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North American Geological History So what did we figure out about the East Coast so far? • Proterozoic: suture zone, rifting • Cambrian: passive margin • Ordovician: subduction complex (Japan-like) hits North America OK, on to the rest of the Paleozoic • Silurian: passive margin • Devonian: collision of continental fragment with North America – Avalonia: Acadian Orogeny • Miss/Penn: Acadian mountains shed sediment into the interior of the continent • Permian:collision with Africa and Europe makes Pangaea Pangaea • The Permian collision was only a piece of the formation of a supercontinent called Pangaea http://3dparks.wr.usgs.gov/nyc/images/fig83.jpg How do we know Pangaea existed and finished forming in the Permian? • Age patterns on ocean floor (reflected in magnetic stripes http://sos.noaa.gov/ge/land/sea_floor_age/topo/4096.png How do we know Pangaea existed and finished forming in the Permian? • Age patterns on ocean floor (reflected in magnetic stripes • Mountain belts /terranes that run from one continent to another • Climate belts that run from one continent to another • Fossils http://www.mrsciguy.com/sciimages/fossil_record.gif How do we know Pangaea existed and finished forming in the Permian? • Age patterns on ocean floor (reflected in magnetic stripes • Mountain belts /terranes that run from one continent to another • Climate belts that run from one continent to another • Fossils • Glaciation Meanwhile, back on the craton… • Cambrian: lots of sandstones, limestone – some land to erode to make sand • Ordovician: lots of limestone, whole continent is covered in water – no land eroding to make sediment • Silurian - Devonian: evaporites in Michigan Basin because reefs around the edge restrict circulation Middle Paleozoic Michigan Basin Reefs around the edge, salty water in the middle Late Paleozoic craton • Remember what happened in the Appalachians? • As the big mountains started to go up, the sea drained off the continent • More terrestrial deposits, including widespread coal swamps http://www.museum.state.il.us/exhibits/changes/htmls/tropical/upland_emerges.html Cyclothems • Repeating sequences of sedimentary rocks that go from non-marine to marine • Repeat tens to hundreds of times. http://www.isgs.uiuc.edu/maps-data-pub/publications/geonotes/geonote2.shtml Cyclothems • Repeating sequences of sedimentary rocks that go from non-marine to marine • Repeat tens to hundreds of times. • What caused the many repetitions? – Deltas growing off the rising Appalachian mountains – Small changes in sea level across a low-lying area can cause changes So what happened to Pangaea? • Triassic Rocks of East Coast: – Red sandstones and shales, red conglomerates and breccias – Basalts – Normal faults – What happened? • Age of the Atlantic Ocean floor Then what happened to Pangaea? • Breaks up in Triassic: normal faults, basalt, redbeds • Atlantic Ocean forms • Atlantic grows wider throughout the Mesozoic and Cenozoic • So what tectonic facies has the East Coast been throughout this time? And on the craton… • Let’s watch the movie all the way from Cambrian on… • http://www.youtube.com/watch?v=2y43yJu3DA Mesozoic-Cenozoic Craton • Triassic: craton dry – very little rock • Jurassic: mostly dry, little deposition in Gulf Coast • Cretaceous: Great Cretaceous seaway cuts NA in half – marine rocks on west edge of craton. Paleozoic Cordillera • Paleozoic – subduction zone with many collisions of small things – island arcs, continental fragments – builds the NA continent wider • Orogenies: Antler, Sevier • Accreted terranes have ophiolites in between them Jurassic-Cretaceous • Foothills: now-metamorphosed volcaniclastic sedimentary rocks. – Andesitic bits – Graded greywackes – Cherts • Coast Range: – Great Valley Sequence: • Graded greywackes, laminated shales – Franciscan Formation: • Greenschist with blueschist, basalt and marble inclusions So what is it? Cretaceous change • Great Valley sediments contain granite bits by mid-late Cretaceous – what does it mean? • Pause of 10 million years – no volcanoes in Western US • Volcanoes pop up in Colorado – what happened? Cretaceous time • Western volcanoes shut down, and the subduction mountains erode away• Great Valley deep water rocks contain bits of granite from the magma chamber • 10 million years later – volcanoes start erupting in Colorado • Low angle subduction moves the volcanoes of the subduction zone far inland from the trench Cenozoic complications • Subduction of a diverging boundary • San Andreas Fault forms • Tensional tectonics across the Basin and Range – stretches to twice its width and creates fault block mountains • Colorado Plateau rises intact • Santa Barbara block spins around opening pullapart basins that produce oil • North America arches up, water drains off the Atlantic and Gulf Coast
