Archean Rocks Best, Chapter 15A. Archean Terranes >2.5 Gy old Younger supracrustal sequences...
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Transcript of Archean Rocks Best, Chapter 15A. Archean Terranes >2.5 Gy old Younger supracrustal sequences...
![Page 1: Archean Rocks Best, Chapter 15A. Archean Terranes >2.5 Gy old Younger supracrustal sequences –Greenstone belts –Calc-alkaline metavolcanic rocks Older.](https://reader031.fdocuments.us/reader031/viewer/2022032308/56649f465503460f94c68a89/html5/thumbnails/1.jpg)
Archean RocksArchean Rocks
Best, Chapter 15A
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Archean TerranesArchean Terranes
• >2.5 Gy old• Younger supracrustal sequences
– Greenstone belts– Calc-alkaline metavolcanic rocks
• Older gneiss complexes– Quartzo-feldspathic rocks– Tonalites and migmatites intruded by
granites
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West GreenlandWest Greenland
• Contains the oldest rocks on Earth
• Isua supracrustal sequence
• Dated at 3.71 to 3.77 Gy
• Amphibolites and pyroxenites
– Tholeiitic to komatiitic affinities
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Southeastern AfricaSoutheastern Africa
• Rhodesian Craton
• Kaapvaal Craton
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Kaapvaal CratonKaapvaal Craton
• Ancient gneiss complex
• Overlying Barberton Greenstone Belt
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Ancient Gneiss ComplexAncient Gneiss Complex
• Alternating sequence
– Trondjehmite-tonalite (70% SiO2)
– Amphibolite (55% SiO2)
• Younger tonalite gneiss
– 3.4 Gy
• Youngest migmatites and gneisses
– 3.2 Gy
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Barberton Greenstone BeltBarberton Greenstone Belt
• Upper part of the Kaapvaal Craton
• Alternating meta peridotite & pillow lavas
• Overlain by thin tuffs, cherts, and shales
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Barberton Greenstone BeltBarberton Greenstone Belt
• Lower part is peridotite & pillow lavas
~11 km thick
• Middle part is a calc-alkaline volcanic group
• Upper part is a sedimentary sequence
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Superior Province, CanadaSuperior Province, Canada
• Basement of gneiss sequence
• Younger greenstone belt
• Upper clastic sequence
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Gneiss SequenceGneiss Sequence
• >3.0 Gy tonalitic gneisses
• 2.8 to 2.7 tonalite-granite intrusions
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Greenstone BeltGreenstone Belt
• 2.7 to 2.5 Gy old
• Lower part is tholeiite lava and peridotite
– 5 to 8 km thick
• Upper part is intermediate and felsic
– Calc-alkaline metavolcanics
– 4 to 7 km thick
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Clastic SequenceClastic Sequence
• Capping units
• Quartzo-feldspathic clastics
• 10 km thick
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Petrology of Archean RocksPetrology of Archean Rocks
• Gneiss complexes
• Komatiite
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Characteristics of GneissesCharacteristics of Gneisses
• Contain feldspar, quarts, mica, hornblende
• Early tonalitic gneisses are Na rich
– They probably originated by partial melting of tholeiitic basaltic sources
• Later granitic gneisses are K rich
– Their source could have been greywackes or calc-alkaline volcanics
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Metamorphism in GneissesMetamorphism in Gneisses
• Ranges from amphibolite to granulite facies
– P = 0.7 to 1.2 GPa
– T = 700° to 1200°C
• Charnockites are common
• Suggests intermediate P/T facies series
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KomatiitesKomatiites• Composed of peridotite magma
• Occur only in Archean terrane
• Emplaced as lavas
– Pillows, breccias, glassy rinds
• Spinafex texture
• Very high temperature melts (>1600° C)
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• Criss-crossing blades of feathery olivine or clinopyroxene
• Intergrown devitrified glass and skeletal crystals of clinopyroxene and chromite
• This texture indicates rapid under cooling of magmas (entirely liquid at first)
Spinafex TextureSpinafex Texture
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Evolution of Archean CrustEvolution of Archean Crust
• Different or similar to modern petrologic evolution?
• Thermal evolution
• Oldest crust?
• Plate tectonic models
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Thermal ConsiderationsThermal Considerations• Early Earth was much hotter
• Geothermal gradients were much higher
• More convective flow within the Earth
• Conditions (thin crust, meteorite bombardment) favored the destruction of very old crust
• Oldest crust is ~ 3.8 Gy
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What Was the Oldest Crust?What Was the Oldest Crust?
• Model 1 - no early sialic crust identified
– Gneisses were intruded into a more mafic scum at the surface
• Model 2 – sialic crust formed early
– Mafic rocks are intrusive into this early crust
• Model 3 – modern plate tectonic processes apply
– Small island arcs formed of sialic material
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Model 1 for Oldest CrustModel 1 for Oldest Crust
• No early sialic crust - West Greenland case
– Early basaltic lavas pushed into imbricate piles over descending mantle currents
– Deeper parts of the piles changed to amphibolites
– Partial melting produced tonalitic magmas
– Gneisses intrude a mafic framework
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Model 2 for Oldest CrustModel 2 for Oldest Crust• Sialic crust formed early – Canada example
– Sialic partial melts collected and froze above the protomantle
– Thickness constrained by the 750°C isotherm
– Early crust would have been thin and may have covered much of the globe
– This crust would not have been easily subducted
– Mantle-derived basaltic magmas then intruded this crust
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Uniformatarian Model 3Uniformatarian Model 3• Small sialic arcs and microcontinents
– Collision produced greenstone belts in marginal basins
• Barberton example supports an ocean ridge model– Sheeted dike complex– Flanking pillow lavas– Thick sedimentary capping
• Both of these models are on a smaller scale