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dc.contributor.authorSeverne, Barry Charles
dc.date.accessioned2012-09-13T21:39:09Z
dc.date.available2012-09-13T21:39:09Z
dc.date.issued1972
dc.identifier.urihttp://hdl.handle.net/10179/3826
dc.description.abstractThe application of vegetation to mineral exploration was investigated in the semi-desert mulga zone of Western Australia. Acacia aneura (mulga) dominated the vegetation and was employed in several biogeochemical surveys to locate subsurface copper and nickel mineralisation after successful orientation surveys over outcropping areas. Copper concentrations in A. aneura leaf were adequate for locating cupriferous zones in the Murchison Region. In the Kurrajong Region, A. aneura was employed to locate nickel sulphide mineralisation in a terrain of serpentinised and lateritised ultrabasics, characterised by high and variable nickel levels. It was possible to distinguish sulphide mineralisation from lateritic areas by consideration of coincident nickel and manganese biogeochemical anomalies. A nickel-accumulating variety of the shrub, Hybanthus floribundus, was discovered in the Kurrajong Region. Other Hybanthus varieties were also found to accumulate nickel, in more southern parts of Western Australia. Plant chemistry studies indicated thst nickel was concentrated in the leaf epidermis as a small, water-soluble positively-charged complex. The value of these nickel-accumulating shrubs in locating nickeliferous areas was demonstrated. Preliminary attempts to detect this shrub, from the air, using colour infrared photography were unsuccessful, although the potential of colour film to take advantage of the anomalous yellow colour during the summer season was realised. Three tree species, Acacia coolgardiensis, A. resinomarginea, and A. burkittii, exhibited pronounced geobotanical relationships. The first two species were restricted to metabasalt and metagabbro ridges, whilst A. burkittii characterised calcareous serpentinised pyroxenites. It was found that a usable colour infrared image could not be obtained by vertical aerial photography because of the infundibular growth-form exhibited by this xerophytic vegetation. However the application of this film to photogeology was confirmed. The possibility of using selenium as a path finder for sulphide mineralisation was investigated. A suitably-rapid instrumental method for the determination of selenium and tellurium was developed and a selenium accumulating tree, Acacia oswaldii, was subsequently discovered. A known toxic shrub, Swainsona canescens, also accumulated selenium, and the potential of this selenifereus flora in locating sulphides has yet to be demonstrated. It was concluded that the research embodied in this thesis has indicated the application of botanical methods to mineral exploration in the Eremean Province of Western Australia, and has outlined promising avenues for further investigations.en
dc.language.isoenen
dc.publisherMassey Universityen_US
dc.rightsThe Authoren_US
dc.subjectGeobotanical prospectingen
dc.subjectWestern Australiaen
dc.subjectMurchison, Western Australiaen
dc.subjectKurrajong, Western Australiaen
dc.subjectHybanthus floribundusen
dc.subjectCopper in plantsen
dc.subjectNickel in plantsen
dc.subjectNickel accumulating shrubsen
dc.subjectGeobotanyen
dc.titleBotanical methods for mineral exploration in Western Australia : a thesis in partial fulfilment of the requirements for the Degree of Doctor of Philosophy at Massey Universityen
dc.typeThesisen
thesis.degree.grantorMassey Universityen
thesis.degree.levelDoctoralen
thesis.degree.nameDoctor of Philosophy (Ph.D.)en


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