A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)

Thirty garnets from each of nine kimberlite pipes from southern Africa and Yakutia were analysed for major element as well as for trace element concentrations using electron and proton probes. The concentrates came from a mix of barren and diamondiferous kimberlites as well as from both on-craton an...

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Bibliographic Details
Main Author: Lear, GR
Format: Thesis
Language:English
Published: 1994
Subjects:
Ores
Mineralogy
Determinative
Diamond deposits
Yakutia
Online Access:https://eprints.utas.edu.au/20289/
https://eprints.utas.edu.au/20289/1/whole_LearGregoryRichard1994_thesis.pdf
id ftunivtasmania:oai:eprints.utas.edu.au:20289
record_format openpolar
spelling ftunivtasmania:oai:eprints.utas.edu.au:20289 2023-05-15T18:45:09+02:00 A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets) Lear, GR 1994 application/pdf https://eprints.utas.edu.au/20289/ https://eprints.utas.edu.au/20289/1/whole_LearGregoryRichard1994_thesis.pdf en eng https://eprints.utas.edu.au/20289/1/whole_LearGregoryRichard1994_thesis.pdf Lear, GR 1994 , 'A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)', Coursework Master thesis, University of Tasmania. cc_utas Ores Mineralogy Determinative Diamond deposits Thesis NonPeerReviewed 1994 ftunivtasmania 2022-07-11T22:16:37Z Thirty garnets from each of nine kimberlite pipes from southern Africa and Yakutia were analysed for major element as well as for trace element concentrations using electron and proton probes. The concentrates came from a mix of barren and diamondiferous kimberlites as well as from both on-craton and off-craton localities. The major element approach (using plots of CaO vs Cr\(_2\)O\(_3\)and Na\(_2\)O vs TiO\(_2\)) was used to predict the diamond potential of the source(s) from which the garnets were derived. Histograms of TiO\(_2\) were used to separate high and low temperature garnet populations. The major element method correctly predicted the diamond potential of the source of five out of nine (56%) of the concentrates from the geochemistry of the eclogitic garnets contained within them. The same garnets were analysed for trace element levels of nickel and the nickel concentration in each garnet grain was used to calculate its temperature of crystalisation by use of the garnet-nickel geothermometer. This temperature was then related to diamond potential by interpreting it in terms of the graphite and diamond stability fields. The two sets of predictions were then compared. The garnet-nickel geothermometer gave an accurate assessment of the diamond potential for six of eight pipes studied (75%). The two inaccurate predictions derived from the interpretative process not taking into consideration the shallowness of the lithosphere for one source (Nouzee) - giving a steeper than "ideal" geotherm- and to the presence of a low temperature suite of concentrate garnets in the Roberts Victor sample. The analyses failed to confirm the presence of a single G10 garnet in one hundred and twenty seven peridotitic garnets examined from eight of the heavy mineral concentrates, even though seven of these came from diamondiferous kimberlites, five of which were of economic grade. This indicates that, in those areas where soil sampling recovers quite small numbers of (peridotitic) garnets, it may not be possible to adequately ... Thesis Yakutia University of Tasmania: UTas ePrints
institution Open Polar
collection University of Tasmania: UTas ePrints
op_collection_id ftunivtasmania
language English
topic Ores
Mineralogy
Determinative
Diamond deposits
spellingShingle Ores
Mineralogy
Determinative
Diamond deposits
Lear, GR
A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)
topic_facet Ores
Mineralogy
Determinative
Diamond deposits
description Thirty garnets from each of nine kimberlite pipes from southern Africa and Yakutia were analysed for major element as well as for trace element concentrations using electron and proton probes. The concentrates came from a mix of barren and diamondiferous kimberlites as well as from both on-craton and off-craton localities. The major element approach (using plots of CaO vs Cr\(_2\)O\(_3\)and Na\(_2\)O vs TiO\(_2\)) was used to predict the diamond potential of the source(s) from which the garnets were derived. Histograms of TiO\(_2\) were used to separate high and low temperature garnet populations. The major element method correctly predicted the diamond potential of the source of five out of nine (56%) of the concentrates from the geochemistry of the eclogitic garnets contained within them. The same garnets were analysed for trace element levels of nickel and the nickel concentration in each garnet grain was used to calculate its temperature of crystalisation by use of the garnet-nickel geothermometer. This temperature was then related to diamond potential by interpreting it in terms of the graphite and diamond stability fields. The two sets of predictions were then compared. The garnet-nickel geothermometer gave an accurate assessment of the diamond potential for six of eight pipes studied (75%). The two inaccurate predictions derived from the interpretative process not taking into consideration the shallowness of the lithosphere for one source (Nouzee) - giving a steeper than "ideal" geotherm- and to the presence of a low temperature suite of concentrate garnets in the Roberts Victor sample. The analyses failed to confirm the presence of a single G10 garnet in one hundred and twenty seven peridotitic garnets examined from eight of the heavy mineral concentrates, even though seven of these came from diamondiferous kimberlites, five of which were of economic grade. This indicates that, in those areas where soil sampling recovers quite small numbers of (peridotitic) garnets, it may not be possible to adequately ...
format Thesis
author Lear, GR
author_facet Lear, GR
author_sort Lear, GR
title A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)
title_short A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)
title_full A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)
title_fullStr A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)
title_full_unstemmed A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)
title_sort comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)
publishDate 1994
url https://eprints.utas.edu.au/20289/
https://eprints.utas.edu.au/20289/1/whole_LearGregoryRichard1994_thesis.pdf
genre Yakutia
genre_facet Yakutia
op_relation https://eprints.utas.edu.au/20289/1/whole_LearGregoryRichard1994_thesis.pdf
Lear, GR 1994 , 'A comparison of two methods to assess diamond potential using major and trace element analysis of diamond heavy mineral concentrate (peridotitic and eclogitic garnets)', Coursework Master thesis, University of Tasmania.
op_rights cc_utas
_version_ 1766236131939057664

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