350 likes | 860 Views
Chapter 7 Metamorphism and Metamorphic Rocks. Metamorphic rock is formed when existing rocks change due to subjection to pressure and or temperature Any rock can undergo metamorphism
E N D
Chapter 7 Metamorphism and Metamorphic Rocks • Metamorphic rock is formed when existing rocks change due to subjection to pressure and or temperature • Any rock can undergo metamorphism • Metamorphism is the process by which heat, pressure, and chemical reactions deep within the earth alter the mineral content and or structure of existing rock without melting it down
METAMORPHISM & METAMORPHIC ROCKS NORMAL DEPTHS FOR METAMORPHISM: >10-KM FROM SURFACE (BELOW SEDIMENTARY DEPTHS & ABOVE IGNEOUS DEPTHS) METAMORPHISM: MINERAL CONTENT & STRUCTURE OF SOLID ROCK ALTERED BY HEAT, PRESSURE & CHEMICALLY ACTIVE FLUIDS – DOESN’T MELT CONDITIONS PROMOTING METAMORPHISM: ROCK STABILITY IS RELATED TO FORMATION ENVIRONMENT METAMORPHISM BREAKS SOME BONDS, BUT DOES NOT INCLUDE MELTING `
CONDITIONS-CONTD • HEAT – MOST IMPORTANT FACTOR GEOTHERMAL GRADIENT (20-30 DEG C/KM-200 DEG C TO METAMORPHOSE ROCKS) • SOURCES OF HEAT FOR METAMORPHISM: • CONDUCTION FROM DEEP INTERIOR • RISING MAGMA • RADIOACTIVE ISOTOPES • FRICTION BETWEEN ROCK BODIES PRESSURE
Pressure-contd. • Lithostatic: Confining pressure in all directions, rock becomes compressed • Directed Pressure: Acts in one principal plane • Results of Pressure: • Compaction – Smaller & Denser • Ion migration of unbonded ions (recrystallization) • Foliation – Preferred alignment of minerals -Subjected to direct pressure • Units of Pressure: 1 Bar = 1 Atm. Pressure = 1.02 kg/cm2 = 14.7 lbs/inch2 = 105 Pascal
Circulating Fluids • Often necessary for chemical reactions (Facilitates movement of ions and atoms) • Sources of Water • Surface Infiltration • Pores in Sedimentary Rocks • Cracks on Subducting Plates • Magmas • Decomposing Minerals ALL METAMORPHIC ROCKS ARE CATEGORIZED AS ‘FOLIATED’ OR ‘NON FOLIATED’
What Drives Metamorphism • Heat • Accelerate pace of chemical reactions • Pressure • Lithostatic (confining)- rock becomes smaller and denser • Directed- minerals become aligned- Foliation • Circulating Fluids • Ions in water- change mineral composition • Parent Rocks • Original rock’s composition will affect the outcome of metamorphism
TYPES OF METAMORPHISM • Contact • Heat is the dominant factor • Area affected generally smaller than regional metarmorphism • Regional are two types with extensive coverage • Burial- occurs in deep sedimentary basins- no plate tectonics involved • Dynamothermal- occurs where converging plates squeeze a rock caught between them • Others • Hydrothermal- involves hot water from magma • Fault-zone- rocks grinding past one another • Shock- meteorites strike • Pyrometamorphism- lightning
METAMORPHIC ROCK TYPES • Foliated- based on type of foliation • Slate- fine grain • Phyllite- fine grain with sheen • Schist- has ‘split’ appearance • Gneiss- layers/bands of minerals • Non-foliated- based on mineral composition • Marble • Quartzite • Hornsfel • Mixed Rock • Migmatite- indicates partial melting
Metamorphism Temperature & Pressure Information about degree to which a metamorphic rock differs from its parent material • Metamorphic Grade- • low (200-400) slate • high (500-800) gneiss • Index minerals/metamorphic Zones are used to determine metamorphic condition of temperature and pressure • Chlorite, muscovite-low grade (low P/T) • Garnet, staurolite- intermediate • Sillianite- high grade (high P/T)
Common Metamorphic Rocks • FOLIATED ROCKS DERIVED FROM SHALE OR MUDSTONES: • SLATE (FINE GRAINED) • SLATY CLEVAGE • SLATE COLORS (RED: IRON OXIDE; GREEN: CHLORITE; PURPLE: MANGANESE OXIDES; BLACK: CARBON) • PHYLLITE: FINE-GRAINED • SCHIST: COARSE GRAINED • GNEISS: COARSE GRAINED