The Cenozoic Era The Modern World Emerges Tectonics

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Presentation transcript:

The Cenozoic Era The Modern World Emerges Tectonics Earth History GEOL 2110 The Cenozoic Era The Modern World Emerges Tectonics

Major Concepts The volcanic null that corresponded with the Laramide Orogeny starting in the late Cretaceous ended in the late Eocene epoch (~40Ma) with the resumption of arc magmatism along the western margin of NA Starting in the Miocene (~20Ma), the collision of the East Pacific Rise created a transform boundary between the Pacific and NA plates; this brought on the Basin and Range-style extension tectonics, the uplift of the Colorado Plateau, the creation of the Rio Grande Rift, and shift in the motion of the Pacific plate The collision of India and various microcontinents spalled from Gondwana’s break-up closed the Tethy’s Sea and created the Alpine-Himalayan orogenic belt

Summary of the Cenozoic PEOMPP

Early Cenozoic (66-40 Ma) Paleocene - Mid-Eocene Laramide Orogeny Block uplift of the Precambrian basement

Laramide Orogeny Magmatic Null Zone – Shallow Slab Subduction

Sedimentation in Laramide Intermontane Basins BH PR WR GR U Coal Seams in the Powder River Basin, WY Lacustrine Shales of the Green River Basin, UT Lacustrine Shales Marls Bryce Canyon NP, UT

Middle Cenozoic (40-20 Ma) Late Eocene – Oligocene – Mid-Miocene Resumption of continental volcanic arc magmatism as subduction of the Farallon Plate steepens Tectonics during the Oligocene (~30 Ma)

Middle Cenozoic (40-20 Ma) San Juan Volcanic Field La Garita Caldera (28Ma) San Luis Tuff, Wheeler Geologic Monument

Middle Cenozoic (40-20 Ma) Burial and Exhumation of the Laramide Mountains Laramide Mtns Exhumed 66Ma 35 Ma Laramide Mtns Re-Buried Laramide Orogeny Post- Laramide Orogeny 57 Ma Laramide Mtns Buried 15 Ma Laramide Mtns Re-Exhumed 50 Ma

Laramide Sediments and Volcanic Ash Spreads across the Great Plains Eocene – Oligocene fluvial sediments of the White River Group, Badlands, SD

Late Cenozoic (20-0 Ma) Mid-Miocene – Pliocene –Pleistocene - Holocene Mid-Miocene (~15 Ma) Pliocene (~5 Ma) Collision of East Pacific Rise with NA plate creates the San Andreas Transform Fault System, Basin and Range Province, Colorado Plateau and Rio Grand Rift

Basin and Range Province Extensional Thinning of the Crust Sevier Deformation Listric Normal Faults

Basin and Range Province Extensional Thinning of the Crust

Basin and Range Province Extensional Thinning of the Crust Extension due to mantle upwelling in area of Slab Gap

Basin and Range Province Extensional Thinning of the Crust As the SA transform boundary grows, Basin and Range Extension migrates to the North. Establishment of rift zone in the Gulf of California kills extension in the southern Basin and Range.

The Slicing and Dicing of California Narrow fault –bound basins rapidly fill with great thickness of sediment that are simultaneously deformed (e.g., Ventura Basin) Pliocene (~5 Ma)

Uplift of the Colorado Plateau Rejuvenation of Mature Rivers Mantle Upwelling? Pliocene (~5 Ma)

Columbia River Basalts, Snake River Basalts, and the Yellowstone Hotspot Edge of Craton NA Drift Yellowstone Newberry

Mantle Plume-Generated Volcanism Columbia River Basalts Yellowstone Hydrothermal Field Newberry Rhyolite

Present-Day Tectonic Picture

Pacific Plate Tectonics

Passive Margins East and South Erosion of North America – River and Deltaic Deposits Triassic-sourced Halite Deposits Pangea Break-up – Shallow Marine Deposits

Passive Margins East and South Rejuvenation of the Appalachians

The Closing of the Tethys Sea

The Closing of the Tethys Sea 25 Ma The Closing of the Tethys Sea 5-6 Ma Mediteranean Dries Up -Evaporites 4 Ma Straits of Gibraltar open up

Tectonics of East Asia

Next Lecture The Cenozoic The Modern World Emerges Climate and Life Quiz on Chapter 15