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Herrmann, J. R., Maas, R., Rey, P. F., Best, S. P. (2019) The nature and origin of pigments in black opal from Lightning Ridge, New South Wales, Australia. Australian Journal of Earth Sciences, 66 (7). 1027-1039 doi:10.1080/08120099.2019.1587643

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Reference TypeJournal (article/letter/editorial)
TitleThe nature and origin of pigments in black opal from Lightning Ridge, New South Wales, Australia
JournalAustralian Journal of Earth Sciences
AuthorsHerrmann, J. R.Author
Maas, R.Author
Rey, P. F.Author
Best, S. P.Author
Year2019 (October 3)Volume66
Page(s)1027-1039Issue7
PublisherInforma UK Limited
DOIdoi:10.1080/08120099.2019.1587643Search in ResearchGate
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Mindat Ref. ID502607Long-form Identifiermindat:1:5:502607:8
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Full ReferenceHerrmann, J. R., Maas, R., Rey, P. F., Best, S. P. (2019) The nature and origin of pigments in black opal from Lightning Ridge, New South Wales, Australia. Australian Journal of Earth Sciences, 66 (7). 1027-1039 doi:10.1080/08120099.2019.1587643
Plain TextHerrmann, J. R., Maas, R., Rey, P. F., Best, S. P. (2019) The nature and origin of pigments in black opal from Lightning Ridge, New South Wales, Australia. Australian Journal of Earth Sciences, 66 (7). 1027-1039 doi:10.1080/08120099.2019.1587643
In(2019, October) Australian Journal of Earth Sciences Vol. 66 (7) Informa UK Limited
Abstract/NotesBlack opal (opal-AG) owes its dark coloration to a fine-grained pigment commonly inferred to be
mainly carbon, yet chemical compositions for black opals suggest there may be additional components. Here we search for such components in pigment concentrates prepared by dissolving black
opal nodules (nobbies) from Lightning Ridge (NSW) in hydrofluoric acid, using electron microscopy
(scanning electron microscopy, transmission electron microscopy), X-ray diffraction and laser-ablation ICP-MS. The results demonstrate the presence of sulfides—predominantly pyrite and chalcopyrite, with minor galena and Ti-oxide phases, as additional components of the pigment. ATR-FTIR
analysis indicates the presence of C¼O and C–H groups, consistent with an organic origin.
Transmission electron microscopy images of pigment show variously deformed, originally spherical
100 nm particles rich in sulfide and carbon, which are interpreted as thin coatings of pigment on
now dissolved opaline silica spheres. Laser-ablation ICP-MS analysis identifies remnant silica in pigment concentrates, which may be interpreted as opaline silica surviving HF treatment protected as
inclusions in sulfides. When examined within the context of petrographic observations from more
than 1000 opal nodules (nobbies) at Lightning Ridge, these new results suggest that pigment carbon and sulfides in the nodules formed microbially under initially anoxic groundwater conditions,
within pre-existing cavities concurrently being filled with silica sol ultimately derived from chemical
weathering of feldspar-rich volcaniclastic sediment. Intensely black pigment layers observed at the
floor of many nodules indicate settling of dark, high-density (sulfide–Ti-oxide-rich) pigment within
cavities, with the implication that sulfate-reducing bacterial (SRB) activity commences early during
the silica sol-gel ripening process. Microbial activity may persist until after the cavity has completely filled with the silica sol, as illustrated by abundant black opals with uniformly distributed
pigment. Pigment formed at this stage may no longer be able to settle out within the ripening
and increasingly viscous silica gel, thus forming pigmentation throughout the opal cavity. The
existence of ‘amber’, pigment-poor opal with intensely black basal pigment layers is interpreted as
signalling a lack of sulfate to sustain further SRB activity, or a change to more oxidising conditions,
possibly related to interaction with surface waters within a downward-penetrating weathering
front. A change in redox conditions would shut off activity of SRB and thus sulfide pigment production and allow development of aerobic microbial activity as described by others.

Locality Pages

LocalityCitation Details
Lightning Ridge, Finch Co., New South Wales, Australia

See Also

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Herrmann, Jürgen, Maas, Roland (2022) Formation of Sediment-Hosted Opal-AG at Lightning Ridge (New South Wales, Australia): Refining the Deep Weathering Model. The Journal of Geology, 130 (2) 77-110 doi:10.1086/718833
Abduriyim, A., Sutherland, F. L., Belousova, E. A. (2012) U–Pb age and origin of gem zircon from the New England sapphire fields, New South Wales, Australia. Australian Journal of Earth Sciences, 59 (7) 1067-1081 doi:10.1080/08120099.2012.724031
Rey, P. F. (2013) Remarks on the age of precious opal in central Australia: reply to comment by Bruce Dickson. Australian Journal of Earth Sciences, 60 (8) 835-838 doi:10.1080/08120099.2013.870229
Reid, A. J., Korsch, R. J., Hou, B., Black, L. P. (2009) Sources of sediment in the Eocene Garford paleovalley, South Australia, from detrital-zircon geochronology. Australian Journal of Earth Sciences, 56. doi:10.1080/08120090902871168
Dunstone, R. L., Young, G. C. (2019) New Devonian plant fossil occurrences on the New South Wales South Coast: geological implications. Australian Journal of Earth Sciences, 66 (1) 57-70 doi:10.1080/08120099.2018.1533495
Smith, E. & R. (1999): Black Opal Fossils of Lightning Ridge - Treasures from the Rainbow Billabong, Kangaroo Press, East Roseville. - Cram, L. (2004): A Journey with Colour, Vol 2, Part B - A History of Lightning Ridge Opal 1873-2003, Len Cram. - Australian Opal Centre web site http://www.australianopalcentre.com/
Bell, Phil R., Brougham, Tom, Herne, Matthew C., Frauenfelder, Timothy, Smith, Elizabeth T. (2019) Fostoria dhimbangunmal, gen. et sp. nov., a new iguanodontian (Dinosauria, Ornithopoda) from the mid-Cretaceous of Lightning Ridge, New South Wales, Australia. Journal of Vertebrate Paleontology, 39 (1) doi:10.1080/02724634.2019.1564757
Manton, R. J., Buckman, S., Nutman, A. P. (2019) Early Permian strike-slip basin formation and felsic volcanism in the Manning Group, southern New England Orogen, eastern Australia. Australian Journal of Earth Sciences, 66 (5) 625-643 doi:10.1080/08120099.2019.1566932
Young, G. C., Dunstone, R. L., Ollerenshaw, P. J., Lu, J., Crook, B. (2020) New information on the giant Devonian lobe-finned fish Edenopteron from the New South Wales south coast. Australian Journal of Earth Sciences, 67 (2) 221-242 doi:10.1080/08120099.2019.1651769
Semeniuk, T. A. (2019) Geoheritage in New South Wales — a reassessment of sites from the register of the national estate. Australian Journal of Earth Sciences, 66 (6) 793-802 doi:10.1080/08120099.2018.1533887
Cooper, B. J. (2019) Heritage stone in South Australia. Australian Journal of Earth Sciences, 66 (6) 947-953 doi:10.1080/08120099.2018.1547323
 
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