The Proterozoic Eon of Precambrian Time

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Presentation transcript:

The Proterozoic Eon of Precambrian Time Chapter 12 The Proterozoic Eon of Precambrian Time

Guiding Questions How did mountains form in Proterozoic time? What global climatic and biological changes took place in the Proterozoic Eon? What evidence is there that oxygen began to build up in the atmosphere about 2.3 million years ago? Why do some scientists use the label “snowball Earth” to describe out planet during part of the Neoproterozoic time? What did continental suturing accomplish on a global scale during Neoprotozoic time?

Proterozoic Eon Precambrian Proterozoic 2.5 Billion to ~ 0.6 Billion years ago Archean

Proterozoic Orogeny Formation of large cratons By ~1 Billion years ago, modern style orogeny Wopmay 2 Billion years Slave Province Ancient fold and thrust belt

Proterozoic Orogeny Thick deposit of quartz sandstone Carbonate platform Transitional mudstones Flysch deposits Turbidites then mudcracks and stromatolites Molasse deposition

Proterozoic Orogeny Carbonate platform Cyclic deposits indicated progradation of tidal flats across lagoon Laminated dolomite forms base Oolites or stromatolites are at top

Proterozoic Events Widespread glaciation Stromatolites Gowganda deposits 2.3 Ga Stromatolites Proliferate Diverse shapes 1.2 Billion years ago Early Eukaryotes

Evolution of Eukaryotes Union of 2 prokaryotic cells Mitochondrian Allow cells to derive energy from their food by respiration Evolved from 1 prokaryotic cell Chloroplast Site of photosynthesis Protozoan consumed, retained cyanobacterial cell

Algae Multicellular protists Algal ribbons wound into loose coils 2.1 Billion years ago

Algae Prokaryotic forms Acritarchs Gunflint flora 2 Billion years ago Lake Superior Acritarchs Multicellular forms abundant after 2 Billion years

Proterozoic Life Complex organisms can be identified from trace fossils None present until about 570 Million years ago Belt Supergroup, Montana 1.3 Billion years ago

Proterozoic Life Trace fossils provide evidence for past life in Neoproterozoic Increasingly complex and varied

Proterozoic Life Non-skeletal fossils Ediacarian fauna Similar to Cnidaria Imprints of soft- bodied organisms < 570 M years ago Ediacarian fauna Lived before predators Some similar to modern forms

Proterozoic Life Possible arthropod fossils

Proterozoic Life Skeletal fossils Timing may be related to glaciations Vase-shaped and tubular Small size Timing may be related to glaciations

Proterozoic Continents Continental accretion Microplate accreted to continent Orogenic stabilization Welds sediment to crust Thickens crust, hardens unconsolidated sediments Remobilization Alter character of pre-existing rocks Reset radiometric clocks

Proterozoic Continents Canadian Shield Includes Northern U.S. Laurentia grew by accretion during Proterozoic

Proterozoic Continents 1.95–1.85 Billion years ago Superior Province is largest 1.9–1.8 Billion years old rock unit Separates Superior Province from Wyoming and Hearne provinces 1.8–1.6 Billion years ago Exposed in Southern Wyoming to Northern Mexico

Proterozoic Continents Wyoming Province Archean terrane exposed in Wyoming and Black Hills Laurentia was probably attached to Australia, Antarctica and Siberia

Proterozoic Continents Failed rift 1.2–1.0 Billion years ago Volcanic belt through midwest Keweenawan basalts Grenville Orogeny 1.1 Billion years ago Accretionary event Added eastern belt Exposed in Canada, Adirondacks, Blue Ridge, Llano (TX) uplift

Proterozoic Continents Keweenawan basalts Copper ore Form mid-continent gravity high

Proterozoic Continents Rodinia Supercontinent United Laurentia to other land masses Full assembled 1 Billion years ago Broke up 0.8–0.7 Billion years ago Created Pacific Ocean Created failed rifts in Western Laurentia

Proterozoic Continents Belt Supergroup 0.9–1.5 Billion years ago Thick sequence of sediments formed in failed rift Accumulated in shallow water during rapid subsidence

Banded Iron Formations Stopped forming 1.9 Billion years ago Chert contaminated by iron Red or brown color Alternate with iron- rich layers (magnetite) Oxygen-poor ocean waters Iron was not oxidized

Red Beds Never found in terranes older than 2 Billion years

Snowball Earth Neoproterozoic glacial deposits

Snowball Earth Light carbon isotopes

Snowball Earth

Snowball Earth Growth of stromatolites over columnar crystals of aragonite

Snowball Earth Evidence for Marinoan ice age in Morocco