Episodic collisional orogenesis and lower crust exhumation during the Palaeoproterozoic Eburnean Orogeny: Evidence from the Sefwi Greenstone Belt, West African Craton

H. B. McFarlane, L. Ailleres, P. Betts, J. Ganne, L. Baratoux, M. W. Jessell, S. Block

Research output: Contribution to journalArticle

3 Citations (Scopus)

Abstract

New constraints on the architecture, deformation sequence and tectonic evolution of the sparsely exposed Palaeoproterozoic Sefwi Greenstone Belt (ca. 2200–2070 Ma) in SW Ghana are derived from the integration of field observations, structural mapping and interpretation of regional airborne geophysical data. Our findings provide new insights into the tectonic evolution of the West African Craton during the Palaeoproterozoic Eburnean Orogeny (ca. 2150–2070 Ma). Domains of contrasting metamorphic grade comprising high-grade paragneisses and meta-volcanic rocks are tectonically juxtaposed against low-grade volcano-sedimentary packages. The earliest deformation event is characterised by a bedding-parallel high-grade metamorphic foliation (S 1 ) that is axial planar to isoclinal folds formed during NNW-SSE shortening and late-D 1 partial melting. This crustal thickening event generated biotite ± muscovite granites emplaced parallel to the NW margin of the Sefwi Belt between ca. 2092 and 2081 Ma, providing a minimum age for D 1 . D 2 deformation is characterised by a moderate to steeply dipping, ENE-WSW to NE-SW striking, penetrative S 2 mineral foliation. Within the Sefwi Belt, coaxial F 2 fold axes and L 2 stretching lineations pitch shallowly ENE-WSW to NE-SW, oblique to the major shear zones, indicative of ENE-WSW transtension and associated constrictional deformation. Differential exhumation of middle and lower crustal segments along NNE-striking D 2 extensional detachments was coincident with sinistral oblique reactivation of NE-SW regional-scale shear zones. The timing of exhumation is constrained by metamorphic monazite U-Pb ages at ca. 2073 Ma. Subsequent E-W shortening is associated with dextral reactivation of regional NE-SW striking shear zones and refolding of earlier structures away from the major shear zones. We propose that the NW margin of the Sefwi Belt represents the collision (D 1 ) of southern Ghana and central and NW Ghana/Ivory Coast which record different tectonic histories. Furthermore, we suggest the amalgamation of the West African Craton is the product of episodic collisional orogenesis, providing new insights into the evolution of orogenic processes during the Palaeoproterozoic.

Original languageEnglish
Pages (from-to)88-110
Number of pages23
JournalPrecambrian Research
Volume325
DOIs
Publication statusPublished - 1 Jun 2019

Fingerprint

Pan African orogeny
greenstone belt
exhumation
orogeny
lower crust
shear zone
craton
Tectonics
foliation
reactivation
tectonic evolution
fold
Volcanic rocks
transtension
Volcanoes
crustal thickening
monazite
lineation
muscovite
Stretching

Cite this

@article{96e15035175b4499a59ea5c642992bd2,
title = "Episodic collisional orogenesis and lower crust exhumation during the Palaeoproterozoic Eburnean Orogeny: Evidence from the Sefwi Greenstone Belt, West African Craton",
abstract = "New constraints on the architecture, deformation sequence and tectonic evolution of the sparsely exposed Palaeoproterozoic Sefwi Greenstone Belt (ca. 2200–2070 Ma) in SW Ghana are derived from the integration of field observations, structural mapping and interpretation of regional airborne geophysical data. Our findings provide new insights into the tectonic evolution of the West African Craton during the Palaeoproterozoic Eburnean Orogeny (ca. 2150–2070 Ma). Domains of contrasting metamorphic grade comprising high-grade paragneisses and meta-volcanic rocks are tectonically juxtaposed against low-grade volcano-sedimentary packages. The earliest deformation event is characterised by a bedding-parallel high-grade metamorphic foliation (S 1 ) that is axial planar to isoclinal folds formed during NNW-SSE shortening and late-D 1 partial melting. This crustal thickening event generated biotite ± muscovite granites emplaced parallel to the NW margin of the Sefwi Belt between ca. 2092 and 2081 Ma, providing a minimum age for D 1 . D 2 deformation is characterised by a moderate to steeply dipping, ENE-WSW to NE-SW striking, penetrative S 2 mineral foliation. Within the Sefwi Belt, coaxial F 2 fold axes and L 2 stretching lineations pitch shallowly ENE-WSW to NE-SW, oblique to the major shear zones, indicative of ENE-WSW transtension and associated constrictional deformation. Differential exhumation of middle and lower crustal segments along NNE-striking D 2 extensional detachments was coincident with sinistral oblique reactivation of NE-SW regional-scale shear zones. The timing of exhumation is constrained by metamorphic monazite U-Pb ages at ca. 2073 Ma. Subsequent E-W shortening is associated with dextral reactivation of regional NE-SW striking shear zones and refolding of earlier structures away from the major shear zones. We propose that the NW margin of the Sefwi Belt represents the collision (D 1 ) of southern Ghana and central and NW Ghana/Ivory Coast which record different tectonic histories. Furthermore, we suggest the amalgamation of the West African Craton is the product of episodic collisional orogenesis, providing new insights into the evolution of orogenic processes during the Palaeoproterozoic.",
keywords = "Collisional orogenesis, Exhumation, Palaeoproterozoic, Sefwi Greenstone Belt, Transtension, West African Craton",
author = "McFarlane, {H. B.} and L. Ailleres and P. Betts and J. Ganne and L. Baratoux and Jessell, {M. W.} and S. Block",
year = "2019",
month = "6",
day = "1",
doi = "10.1016/j.precamres.2019.02.012",
language = "English",
volume = "325",
pages = "88--110",
journal = "Precambrian Research",
issn = "0301-9268",
publisher = "Pergamon",

}

Episodic collisional orogenesis and lower crust exhumation during the Palaeoproterozoic Eburnean Orogeny : Evidence from the Sefwi Greenstone Belt, West African Craton. / McFarlane, H. B.; Ailleres, L.; Betts, P.; Ganne, J.; Baratoux, L.; Jessell, M. W.; Block, S.

In: Precambrian Research, Vol. 325, 01.06.2019, p. 88-110.

Research output: Contribution to journalArticle

TY - JOUR

T1 - Episodic collisional orogenesis and lower crust exhumation during the Palaeoproterozoic Eburnean Orogeny

T2 - Evidence from the Sefwi Greenstone Belt, West African Craton

AU - McFarlane, H. B.

AU - Ailleres, L.

AU - Betts, P.

AU - Ganne, J.

AU - Baratoux, L.

AU - Jessell, M. W.

AU - Block, S.

PY - 2019/6/1

Y1 - 2019/6/1

N2 - New constraints on the architecture, deformation sequence and tectonic evolution of the sparsely exposed Palaeoproterozoic Sefwi Greenstone Belt (ca. 2200–2070 Ma) in SW Ghana are derived from the integration of field observations, structural mapping and interpretation of regional airborne geophysical data. Our findings provide new insights into the tectonic evolution of the West African Craton during the Palaeoproterozoic Eburnean Orogeny (ca. 2150–2070 Ma). Domains of contrasting metamorphic grade comprising high-grade paragneisses and meta-volcanic rocks are tectonically juxtaposed against low-grade volcano-sedimentary packages. The earliest deformation event is characterised by a bedding-parallel high-grade metamorphic foliation (S 1 ) that is axial planar to isoclinal folds formed during NNW-SSE shortening and late-D 1 partial melting. This crustal thickening event generated biotite ± muscovite granites emplaced parallel to the NW margin of the Sefwi Belt between ca. 2092 and 2081 Ma, providing a minimum age for D 1 . D 2 deformation is characterised by a moderate to steeply dipping, ENE-WSW to NE-SW striking, penetrative S 2 mineral foliation. Within the Sefwi Belt, coaxial F 2 fold axes and L 2 stretching lineations pitch shallowly ENE-WSW to NE-SW, oblique to the major shear zones, indicative of ENE-WSW transtension and associated constrictional deformation. Differential exhumation of middle and lower crustal segments along NNE-striking D 2 extensional detachments was coincident with sinistral oblique reactivation of NE-SW regional-scale shear zones. The timing of exhumation is constrained by metamorphic monazite U-Pb ages at ca. 2073 Ma. Subsequent E-W shortening is associated with dextral reactivation of regional NE-SW striking shear zones and refolding of earlier structures away from the major shear zones. We propose that the NW margin of the Sefwi Belt represents the collision (D 1 ) of southern Ghana and central and NW Ghana/Ivory Coast which record different tectonic histories. Furthermore, we suggest the amalgamation of the West African Craton is the product of episodic collisional orogenesis, providing new insights into the evolution of orogenic processes during the Palaeoproterozoic.

AB - New constraints on the architecture, deformation sequence and tectonic evolution of the sparsely exposed Palaeoproterozoic Sefwi Greenstone Belt (ca. 2200–2070 Ma) in SW Ghana are derived from the integration of field observations, structural mapping and interpretation of regional airborne geophysical data. Our findings provide new insights into the tectonic evolution of the West African Craton during the Palaeoproterozoic Eburnean Orogeny (ca. 2150–2070 Ma). Domains of contrasting metamorphic grade comprising high-grade paragneisses and meta-volcanic rocks are tectonically juxtaposed against low-grade volcano-sedimentary packages. The earliest deformation event is characterised by a bedding-parallel high-grade metamorphic foliation (S 1 ) that is axial planar to isoclinal folds formed during NNW-SSE shortening and late-D 1 partial melting. This crustal thickening event generated biotite ± muscovite granites emplaced parallel to the NW margin of the Sefwi Belt between ca. 2092 and 2081 Ma, providing a minimum age for D 1 . D 2 deformation is characterised by a moderate to steeply dipping, ENE-WSW to NE-SW striking, penetrative S 2 mineral foliation. Within the Sefwi Belt, coaxial F 2 fold axes and L 2 stretching lineations pitch shallowly ENE-WSW to NE-SW, oblique to the major shear zones, indicative of ENE-WSW transtension and associated constrictional deformation. Differential exhumation of middle and lower crustal segments along NNE-striking D 2 extensional detachments was coincident with sinistral oblique reactivation of NE-SW regional-scale shear zones. The timing of exhumation is constrained by metamorphic monazite U-Pb ages at ca. 2073 Ma. Subsequent E-W shortening is associated with dextral reactivation of regional NE-SW striking shear zones and refolding of earlier structures away from the major shear zones. We propose that the NW margin of the Sefwi Belt represents the collision (D 1 ) of southern Ghana and central and NW Ghana/Ivory Coast which record different tectonic histories. Furthermore, we suggest the amalgamation of the West African Craton is the product of episodic collisional orogenesis, providing new insights into the evolution of orogenic processes during the Palaeoproterozoic.

KW - Collisional orogenesis

KW - Exhumation

KW - Palaeoproterozoic

KW - Sefwi Greenstone Belt

KW - Transtension

KW - West African Craton

UR - http://www.scopus.com/inward/record.url?scp=85062157487&partnerID=8YFLogxK

U2 - 10.1016/j.precamres.2019.02.012

DO - 10.1016/j.precamres.2019.02.012

M3 - Article

VL - 325

SP - 88

EP - 110

JO - Precambrian Research

JF - Precambrian Research

SN - 0301-9268

ER -