Major tectonic systems operating during the past 200 My I. Fragmentation of the Gondwana super-continent Creation of new Oceans Atlantic Indian circum-Antarctic formation of passive margins Closing of Tethys Ocean: complex Mediterranean – Middle East interactions major continental collisions in central Asia Australian-SE Asian collisions
# 18 42.7 Ma Middle Eocene Indian Pacific connection Drake Passage
#13 35.5 Ma Early Oligocene Indian Pacific connection Drake Passage
#6, 20.5 Ma Early Miocene Indian Pacific connection Drake Passage
Drake Passage Indian Pacific connection
circum-Antarctic Current Formation of Circum-Antarctic Current >> isolation of Antarctica >> formation of ice sheet circum-Antarctic Current
Formation of North Atlantic Deep water (thermo-haline convection system)
Formation of continental passive margins continental shelf
continental passive margins Sedimentation on subsiding continental shelf thinned continental crust oceanic crust
Major tectonic systems operating during the past 200 My I. Fragmentation of the Gondwana super-continent Creation of new Oceans Atlantic Indian circum-Antarctic formation of passive margins Closing of Tethys Ocean: complex Mediterranean – Middle East interactions major continental collisions in central Asia Australian-SE Asian collisions
Complex intra-continental Mediterranean-central Asian “plate boundary” Earthquake depth 0-33 km 33-70 70-300 300-700 Indonesian (Sunda-Banda) island arc
Topography for previous slide: note complex topography of Mediterranean-central Asian “plate boundary”.
India moving northwards
Himalayan evolution
Indention of India into Asia The named dashed and dotted lines represent boundaries between terranes successively accreted to Asia. The accretion increases in age to the north: Indus Tsangbo, 40 Ma Banggong,160 Ma Jinsha, 200 Ma Kunlun, 255 Ma Tienshan, late Paleozoic The indentation has moved these sutures northwards The dotted areas show the regions of shearing that accomodated the northward indentation of India
Tibetan plateau models
Region of theTibetan Plateau Ignore white rectangle. The blue line shows the approximate location of the section shown in the third slide after this one.
A recently published geological cross section See the section line (blue line) on the map shown in the third preceding slide. From Yin, A. and T.M. Harrison, 2000, Geologic Evolution of the Himalayan-Tibetan Orogen, Ann. Rev. Earth Planet. Sci., v.28, 211-280.
Central Asian active tectonics
Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Hot spot tracks Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America
East Pacific Rise
Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Hot spot tracks Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America
Northwestern Pacific Subduction zones: seismicity Ryukyu island arc Kurile-Kamchatka island arc Aleutian Island arc N. Honshu subduction zone Izu-Bonin-Marianas island arc Earthquake depth 0-33 km 33-70 70-300 300-700
Northwestern Pacific Subduction zones: bathymetry
Southwestern Pacific Subduction zones: seismicity New Britain Island arc Southwestern Pacific Subduction zones: seismicity Vanuatu island arc Tonga island arc Kermadec island arc Earthquake depth 0-33 km 33-70 70-300 300-700 New Zealand
Southwestern Pacific Subduction zones: bathymetry
Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Hot spot tracks Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America
Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America Hot spot tracks
Eastern Pacific
South American Plate Nazca Plate 8 cm/yr
Central Andes cross section South America Plate
Major tectonic systems operating during the past 200 My II. Pacific System East Pacific Rise (EPR) moving towards the Americas and away from Asia Rimmed by subduction zones Western Pacific Subducting old oceanic lithosphere Formation of back-arc basins and island arcs Hot spot tracks Eastern Pacific Subducting young oceanic lithosphere Andean type mountain building Collision and accretion of exotic terranes Collision of EPR with North America Continued in western_usa.ppt