles are mid-sized and of intermediate sphericity, and include... alteration of other metamorphic rocks • These are the source of many important minerals – Talc (lubricant, insulators, refractories), Corundum, Garnet (abrasives), Kyanite (ceramics), Micas (insulators), Chrysotile (“asbestos” for fireproofing), etc., etc Minerals do not melt during metamorphism Sedimentary rock 0 km Metamorphic rock Igneous rock Sediment Increasing depth and temperature 10 km ~200ºC 50 km... Stillwater muds Nearshore sands Strata- Bedding Planes Slabs of eroding sandstone with ripple marks Cross Beds are ripples in cross section • Irregularities lead to ripples, dunes, sand bars • In cross section these look like lines at an angle to the horizontal – “cross beds” • Ripples can indicate direction of air or water flow if asymmetrical, a tidal environment if symmetrical Size and shape indicate fluid... stage Waning flow Fine-grained above Coarse-grained below Bedding plane 3 Post-flood • Sedimentary Facies • Different sediments accumulate next to each other at same time • Each unit (called a facies) possesses a distinctive characteristics reflecting the conditions in a particular environment • The merging of adjacent facies tends to be a gradual transition Some Facies in an oversimplified drawing Abyssal... Different minerals, but made of the same atoms • Exception: water carries in new atoms and removes others Important at MOR and in subduction zones Metamorphic Settings • Three types of metamorphic settings: • Contact metamorphism – due heat from adjacent rocks • Hydrothermal metamorphism – chemical alterations from hot, ion-rich water • Regional metamorphism Occurs in the cores of mountain belts and...Chemical sedimentary rocks • Precipitated material once in solution • Precipitation of material occurs two ways: • Inorganic processes: the minerals precipitate out of water • Organic processes: animals and plants precipitate the minerals to use as shells or skeletons http://www.ucmp.berkeley.edu/collections/micro.html • Common chemical sedimentary rocks •Limestone –Most abundant chemical rock –Made... “Confining Pressure” Differential = “Directed Pressure” Origin of pressure in metamorphism (Burial) (Convergent Margin) Directed Pressure causes rocks to become folded, and minerals to reorient perpendicular to the stress: “foliation” Source: Kenneth Murray/Photo Researchers Inc Main factors affecting metamorphism 3 Parent rock • Metamorphic rocks usually have the same chemical composition as the rock they

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  • Slide 1

  • What is a sedimentary rock?

  • What is the economic importance of sedimentary rocks?

  • Cementation

  • Types of sedimentary rocks

  • Detrital sedimentary rocks

  • Slide 7

  • Detrital sedimentary rocks

  • Slide 9

  • Energy

  • Chemical sedimentary rocks

  • Slide 12

  • Slide 13

  • Chemical Sediments: Coal

  • 6_5

  • 6_6

  • Slide 17

  • Slide 18

  • Strata- Bedding Planes

  • Slide 20

  • Cross Beds are ripples in cross section

  • Slide 22

  • Slide 23

  • 6_27

  • Fossils are traces of prehistoric life generally preserved in sedimentary rock

  • Dinosaur footprint in mudstone

  • End of Sedimentary Rocks

  • Slide 28

  • Metamorphism

  • Slide 30

  • What causes metamorphism?

  • Slide 32

  • Origin of pressure in metamorphism

  • Directed Pressure causes rocks to become folded, and minerals to reorient perpendicular to the stress: “foliation”

  • Main factors affecting metamorphism

  • Metamorphic Settings

  • Contact metamorphism

  • 2. Hydrothermal Metamorphism

  • Hydrothermal Metamorphism

  • Slide 40

  • Metamorphic Grade and Index Minerals

  • Slide 42

  • Some Useful as Thermometers and Pressure Gauges

  • 7_21

  • Common metamorphic rocks

  • Slide 46

  • Slide 47

  • A mica garnet schist

  • Gneiss displays bands of light and dark minerals

  • Development of foliation due to directed pressure

  • Migmatites- When Partial Melting Starts

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