Igneous Rocks · Magma Differentiation Occurs because different minerals crystallize at different...

Igneous RocksIgneous Rocks

Igneous Rocks

• Earth scientists use the structure, sequence, and properties of rocks, sediments, and fossils to reconstruct events in Earth’s history

• Earth’s systems continually react to changing influences from geological, hydrological, physical, chemical, and biological processes

• rocks and minerals provide essential metals and other materials

Fig. 5.1

Genetic Classification of Igneous Rocks

• Intrusive: crystallized from slowly cooling magma intruded within the Earth’s crust; e.g. granite, gabbro

Fig. 5.2

Genetic Classification of Igneous Rocks

• Extrusive: crystallized from rapidly cooling magma extruded on the surface of the Earth as lava or erupted as pyroclasticmaterial (fragmented pieces of magma and material erupted into the air)

Fig. 5.3

Table. 5.1

Composition and Classification of Igneous Rocks

• Chemistry: e.g. % SiO2

• Mineralogy: e.g.– Felsic

– Intermediate

– Mafic

– Ultramafic

Fig. 4.4

How do magmas form?

When rocks melt (or partially melt).

Partial Melting

Occurs when some of the minerals forming a rock melt at lower

temperatures than other minerals within the same rock

Table 4-3

The Formation of

Magma Chambers

Partial meltingPartial melting

Less dense magmaLess dense magma

Magma risesMagma rises

Magma pools in Magma pools in magma chambermagma chamber

Magma Differentiation

The process by which rocks of various compositions can arise from

a uniform parent magma

Magma Differentiation

Occurs because different minerals crystallize at different temperatures

(i.e., the opposite of partial melting)

Fractional Crystallization

The process by which crystals forming in a cooling magma are segregated from the remaining

liquid

Bowen’s Reaction Series

Experimental sequence of crystallization of minerals from a gradually cooling mafic (basaltic)

Bowen’s Reaction Series

Fig. 4.5

Evidence of Fractional Crystallization in the Palisades Sill

Fig. 4.5

Evidence of Fractional Crystallization in the Palisades Sill

Can fractional crystallization of a primitive basaltic (mafic) magma

generate a granitic (felsic) magma?

Yes, but not in the amounts present in the

continental crust!

Fig. 4.6

Modern Ideas of Magmatic Differentiation

1. Partial melting creates magma of specific composition

2. Cooling causes minerals to form and settle

Fig. 4.6

Modern Ideas of Magmatic Differentiation

3. Basaltic magma breaks through, causing turbulence

4. Crystals are mixed and deposited on chamber walls

5. Mixing of two magmas produces an andesitic magma

Partial Meltingand the Origin of Magmas

Partial melting of upper mantle: e.g. at divergent spreading centers

Partial melting of sedimentary rocks and mafic lithosphere: e.g. in subduction zones

Partial melting of continental crustal rocks

MaficMagmas

IntermediateMagmas

FelsicMagmas

Plutons: Large igneous bodies formed at depth in the Earth’s crust• Batholith: Massive, discordant intrusive

body covering at least 100 km2

• Stock: Massive, discordant intrusive body covering less than 100 km2

• Dike: Tabular, discordant intrusive body

• Sill: Tabular, concordant intrusive body

Fig. 4.9

Fig. 4.9Fig. 4.9

Fig. 4.9

DikeDike

Fig. 4.9Fig. 4.9

Fig. 4.10Fig. 4.10

Granite PegmatiteGranite Pegmatite

Where do most magmas form?

• Divergent Plate Margins

• Convergent Plate Margins

• Mantle Plumes/Hot Spots

Fig. 4.11

Plate DivergencePlate Divergencee.g. Mide.g. Mid--Atlantic RidgeAtlantic Ridge

Fig. 4.11

Island Arc Island Arc Plate Plate SubductionSubduction

e.g. Java, Indonesiae.g. Java, Indonesia

Fig. 4.11

ContinentalContinentalPlate Plate SubductionSubduction

e.g. Mt Raniere.g. Mt Ranier

Fig. 4.11

Hot SpotHot SpotVolcanismVolcanisme.g., Hawaiie.g., HawaiiYellowstoneYellowstone

Fig. 4.12

Idealized Section of an

Ophiolite Suite

Generation of Magmas at Divergent Plate Margins

• Partially melted asthenosphere(Peridotite) rises at spreading centers, causing decompression melting of up to 15% of the rock to form mafic magma.

Fig. 4.13

Generation of Magmas at Convergent Plate Margins

• Subduction drags oceanic lithosphere (including a veneer of “wet” sediments) beneath the adjacent plate

Generation of Magmas at Convergent Plate Margins

• The release of volatiles lowers the melting point of the adjacent mantle, causing fluid-induced melting to form a mafic magma, which becomes more intermediate in composition as it rises through the overlying crust

Fig. 4.14

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