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metamorphism and metamorphic rocks

metamorphism and metamorphic rocks. the rock cycle. metamorphism. • high enough temperature & pressure to “change” rocks but not high enough to melt rocks …changes to rocks occur in the solid-state …. • hot, reactive fluids also contribute. • old minerals, unstable under new P, T

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metamorphism and metamorphic rocks

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  1. metamorphism and metamorphic rocks

  2. the rock cycle

  3. metamorphism • high enough temperature & pressure to “change” rocks but not high enough to melt rocks …changes to rocks occur in the solid-state… • hot, reactive fluids also contribute • old minerals, unstable under new P, T conditions, re-crystallize into new minerals • new rocks are metamorphic rocks • metamorphism occurs at depth; cannot see metamorphic rocks unless they are uplifted

  4. metamorphic rocks: controlling factors • parent rock composition (also called protolith) • temperature and pressure during metamorphism • tectonic forces • fluids

  5. marble (CaCO3) limestone limestone (CaCO3) parent rock composition no new material is added to rock during metamorphism metamorphic rock will have similar composition to parent rock if parent material contains only one mineral resultant metamorphic rock will only have one mineral --mineral will be recrystallized (texture changes)--

  6. limestone under microscope (stained) (note fragments of shells) texture changes marble under microscope (note interconnecting grains)

  7. if parent material contains many minerals… …old minerals will recombine to form new minerals clay, quartz, mica, and volcanic fragments in a sandstone will combine to form new metamorphic minerals example is garnet: which grows during metamorphism garnet growing garnet schist (metamorphic rock)

  8. temperature during metamorphism • heat from Earth’s deep interior • all minerals stable over finite temperature range • higher temperatures than range cause melting (and therefore generates igneous rocks) heat is essential think about mixing flour, yeast, water, salt…. ….nothing happens until they have a heat source and then they make bread

  9. pressure increases with depth volume decreases with depth pressure during metamorphism pressure in the Earth acts the same in all directions pressure is proportional to depth in the Earth increases at ~1 kilobar per 3.3 km look at example with deep water consequence on cube is squeezing into smaller cube --grains pack together-- high pressure minerals: more compact and dense

  10. tectonic forces - driven by plate motion! lead to forces that are not equal in all directions (differential stress) compressive stress (hands squeeze together) causes flattening at 90° to stress shearing (hands rubbing together) causes flattening parallel to stress

  11. flattened pebbles in metamorphic rock

  12. fluids • hot water (water vapor) most important • heat causes unstable minerals to release water • water reacts with surrounding rocks and transports dissolved material and ions time • metamorphism may take millions of years • longer times allow new minerals to grow larger --coarser grained rocks

  13. metamorphic rocks: basic classification based on rock texture foliated (layered) type of foliation -- e.g. slaty non-foliated (non-layered) composition -- e.g. marble

  14. foliated (layered) metamorphic rocks results from differential stress (not equal in all directions) foliation

  15. appearance under microscope non-foliated foliated

  16. foliated metamorphic rock: slate

  17. foliated metamorphic rock: slate

  18. foliated metamorphic rock: phyllite (higher T, P than slate)

  19. foliated metamorphic rock: schist (higher T, P than phyllite) …new minerals grow -- garnet (large, roundish grains) garnet

  20. schist under microscope garnet

  21. foliated metamorphic rock: gneiss (higher T, P than schist) banding of quartz/feldspar and ferromagnesian minerals

  22. limestone (CaCO3) marble (CaCO3) non-foliated (non-layered) metamorphic rocks results from pressure: equal in all directions named on the basis of their composition

  23. Michelangelo’s David Carrara Marble Quarry

  24. non-foliated metamorphic rocks: quartzite metamorphosed quartz sandstone

  25. non-foliated metamorphic rocks: hornfels metamorphosed basalt Photo credit: R. Weller

  26. types of metamorphism contact metamorphism • occurs adjacent to magma bodies intruding cooler country rock -- “contact” • produces non-foliated metamorphic rocks • happens in a narrow zone of contact (~1 to 100 m wide) known as aureole • forms fine-grained (e.g. hornfels) or coarse-grained (e.g. marble) rocks

  27. types of metamorphism regional metamorphism • occurs over wide region and mostly in deformed mountain ranges • produces foliated metamorphic rocks • happens at high pressures and over a range of temperature • increases in pressures and temperatures forms rocks of higher metamorphic grade

  28. other types of metamorphism (less common) partial melting during metamorphism • produces migmatites, which have both intrusive and metamorphic textures shock metamorphism • occurs during impact events • yields very high pressures • forms “shocked” rocks around impact craters

  29. migmatite igneous and metamorphic textures

  30. hydrothermal alteration along mid-ocean ridge cold sea water encounters hot basalt, forms steam, alters minerals

  31. black smoker offshore Pacific Northwest hot steam/sea water cools as it emerges into ocean and precipitates metals

  32. plate tectonics and metamorphism regional metamorphism associated with convergent boundaries • pressure increases with depth • temperature varies laterally • different P, T conditions yield different degrees of metamorphism temperatures cooler in down-going (subducting) plate (dashed purple line is isotherm-- line of equal T)

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