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Stratigraphy of Singhbhum Craton

Singhbhum Craton lies in vicinity of two Proterozoic mobile belts: Satpura Mobile Belt in the east, north and north-west; Eastern Ghat Mobile Belt in the south. Singhbhum Craton is separated from Bastar Craton by Mahanadi Graben.

Age: Archean to Paleoproterozoic

-comprises of Paleoarchean and Mesoarchean tonalitic and granodioritic granites and gneisses and abundant occurrences of BIFs, closely associated with basic volcanics and ultrabasic intrusives.

-all these rocks have undergone regional metamorphism of the amphibolite facies.

-Singhbhum Craton is believed to have evolved as a consequence of multiple phases of compressive deformation related to Singhbhum Orogeny.

Northern Boundary marked by Singhbhum Shear Zone (Copper Belt Thrust)

Southern Boundary marked by Sukinda Thrust (amalgamates the low grade metamorphics of Singhbhum Craton with the high grade metamorphics of EGMB)

Singhbhum Shear Zone separates the Singhbhum Craton from the Chhotanagpur Gneiss

Sukinda Thrust separates the Iron Ore group from the Gondwanas

CHAMPUA GROUP (OMG)

SARAIKELA GNEISS (OMTG)

IRON ORE

GROUP

SINGHBHUM GRANITE TYPE B,

PHASE III)

SINGHBHUM GROUP

DHANJORI GROUP

SINGHBHUM GROUP

BESOI GRANITE (SINGHBHUM

GRANITE TYPE A, PHASE I &II)

SIMLIPAL VOLCANICS

DALMA VOLCANICS

CHAIBASA FORMATION

DALBHUM FORMATION

DARJIN GROUP

PALEOARCHEAN

MESOARCHEAN

NEOARCHEAN

PALEOPROTEROZOIC

TG

LITHOUNITS OF THE SINGHBHUM CRATON

CHAMPUA GROUP (OMG)

SARAIKELA GNEISS (OMTG)

IRON ORE

GROUP

SINGHBHUM GRANITE (TYPE

B, PHASE III)

BESOI GRANITE (SINGHBHUM GRANITE

TYPE A, PHASE I &II)

DARJIN GROUP

PALEOARCHEAN

MESOARCHEAN

NEOARCHEAN TG

ARCHEAN LITHOUNITS

• 6 major lithotectonic units are recognizable

• five exhibit amphibolite-facies metamorphism;

sixth is free from deformation and metamorphism

• these five lithounits have undergone multiple

phases of deformation during the Singhbhum

Orogeny.

CHAMPUA GROUP:

-oldest lithostratigraphic unit of the Singhbhum Craton

- south of the SSZ

- known as Older Metamorphic Group and consists of predominantly hornblende-schists with

quartzites and quartz mica-schists, metamorphosed pelites and sandstones associated with

ferromagnesian lithologies to the SW of Champua.

- transformed by amphibolite-facies metamorphism.

- age: 3600 to 3300 My

SARAIKELA GNEISS:

- intrusion of tonalite in the Champua

Group led to the evolution of

metamorphics and tonalites.

- known as Older Metamorphic Tonalite

Gneiss.

- derived from partial melting of

amphibolites of the OMG.

BESOI GRANITE (SINGHBHUM

GRANITE TYPE A):

- a large batholithic complex, which

embodies a number of plutons, was

emplaced in three pulses, first two of which

occurred at a very short temporal span.

- divided into Singhbhum Granite Type

A (phase I & II) and Singhbhum Granite

type B (phase III).

- different bodies of granite are separated

by partition of metamorphic rocks.

- xenoliths of rocks of Champua Group and

Saraikela Gneiss occur all over the granite.

- biotite granodiorite, grading to

trondhjemite.

- age: 3300-3200 My

Iron Ore Group:

- lies unconformably over Besoi Granite

- mildly metamorphosed, predominantly

ferrugenous sediments associated with basic

volcanics

- occurs in three belts- Noamundi-Jamda-Koira,

Gorumahisani-Badampahar and Tomka-Daitari

- in all the three belts the BIF is closely

associated with lavas and tuffs.

- IOG forms a synclinorium in the Jamda-Koira

valley.

- age: 3145 My

- sedimentation started before the intrusion of

3120 My old Singhbhum Granite Type B.

Stratigraphic Succession of

IOG in the iron ore belts

Singhbhum Granite (Type B, phase III):

- makes the larger part of the batholithic complex

- represents the third phase of magma emplacement

- intrudes IOG at some places

- biotite-granodiorite to adamallite, biotite trondjhemite

and leuco-granite

- age: 3163 to 3042 My

Darjin Group:

- lies to the west of Singhbhum batholith complex

- little metamorphosed and undeformed sedimentary rocks

- cross-bedded and ripple marked conglomeratic sandstones, arlosic sandstones, shales,

carbonaceous phyllites and dolomitic limestones

Tamperkola Granite:

- intrudes Darjin Group

- pink coloured alkali feldspar dominated granite

- marks the last thermal event of the Neoarchean in the eastern part of the Indian Shield.

Evolution of Singhbhum Craton lithology in the Archean

PROTOCONTINENT DURING ARCHEAN

CRUST

MANTLE PLUMES

PROTOCONTINENT

TENSIONAL STRETCHING

DEPRESSION

CHAMPUA GROUP (OMG) Sediments which got deposited in the basin were metamorphosed to amphibolite facies

PLUME

Partial melting of protocontinent and underlying crust generated tonalitic magma

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+ + OMG

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Emplacement of tonalitic magma contributed to

the synkinematic growth of OMTG

SARAIKELA GNEISS (OLDER METAMORPHIC

TONALITE GNEISS)

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Continuation of granitic magmatism

OMG

OMTG

BESOI GRANITE (SINGHBHUM GRANITE TYPE A, PHASE I & II)

OMTG

OMG

SBG-A

NNE-SSW ORIENTED SHALLOW WATER BASIN

- / \ - - | -

Ferrugenous and siliceous sediments; emplacement of BIF and basic lavas; intrusion of gabbro and related ultrabasic magmas

THERMAL PERTURBATIONS IN THE SUBCRUSTAL LEVEL OF THE

ELONGATED MICROCONTINENT

IOG

DEFORMATION AND METAMORPHISM CONTINUED AND FOLDED IOG AS A

SYNCLINORIUM

OMG

OMTG

SBG-A

IOG

SINKING OF SIALIC CRUST

DIFFERENTIAL MELTING

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SINGHBHUM GRANITE TYPE B; PHASE III

OMG

OMTG

SBG-A

IOG

SBG-B

Subsidence in the western part

OMG

OMTG

SBG-A

IOG

SBG-B

Shallow basin of the Darjin Group

little metamorphosed and undeformed

sediments

OMG

OMTG

SBG-A

IOG

SBG-B

DARJIN + + + +

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TAMPERKOLA GRANITE

Last thermal event of the Neoarchean in the eastern part

of the Indian Shield