Australian Museum Journal Possible origins and ages for sapphire and diamond from the central Queensland gem fields

Shortform:
Robertson and Sutherland, 1992, Rec. Aust. Mus., Suppl. 15: 45–54
Author(s):
Robertson, A. D. C.; Sutherland, F. L.
Year published:
1992
Title:
Possible origins and ages for sapphire and diamond from the central Queensland gem fields
Serial title:
Records of the Australian Museum, Supplement
Volume:
15
Start page:
45
End page:
54
DOI:
10.3853/j.0812-7387.15.1992.83
Language:
English
Date published:
16 October 1992
Cover date:
16 October 1992
ISBN:
ISBN 0-7305-9990-6
ISSN:
0812-7387
CODEN:
RAMSEZ
Publisher:
The Australian Museum
Place published:
Sydney, Australia
Subjects:
GEOLOGY; GEM STONES
Digitized:
28 July 2009
Reference number:
83
EndNote package:
EndNote file
Title page:
Title page (102kb PDF)
Complete work:
Complete work (1797kb PDF)

Abstract

Mining of sapphire has been carried out for over 100 years on the central Queensland gem fields. Zircon and the occasional diamond, like the sapphires, occur as clastic grains. The Hoy Basalt (a Tertiary basalt province of plugs and restricted flow remnants) was considered to be the source of the sapphire and zircon. Age determinations on basalts of the Hoy Province indicate eruption at different times from the early Eocene to the Middle Miocene. The recognition of sapphire and zircon bearing pyroclastic deposits at Bedfords Hill, the Divide and near Sheep Station Creek in the Rubyvale area suggests that most of the sapphire and zircon in the alluvial deposits came from the pyroclastics and not from the weathering of basalt. Evidence points to sapphire and zircon-bearing felsic parental rocks, which were crystallised around the crust-mantle boundary. The gem minerals were largely brought to the surface by pyroclastic eruptions, particularly during the Early to Middle Eocene. Two groups of alluvial zircons (smaller, pale yellow crystals and large reddish brown crystals) give separate fission track ages. These suggest eruptive thermal resettings around 58 Ma and 20 Ma respectively. The apparent absence of substantial volcanism in the southern part of the Anakie Inlier during the Jurassic and Cretaceous probably reflects a cooler regional geotherm. The occurrence of low-uranium zircon of Late Cretaceous age (66 Ma) in some of the gem field clastic deposits suggests that conditions may have been appropriate for the emplacement of diamond bearing material during this period.

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