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Metamorphism

Metamorphism. Rock Environments. Metamorphic Environments. What Is Metamorphism?. Metamorphism Changes rock via temperatures and/or pressures unlike those in which it initially formed All metamorphic rocks have a parent rock (the rock from which it formed)

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Metamorphism

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  1. Metamorphism

  2. Rock Environments

  3. Metamorphic Environments

  4. What Is Metamorphism? Metamorphism Changes rock via temperatures and/or pressures unlike those in which it initially formed All metamorphic rocks have a parent rock (the rock from which it formed) Parent rocks can be igneous, sedimentary, or other metamorphic rocks.

  5. Metamorphic Grade Change occurring during metamorphism Progresses from low grade (low temperatures and pressures) to high grade (high temperatures and pressures) During metamorphism, the rock must remain essentially solid

  6. MetamorphicGrade

  7. What Drives Metamorphism? Heat Most important agent Two sources of heat: Geothermal gradient: an increase in temperature with depth (about 25o C per kilometer) Contact metamorphism: rising mantle plumes

  8. Confining Pressure Forces are applied equally in all directions Causes the spaces between mineral grains to close What Drives Metamorphism?

  9. Differential Stress Forces are unequal in different directions Compressional stress Rocks are squeezed as if in a vice Shortened in one direction and elongated in the other direction What Drives Metamorphism?

  10. ConfiningPressureandDifferentialStress

  11. Chemically Active Fluids Enhances migration of ions Aids in recrystallization of existing minerals What Drives Metamorphism?

  12. Rock or slaty cleavage Split into thin slabs Low-grade metamorphism MetamorphicTextures - Foliated

  13. MetamorphicTextures -Foliated Schistosity Platy minerals (mica) are visible Exhibit a planar or layered structure Rocks having this texture are referred to as schist

  14. Gneissic texture High-grade metamorphism, segregation of minerals into light and dark bands Metamorphic rocks with this texture are called gneiss Gneiss does not split as easily as slates and schists MetamorphicTextures - Foliated

  15. Nonfoliated composed of minerals that lack layering/foliation MetamorphicTextures - Nonfoliated

  16. Porphyroblastic textures Large grains (porphyroblasts) surrounded by a fine-grained matrix of other minerals MetamorphicTextures - Porphyroblastic

  17. Common Metamorphic Rocks Foliated Rocks Slate Very fine-grained Excellent rock cleavage Most often generated from low-grade metamorphism of shale, mudstone, or siltstone

  18. Foliated Rocks Phyllite Degree of metamorphism between slate and schist Platy minerals are larger than slate but not large enough to see with the unaided eye Glossy sheen and wavy surfaces Exhibits rock cleavage Common Metamorphic Rocks

  19. Foliated Rocks Schist Medium- to coarse-grained Parent rock is shale that has undergone medium- to high-grade metamorphism The term schist describes the texture Platy minerals (mainly micas) predominate Can also contain porphyroblasts Common Metamorphic Rocks

  20. Foliated Rocks Gneiss Medium- to coarse-grained metamorphic rock with a banded appearance The result of high-grade metamorphism Composed of light-colored, feldspar-rich layers with bands of dark ferromagnesian minerals Common Metamorphic Rocks

  21. Increasing Metamorphic Grade

  22. Common Metamorphic Rocks Nonfoliated Rocks Marble Crystalline rock from limestone or dolostone parent rock Main mineral is calcite Calcite is relatively soft (3 on the Mohs scale) Used as a decorative and monument stone Impurities in the parent rocks provide a variety of colors

  23. Non-foliated Marble

  24. Marble Quarries in Italy

  25. Taj Mahal

  26. Lincoln Memorial

  27. Nonfoliated Rocks Quartzite Formed from a parent rock of quartz-rich sandstone Quartz grains are fused together Pure quartzite is white Iron oxide may produce reddish or pink stains Dark minerals may produce green or gray stains Common Metamorphic Rocks

  28. Quartzite

  29. Common Metamorphic Rocks

  30. MetamorphicEnvironments Contact or Thermal Metamorphism Results from a rise in temperature when magma invades a host rock Occurs in the upper crust (low pressure, high temperature) The zone of alteration (aureole) forms in the rock surrounding the magma

  31. Contact Metamorphism

  32. Contact Metamorphism

  33. Hydrothermal Metamorphism Chemical alteration caused by hot, ion-rich fluids circulating through pore spaces and rock fractures Typically occurs along the axes of mid-ocean ridges Metamorphic Environments

  34. Hydrothermal Metamorphism Alonga Mid-Ocean Ridge

  35. Burial Metamorphism Associated with very thick sedimentary strata in a subsiding basin Gulf of Mexico is an example Subduction Zone Metamorphism Sediments and oceanic crust are subducted fast enough that pressure increases before temperature Metamorphic Environments

  36. Regional Metamorphism Creates the most metamorphic rock Associated with mountain building and the collision of continental blocks Metamorphic Environments

  37. Regional Metamorphism

  38. Impact Metamorphism Occurs when meteorites strike Earth’s surface Product of these impacts are fused fragmented rock plus glass-rich ejecta that resemble volcanic bombs Called impactiles Metamorphic Environments

  39. Impact Metamorphism

  40. TexturalVariationsCausedbyRegionalMetamorphism

  41. Rocks that have been partially melted Represent the highest grades of metamorphism Transitional to igneous rocks Migmatites

  42. Metamorphic Zones and Index Minerals

  43. End of Chapter 8

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