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Lecture 11 - The Proterozoic Eon

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Title: Lecture 11 - The Proterozoic Eon


1
Historical Geology
Lecture 11 The Proterozoic Eon
2
Historical Geology
Outline
I Proterozoic Timeline II Tectonics
Overview A) Continental Growth B) Wilson
Cycle Tectonics III Paleoproterozoic Laurentia
(North America) A) Orogenies (Convergence) B)
Rifting (Divergence) C) Sedimentation D) Clima
te IV Mesoproterozoic Laurentia (North
America) A) Orogenies (Convergence) B) Rifting
(Divergence) C) Sedimentation D) Climate V Ne
oproterozoic Laurentia (North America) A) Orogen
ies (Convergence) B) Rifting (Divergence) C) S
edimentation D) Climate VI The Proterozoic
Outside Laurentia
3
Historical Geology
The Proterozoic Eon
0.545 bya
1.0 bya
1.6 bya
2.5 bya
4
Historical Geology
The Proterozoic Eon Tectonics Overview
  • growing cratons
  • lateral plate tectonic movements
  • rifting and sea-floor spreading
  • wide continental shelves
  • epeiric seas

5
Historical Geology
The Proterozoic Eon Aggregating Cratons
accretion - addition of
crustal materials to
continental margins
aggregation bringing
together and consolidation
of cratonic elements
6
Historical Geology
The Proterozoic Eon Early Epeiric Seas
epeiric sea - a shallow sea flooding the
continental craton
Erikkson, et al., 1998
7
Historical Geology
The Proterozoic Eon Sedimentation Overview
  • Carbonates appear
  • Banded Iron Formations peak/disappear
  • Red Beds
  • Passive Margin Sedimentation

8
Historical Geology
The Proterozoic Eon Carbonate Sedimentation
9
Historical Geology
The Proterozoic Eon Banded Iron Formations
10
Historical Geology
The Proterozoic Eon Red Beds
oxidation 4Fe 3O2 ---gt 2Fe2O3 iron
oxygen -gt iron oxide
  • hematite
  • limonite

Red Shale Chuar Group (Grand Canyon)
  • laterite soils

11
Historical Geology
Paleoproterozoic Laurentia Orogenies
  • Torngat (2.1-1.75 Ga)
  • Taltson-Thelon (2.0-1.9 Ga)
  • Penokean (2.0-1.8 Ga)
  • Wopmay (1.97-1.84 Ga)
  • Cape Smith-New Quebec (1.9-18 Ga)
  • Trans-Hudson (1.88-1.79 Ga)

12
Historical Geology
Paleoproterozoic Laurentia Slave Province
13
Historical Geology
Paleoproterozoic Laurentia Slave Province
Aulacogens
  • Athapuscow Aulacogen
  • Bathhurst Aulacogen

Irving, et al., in press
14
Historical Geology
Paleoproterozoic Laurentia Slave Province -
Wopmay Orogen
15
Historical Geology
Paleoproterozoic Laurentia Superior Province
Young, 2002
Ojakangas, et al., 2001
16
Historical Geology
Paleoproterozoic Laurentia Superior Province -
Huronian Supergroup
2.5 - 2.2 Ga
Gowganda Formation Huronian Supergroup
Gowganda Tillite
Young, 2002
17
Historical Geology
Paleoproterozoic Laurentia Glaciation
18
Historical Geology
Paleoproterozoic Laurentia Superior Province -
Animikie Group
2.2 - 1.8 Ga
Young, 2002
Ajubik Quartzite Animikie Group
Banded Iron Formation Animikie Group
Kona Dolostone Animikie Group
19
Historical Geology
Paleoproterozoic Laurentia Superior Province -
Penokean Orogeny
20
Historical Geology
Paleoproterozoic Laurentia Superior Province
Cross Section
21
Historical Geology
Paleoproterozoic Laurentia Trans-Hudson Orogen
Schwerdtner and Cote, 2001
22
Historical Geology
Mesoproterozoic Laurentia Events
  • Elsonian Orogeny
  • Yavapai Orogeny
  • Mazatzal Orogeny
  • Mid-Continent Rifting
  • Grenville Orogeny
  • Assembly of Rodinia

23
Historical Geology
Mesoproterozoic Laurentia Yavapai and Mazatzal
Orogenies
  • Series of orogenies
  • 1.8 - 1.6 Ga
  • Vishnu Schist

24
Historical Geology
Mesoproterozoic Laurentia Grand Canyon Region
25
Historical Geology
Mesoproterozoic Laurentia Grand Canyon Region
26
Historical Geology
Mesoproterozoic Laurentia Mid-Continent Rift
  • 1.2-1.0 Ga
  • Keweenawan Supergroup

Ojakangas and Dickas, 2002
27
Historical Geology
Mesoproterozoic Laurentia Grenville Orogeny
28
Historical Geology
Mesoproterozoic Era Rodinia
  • S W E A T
  • A U S W U S

29
Historical Geology
Mesoproterozoic Era Rodinia SWEAT
30
Historical Geology
Mesoproterozoic Era Rodinia AUSWUS
31
Historical Geology
Neproterozoic Laurentia
  • Breakup of Rodinia
  • Panthalassic Ocean (proto-Pacific)
  • Iapetus (proto-Atlantic)
  • Varangian Glaciation

Eykes and Januszczak, in press
32
Historical Geology
Neproterozoic Laurentia Breakup of Rodinia
33
Historical Geology
Neproterozoic Laurentia Panthalassa
34
(No Transcript)
35
Historical Geology
Neproterozoic Laurentia Grand Canyon Supergroup
36
Historical Geology
Neproterozoic Laurentia Late Proterozoic Rifting
  • Breakup of Rodinia
  • Panthalassic Ocean (proto-Pacific)
  • Varangian Glaciation

37
Historical Geology
Neproterozoic Laurentia Late Proterozoic Rifting
38
Historical Geology
Neproterozoic Laurentia Varangian Glaciation
39
Historical Geology
Neproterozoic Laurentia Varangian Glaciation
Knoll, 2000
Knoll, 2000
Jacobson and Kaufmann, 1999
OXYGEN Heavy Oxygen-18 is incorporated into
minerals. More Oxygen 18 during low
temperatures.
CARBON 12/CARBON 13 Plants use the lighter
isotope Carbon 12 in photosynthesis. The lower
relative abundance of Carbon 13 means the plants
were worse off (dying). Evidence in cap
carbonates
STRONTIUM Increased Sr86/87 ratio due to
increased weathering during glaciation.
40
Historical Geology
Neproterozoic Era Snowball Earth
41
Historical Geology
Neproterozoic Era Snowball Earth
42
Historical Geology
Neproterozoic Era Snowball Earth
43
Historical Geology
The Precambrian Outside North America
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