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What if we had staurolite and andalusite together? What conditions would that indicate?

What if we had staurolite and andalusite together? What conditions would that indicate?. Epidote Group. Sorosilicates (paired silicate tetrahedra) Include the mineral Epidote Ca 2 FeAl 2 Si 3 O 12 (OH), Zoisite (Ca 2 Al 3 Si 3 O 12 (OH) and clinozoisite (polymorph).

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What if we had staurolite and andalusite together? What conditions would that indicate?

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  1. What if we had staurolite and andalusite together? What conditions would that indicate?

  2. Epidote Group • Sorosilicates (paired silicate tetrahedra) • Include the mineral Epidote Ca2FeAl2Si3O12(OH), Zoisite (Ca2Al3Si3O12(OH) and clinozoisite (polymorph)

  3. Garnet: A2+3 B3+2 [SiO4]3 • “Pyralspites” - B = Al • Pyrope: Mg3 Al2 [SiO4]3 • Almandine: Fe3 Al2 [SiO4]3 • Spessartine: Mn3 Al2 [SiO4]3 • “Ugrandites” - A = Ca • Uvarovite: Ca3 Cr2 [SiO4]3 • Grossularite: Ca3 Al2 [SiO4]3 • Andradite: Ca3 Fe2 [SiO4]3 • Occurrence: • Mostly metamorphic • Some high-Al igneous • Also in some mantle peridotites Garnets Garnet (001) view blue = Si purple = A turquoise = B

  4. Staurolite • Aluminosilicate - Fe2Al9Si4O22(OH)2 • Similar structure to kyanite with tetrahedrally coordinated Fe2+ easily replaced by Zn2+ and Mg2+ • Medium-grade metamorphic mineral, typically forms around 400-500 C • chloritoid + quartz = staurolite + garnet • chloritoid + chlorite + muscovite = staurolite + biotite + quartz + water • Degrades to almandine (garnet at higher T) • staurolite + muscovite + quartz = almandine + aluminosilicate + biotite + water

  5. Metamorphic chain silicates • Actinolite and tremolite are chain silicates derived from dolomite and quartz and common in low-mid grade metamorphic rocks • Riebeckite and Glaucophane are also chain silicates – higher grade minerals, often a blue color • These minerals usually lower P, higher T conditions

  6. Metamorphic Facies • Where do we find these regimes of P-T ‘off’ of the typical continental isotherms?? • How is the environment that forms a blueschist facies rock different from one forming a hornfels?

  7. Metamorphic Facies Table 25-1. The definitive mineral assemblages that characterize each facies (for mafic rocks).

  8. Facies Series Miyashiro (1961) initially proposed five facies series, most of them named for a specific representative “type locality” The series were: 1. Contact Facies Series (very low-P) 2. Buchan or Abukuma Facies Series (low-P regional) 3. Barrovian Facies Series (medium-P regional) 4. Sanbagawa Facies Series (high-P, moderate-T) 5. Franciscan Facies Series (high-P, low T)

  9. Fig. 25-3.Temperature-pressure diagram showing the three major types of metamorphic facies series proposed by Miyashiro (1973, 1994). Winter (2001) An Introduction to Igneous and Metamorphic Petrology. Prentice Hall.

  10. Isograds • Lines (on a map) or Surfaces (in the 3D world) marking the appearance or disappearance of the Index minerals in rocks of appropriate compositione.g. the ‘garnet-in isograd’; the ‘staurolite-out isograd’Complicated by the fact that most of these minerals are solid solutions

  11. Isograds for a single shale unit in southern Vermont • Which side reflects a higher grade, or higher P/T environment?

  12. Meteorite/ Comet Impacts • P/T space??

  13. Energy of an impact • Kinetic energy – going from very fast to stopping is a BIG change in energy • What happens to that energy?? • Impactite – any mineral formed as a result of this impact Shatter cone

  14. Materials indicating Meteorite Impacts • Tektites • Glass formed from impact

  15. Diaplectic Glass • Glass formed through fusion of different minerals – not melted, but fused…

  16. What Happens to minerals that are there but not melted? • Shock Quartz • Lamellae retaining evidence of impact

  17. Diamonds • Very small diamonds can form from impacts and are found in meteorite impact craters around the world

  18. Quartz Polymorphs • Coesite and Stishovite found associated with impact craters

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