Astronomy and Astrophysics – Astronomy
Scientific paper
Mar 2000
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000geoji.140..621t&link_type=abstract
Geophysical Journal International, Volume 140, Issue 3, pp. 621-635.
Astronomy and Astrophysics
Astronomy
7
Australia, Jurassic, Palaeointensity, Pre-Cenozoic Dipole Low
Scientific paper
The results of rock magnetic, thermal demagnetization and Thellier palaeointensity studies are presented for two high-level intrusions from southern New South Wales, Australia. The Gingenbullen Dolerite (GB) (34.5 degS, 150.3 degE) and the Gibraltar Microsyenite (GS) (34.5 degS, 150.4 degE) were emplaced during the second of three major phases of igneous activity that affected the southern Sydney Basin and are K/Ar dated at 172 and 178Ma, respectively. The magnetic mineralogy of the two intrusions is different: the GB is dominated by single-domain (SD)/pseudo-single-domain grains of magnetite, whereas the GS has both SD magnetite and haematite components, although the haematite component does not record a stable remanence. The GB records two opposed components of magnetization, above 100 degC, occupying distinct parts of the blocking temperature spectrum. The lower blocking temperature (LBT) component resides between 150 and 400 degC and is of normal polarity, having a mean direction of D/I=021 deg/-79 deg (α95=8 deg, k=63), with a corresponding VGP at Lat/Long=54 degS/137 degE (dp=12, dm=13). This component is believed to be a TCRM or TVRM related to the initial opening of the Tasman Sea at ~90Ma. The higher blocking temperature (HBT) ChRM component is recognized between 450 and 580 degC and is of reverse polarity, with a mean direction of D/I=174 deg/+81 deg (α95=11 deg, k=33) and a corresponding VGP at Lat/Long=52 degS, 153 degE (dp=17, dm=18). The ChRM for the GS resides in the 100-450 degC region and, although the scatter is high, has a similar mean direction (D/I=167 deg/+79 deg α95=24 deg, k=26) to the HBT component of the GB, with a pole position at Lat/Long=54 degS/158 degE (dp=30, dm=31). There is no evidence of the GB LBT component in samples from the GS, suggesting that this intrusion was magnetically unaffected by the later event, which is also seen for other intrusions in the Sydney Basin. The VGPs calculated from the ChRM directions both plot on the Jurassic segment of the Australian APWP (Dunlop et al. 1997), providing further palaeomagnetic confirmation for the K/Ar ages. Thellier palaeointensity results were of variable quality, as expected for rocks of this age. The mean VDM values calculated for the ChRMs of the GB and GS were 1.3x1022 and 4.1x1022Am2, respectively (approximately 16 and 51 per cent of the present value). On application of a cooling-rate correction estimate, the GB result falls to a minimum of 0.87x1022Am2 (approximately 11 per cent of the present-day value), representing an overestimate of up to 56 per cent. These values, arising from a time window previously lacking in Thellier estimates, provide further confirmation of the existence of a pre-Cenozoic dipole low. The VDM values derived from the overprint in the GB samples yield an average of 4.8x1022Am2 (from a range between 44 and 81 per cent of the present-day mean VDM) and are tentatively attributed to the Cretaceous Normal Superchron (CNS). These results may document evidence for a previously unrecognized low dipole moment during the bulk of the CNS, a possibility that requires further investigation by performing palaeointensity work on igneous rocks with radiometric ages between 110 and 90Myr that carry unequivocal primary TRMs.
Biggin Andrew J.
Schmidt Phil W.
Thomas David N.
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