U-Pb chronology of the Northampton Complex, Western Australia - evidence for Grenvillian sedimentation, metamorphism and deformation and geodynamic implications
O. Bruguier et al., U-Pb chronology of the Northampton Complex, Western Australia - evidence for Grenvillian sedimentation, metamorphism and deformation and geodynamic implications, CONTR MIN P, 136(3), 1999, pp. 258-272
Conventional and SHRIMP U-Pb analyses of zircon, monazite, titanite and apa
tite from the high grade rocks of the Northampton Complex in Western Austra
lia provide constraints on the timing of metamorphic processes and deformat
ion events in the northern Darling Mobile Belt (western margin of the Arche
an Yilgarn Craton). Paragneisses and mafic volcanics and/or intrusions have
undergone granulite facies metamorphism in a probable extensional tectonic
setting prior to formation of W- to NW-verging folds and thrusts cut by no
rmal shears (interpreted as late collapse structures) during the main defor
mation event (D-1). These structures are folded by open to tight folds with
NW-striking axial surfaces developed in a second, NE-SW contractional even
t (D-2) Zircons from a mafic granulite provide an age of 1079 +/- 3 Ma attr
ibuted to new zircon growth prior to, or at the peak of regional granulite
facies metamorphism. Metamorphic monazites extracted from a paragneiss yiel
d an identical age of 1083 +/- 3 Ma. The similarity of ages between zircons
from the mafic granulite (1079 +/- 3 Ma) and monazites from the paragneiss
(1083 +/- 3 Ma) is interpreted to reflect fast cooling and/or rapid uplift
, which is consistent with thrusting of the gneissic units during the first
deformation event (D-1) associated with the onset of retrograde metamorphi
sm. Granitic activity at 1068 +/- 13 Ma was followed by intrusion of post-D
-2 pegmatite (989 +/- 2 Ma), which constrains the end of metamorphism and a
ssociated deformation. Cooling of the complex to about 500 degrees C is tim
ed by the apatite age of 921 +/- 23 Ma. SHRIMP U-Pb ages of detrital zircon
s from a paragneiss sample yield a maximum age of 2043 Ma, with no evidence
of an Archean Yilgarn signature. A majority of ages between 1.6 and 1.9 Ga
are consistent with derivation from the Capricorn Orogen on the northern m
argin of the Yilgarn Craton. Younger detrital zircons with 1150-1450 Ma age
s, however, indicate an additional source that had undergone early Grenvill
ian igneous or metamorphic event(s) and also places a maximum age constrain
t upon deposition. The source of this elastic material may have been from w
ithin the southern Darling Mobile Belt or from Greater India (adjacent to t
he Northampton Complex in Rodinia reconstructions). This study documents an
extended Grenvillian history, with basin formation, sedimentation, granuli
te facies metamorphism, contractional tectonics (two periods with orthogona
l directions of shortening) and late pegmatite emplacement taking place bet
ween 1150-989 Ma on the western margin of the Yilgarn Craton. Ages recorded
in this study indicate that the proposed global distribution of Grenvillia
n belts during assembly of the Rodinia supercontinent should be reassessed
to include the Darling Mobile Belt.