Bj. Drummond et al., CRUSTAL-SCALE STRUCTURES IN THE PROTEROZOIC MOUNT-ISA INLIER OF NORTHAUSTRALIA - THEIR SEISMIC RESPONSE AND INFLUENCE ON MINERALIZATION, Tectonophysics, 288(1-4), 1998, pp. 43-56
The Proterozoic Mount Isa Inlier in northern Australia is prospective
for base metals and gold. It contains a Western Fold Belt (including t
he Leichhardt River Fault Trough) and an Eastern Fold Belt, separated
by older basement rocks of the Kalkadoon Leichhardt Belt. Sediments an
d volcanics in both fold belts were deposited in rifts which were subs
equently shortened by up to 50%. Mineralisation appears to be partitio
ned: large-tonnage lead and zinc deposits are more prevalent in the Le
ichhardt River Fault Trough, and most gold and copper occurrences are
in the Eastern Fold Belt. Cross-sections of the inlier derived from co
incident seismic reflection and refraction profiling are dominated by
the youngest tectonic events. The refraction data imply a west-dipping
lens of high-velocity intermediate-to-mafic rock in the middle to upp
er crust in the east of the inlier. It is collinear with another lens
In the lower crust in the west of the inlier. The lenses form a belt o
f high-velocity rock cutting the crust from top to bottom and from eas
t to west. The reflection data reveal different styles of compression-
related structures in the east and west of the inlier. Thin-skinned te
ctonics dominate in the Eastern Fold Belt. The sediments and volcanics
are thrust to the west along a number of shallowly east-dipping upper
-crustal detachments. The detachments in turn are cut by steeply east-
dipping reverse faults which link into the zone of high-velocity rocks
defined by the refraction data. In contrast, faults in the Western Fo
ld Belt are steep and penetrate to mid-crustal levels and probably als
o link into the belt of high-velocity material deeper in the crust. Th
e partitioning into different tectonic styles occurs across the Kalkad
oon Leichhardt Belt, which appears to have acted as a buttress during
the crustal shortening. Published mineralisation models attribute the
lead-zinc mineralisation to circulating fluids at shallow crustal leve
ls within the Leichhardt River Fault Trough. High reflectivity of faul
ts with a close spatial association with mineralisation is attributed
to alteration along the fault caused by migrating Quids. Copper-gold m
ineralisation in the Eastern Fold Belt is scattered, but known major d
eposits lie along-trend from a thrust fault shown in the seismic data
to be highly reflective. This fault links via the upper-crustal detach
ments and the high-velocity lenses into the middle to lower crust, and
is seen as a likely control on fluid migration pathways from lower cr
ustal levels into the supracrustal Eastern Fold Belt. The partitioning
of the tectonic styles seen in the seismic data and the mode of linki
ng of faults into the middle to lower crust are seen as primary factor
s in the partitioning of mineralisation in the region. (C) 1998 Elsevi
er Science B.V.