1. Lynn S. Fichter Department of Geology/Environmental Science James Madison University Fall, 2005

3. Temperature Specific Gravity Silica Content Polymerization Viscosity Dissolved gasses Color

4. Igneous Rocks The Two Most Abundant Rocks on Earth Light colored and coarse Dark colored and fine Granite Basalt

5. Two Ideal Magmas Mafic Magma Felsic to Intermediate Magma BasaltGranite Example Color Position in Reaction Series Mineral Composit. Grain Size Cooling History Location Spec. Grav. Lava Char. Dark (gray/black) Light (white/pink) Top of Reaction Series Bottom of Reaction Series Pyroxene, Ca Plagioclase; Olivine (trace) Na Plagioclase/ Orthoclase Quartz; trace mafics Fine grained, rapid cooling at Earth’s surface Large grained, slow cooling deep under ground. Ocean BasinsContinents HighLow Very hot, low viscosity Cool, sticky

7. Igneous Rock Textures Phaneritic Coarse grained Aphanitic Fine grained Glassy Cellular

8. Aphanitic Phaneritic Porphoritic Phenocryst

9. 1000’s of years Hours to days PHANER- ITIC GLASSY to CELLULAR APHAN- ITIC or Porphyritic Days to months/years BASALT GRANITE GABBR O RHYO- LITE DIORITE ANDE- SITE SCORIA OBSIDIA N PUMICE

10. Igneous Rock Classification By Texture and Color... Is convenient... But, it is not a very good classification Primarily because the color of a rock by itself has no meaning. There is no theory of rock color, nothing in chemistry or physics that explains why color should change systematically from the top to bottom of Bowen’s Reaction Series... And a place to start...

11. Igneous Rock Classification Modal Classification By Texture and percent mineral content Color does not work for obsidian, which is felsic in composition but light in color

12. BASALT PLAGIO- GRANITE DIORITE (porphyry) GABBRO ANDE- SITE SCORIAPUMICE OBSIDIAN PERIDOTITE DUNITE ALKALI- GRANITE SYENITE RHYOLITE (porphyry) 18% 18+7=25% 25+2=27% 27+52=79% 79+18=97% 97+3=100% 91% 9% Ultramafic means the rock has no feldspar

13. http://csmres.jmu.edu/geollab/Fichter/IgnRx/IgnRx.html

14. Feldspar Dominated Rocks Feldspar Absent Rocks Igneous Rock Classification In Bowen’s Reaction Series

15. Identifying Igneous Rocks – Practically

17. Modal Classification Of Igneous Rocks Based on percent mineral abundance

18. Modal Classification Of Igneous Rocks Based on percent mineral abundance

20. Alkaligranite: >20% quartz, Orthoclasse dominates; plagioclase possible; Mafics (biotite/amphibole) <5%

22. Alkaligranite: >20% quartz, Na plagioclase dominates; Mafics (biotite/amphibole) <5%

24. Quartz and Na plagioclase often hard to tell apart Plagiogranite: >20% quartz, Na plagioclase dominates; orthoclase possible but may be absent; Mafics (biotite/amphibole) <5%

27. Diorite: 0 - 5% quartz, Na plagioclase and amphibole in about equal amounts

29. Diorite: 0% quartz, Na plagioclase and amphibole in about equal amounts; this is a darker version but light and dark colors are still about equal.

30. Gabbro: No quartz, Ca/Na to Ca plagioclase and pyroxene in about equal amounts

31. Gabbro: No quartz, Ca/Na to Ca plagioclase and pyroxene in about equal amounts

32. Rhyolite: Minerals cannot be identified in hand specimen

33. Andesite porphyry Minerals cannot be identified in fine grained groundmass, but phenocrysts of amphibole are visible

34. Rhyolite porphyry Minerals cannot be identified in fine grained groundmass, but phenocrysts of orthoclase are visible

35. Basalt Minerals cannot be identified in hand specimen, but come from the top of Bowen’s Reaction Series

36. Basalt porphyry Phenocrysts are a Ca rich plagioclase

37. Granodiorite: Half way between a granite (>20% quartz) and a diorite (no quartz). Quartz here is over 20% but mafics and plagioclase are about equal, a diorite feature.

38. Modal Classification Of Igneous Rocks Based on percent mineral abundance

39. Obsidian: (volcanic glass) No minerals are present since this cooled too fast for them to form.

40. Syenite: Orthoclase rich, mafic poor, quartz absent or only a trace.

41. Dunite: Olivine >90%. As a mineral this would be identified as an olivine.