2009 Geoscience BC Scholarship Recipients

Thomas Chudy, PhD student, University of British Columbia




PhD Thesis - Thomas Christof Chudy
The petrogenesis of the Ta-bearing Fir carbonatite system, east-central British Columbia, Canada - University of British Columbia, 2013 - Available digitally through University of British Columbia (pdf, 41.46MB)




Biography: My geological career commenced in October 2002 at the Institute for Geology and Palaeontology at the Julius-Maximilian University of Wuerzburg (Germany). After five years of undergraduate and graduate studies I received my diploma degree in Geology in the winter of 2007.

While my undergraduate studies emphasized geological mapping, structural analysis and petrography, my focus turned to economic geology and mineralogy after my pre-diploma. As an undergraduate student I completed a geological and structural mapping project around a diatreme in southern Germany for the County of Bad Kissingen under the supervision of Prof. Volker Lorenz.

Shortly after my pre-diploma, I went to South Africa to conduct a two-month mapping project as partial fulfillment of the diploma degree. This was supervised by Prof. Reiner Klemd (University of Wuerzburg, Germany) and Prof. Jay Barton (then Rand Afrikaans University, South Africa) and was sponsored by DeBeers Consolidated Mines. The aim was to investigate the regional (structural) geology around the DeBeers Venetia kimberlite pipes, which are situated within locally confined nappe structures in the high-grade gneisses of the Limpopo Belt.

After this mapping project, and before commencing my diploma thesis, I spent time as an intern at the Federal Institute for Geosciences and Natural Resources in Hannover (Germany). Here, I was responsible for the petrologic characterization and classification of PGE-bearing (historic) samples from ultramafic pipes from the Bushveld Complex (South Africa), with an emphasis on the mode and occurrence of the PGE-alloys.

After this I focused on my diploma thesis, which dealt with the tectonometamorphic evolution of my mapping area. Detailed petrographic examination together with thermodynamic calculations (P-T pseudosections) allowed me to construct pressure-temperature paths for three different lithologies from this area. The scope of the thesis was extended and geochemical investigations of amphibolites and geochronological studies of metamorphic monazite were included to cover all aspects of the geological record.

Based on my experiences in industry during my studies I decided to continue my career in a direction where I can combine scientific research with industry. Shorty after being admitted to the Ph.D. program at the University of British Columbia I was working for Dahrouge Geological Consulting as a geologist in the exploration sector. During my time in Blue River, BC, I became familiar with the industry and the rocks that will be the subject of my research for the next few years. After my Ph.D. I plan to pursue a career in British Columbia, since crucial factors such as the mining industry and the research expertise are concentrated here.

Project: Carbonatites are rare magmatic rocks composed of over 50 vol.% of carbonate minerals. They typically occur in a stable cratonic setting or in a rift-related environment and are often accompanied by varying amounts of ultramafic and alkaline rocks. Carbonatites commonly reveal enrichment in REE, Nb, P, and HFSE and are therefore considered as the major deposit-type for such commodities. Despite their economic importance, our knowledge of the genesis of these unusual rocks is scarce. Consensus exits about their origin in the upper or asthenospheric mantle via very low degrees of partial melting, but the wide range in compositions and mineralogy of individual complexes precludes a simple petrogenetic model.

The Blue River carbonatites (BRC) are the subject of my Ph.D. study and are situated within the Monashee Mountains of the Omineca Belt, south-eastern British Columbia, Canada. They intruded the metamorphosed clastic sediments and amphibolites of the Late Proterozoic (Hadrynian) Horsethief Creek group as lenses and sills of variable size. Beside high Nb2O5 (up to 1400 ppm) and phosphorus contents (~3.3 wt.% P2O5), the BRC are characterized by unusually high tantalum concentrations of ~ 250 ppm Ta2O5 (on average).

My study aims to explain the origin and magmatic evolution of the carbonatitic magma and the processes that lead to tantalum enrichment in these rocks, with particular focus on the Upper Fir occurrence. Detailed mineralogical investigations of the major ore phases (pyrochlore and ferrocolumbite) together with fluid inclusion studies of apatite are the most promising approaches. Information about the character of the source of the carbonatitic magma should be obtained from strontium isotopes and whole rock geochemistry. Depending on the progress and results of the above studies, oxygen and carbon isotopes might be included as well as geochronological investigations on zircon and monazite.

The BRC, together with numerous other carbonatites, occur in the so-called Carbonatite Belt of British Columbia, which parallels the Canadian Cordillera in the Omineca Crystalline Belt. The accumulation of potential REE and tantalum deposits requires a detailed and profound investigation and understanding of the carbonatite-alkaline rock systems in order to develop a successful exploration strategy. Results of this project will also contribute to the incomplete general knowledge about the genesis of this rare and peculiar type of magmatic rock.

Roundup 2010 Poster: The Origin of the Tantalum-bearing Upper Fir Carbonatite (Monashee Mountains, East Central British Columbia): Preliminary Results


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