Prof Gary Stevens
SARChI Professor in Experimental Petrology
Director Central Analytical Facilities
Ph (021) 808 3127, Fax (021) 808 3129
Email gs@sun.ac.za
Biography:
- BSc (Hons) 肆客足球 of Johannesburg (RAU)
- MSc 肆客足球 of Johannesburg (RAU)
- PhD 肆客足球 of Manchester
Research Interests:
- Experimental Petrology
- Granite Petrogenesis
- Archaean Metamorphism
- Crustal Anatexis
Current Projects:
My
current projects relate to several main themes that are generally
interlinked through the concepts of the response of the crust
to high temperature processes and the evolution of crustal melts.
These are: 1.
Studies of metamorphism, magmatism and partial melting in the
rocks associated with the Barberton greenstone belt. These studies
aim to better understand the geodynamic and chemical evolution
of Earth’s young crust and the nature of the tectonic
processes relevant to this crust. Papers 3, 4, 6, 7, 8, 9, 10,
11, 16 and 17 in the list below relate to this work. On my current
students, Jeanne Taylor, Cynthia Sanchez-Garrido and Angelique
Laure are involved in this work. Richard Armstrong (ANU), Alex
Kisters, JF Moyen, John Clemens, Hervé Martin (Université
Blaise Pascal) and Régis Doucelance (Université
Blaise Pascal) are important collaborators. 2.
S-type granite petrogenesis and the anatexis of metapelitic/psammitic
rocks. These studies aim to better understand how the metasedimentary
crust melts, how melts and magmas excape their anatectic source
and how the resultant accumulations of granitic magma evolve.
To date this work has focussed on the Damara belt in Namibia
and the S-type granites of the Cape Granite suite. Rob Ward
and Arnaud Villaros are current students involved in this work
and papers 1, 5, 13 and 14 in the lists below give an insight
into the nature of this research. There is a crossover between
this theme and the one above in that the metasedimentary granulites
of the ancient gneiss complex in Swaziland (Jeanne Taylor’s
project) fit equally well in both areas. John Clemens, Ian Buick
and Alex Kisters and important collaborators in this work. 3.
Experimental investigations of the behaviour of sulphide minerals
and melts during high temperature processes. These studies have
focussed on the anatexis of Broken Hill type massive sulphide
ores, the solubility of gold in S-bearing granitic magmas and
the behaviour of gold and platinum group elements during partial
melting of sulphide assemblages. Papers 12 and 15 in the lists
below are relevant to this work. Each
of these themes is fascinating provides wonderful opportunities
for training. Whilst we have made very important advances in
each area over the past few years, a huge amount remains to
be done. Thus, my research activities for the next few years
will be more or the same. Importantly, we are very close to
critical breakthroughs in several projects and there are tremendous
opportunities for students to involve themselves in truly exciting
science. In the case of advanced students and post-doctoral
researchers seeking academic careers, there are unique opportunities
inherent to some of these projects currently available.
Ward, R., Stevens, G. and Kisters, A.F.M. 2008. Fluid and deformation induced partial melting and melt volumes in low-temperature granulite-facies metasediments, Damara Belt, Namibia. LITHOS, doi 10.1016/j.lithos.2008.04.0 Fagereng,A., Harris, C., La Grange, M. and Stevens, G. 2008. Stable isotope study of the archaean rocks of the vredefort impact structure, central Kaapvaal craton, South Africa. Contributions to Mineralogy and Petrology, 155: 63-78. Stevens, G. and Moyen, J-F. (2007). Metamorphism in the Barberton granite greenstone terrain: a record of Paleoarchaean accretion. Developments in Precambrian Geology (Eds van Kranendonk M.J., Smithies, R.H. and Bennett, V.C. S Ed Condie K.C.). 15. Elsevier. Amsterdam. Moyen, J-F, Stevens, G., Kisters, A.F.M. and Belcher, R. (2007). TTG plutons of the Barberton granitoid-greenstone terrain, South Africa. Developments in Precambrian Geology (Eds van Kranendonk M.J., Smithies, R.H. and Bennett, V.C. S Ed Condie K.C.). 15. Elsevier. Amsterdam. Stevens G., Villaros, A. and Moyen, J-F. (2007). Experimental melt compositions as an aid to understanding S-type granite petrogenesis. GEOLOGY, 35: 9-12. Dziggel, A., Stevens, G., Poujol, M. and Armstrong, R. (2006). Contrasting source components of clastic metasedimentary rocks in the lowermost Formations of the Barberton greenstone belt. In: Reimold, W.U. and Gibson, R.L., eds., Processes on the Early Earth: Geological Society of America Special Paper, 405, 157-172. Moyen, J-F., Stevens, G. and Kisters, A.F.M. (2006). Record of an Archaean subduction zone: 3.2 Ga high-pressure, low-temperature metamorphism in the Barberton terrain, South Africa. Nature, 442: 559-562.
Clemens,
J.D., Yearron, L.M. and Stevens, G. (2006).
Barberton (South Africa) TTG magmas: Geochemical and experimental
constraints on source-rock petrology, pressure of formation
and tectonic setting. Precambrian Research, 151: 53-78.
Westraat, J., Kisters, A.F.M., Poujol, M. and Stevens, G. (2005). Transcurrent shearing, granite sheeting and the incremental construction of the tabular, 3.1 Ga Mpuluzi batholith, Barberton granite-greenstone terrain, South Africa. Journal of the Geological Society of London, 162, 373-388.
Diener, J.F.A., Stevens, G. Kisters, A.F.M., Poujol, M. (2005). Metamorphism and exhumation of the basal parts of the Barberton greenstone belt, South Africa: Constraining the rates of Mesoarchaean tectonism. Precambrian Research 143, 87-112 Diener, J.F.A., Stevens, G. Kisters, A.F.M. (2005). High-pressure low-temperature metamorphism in the southern Barberton granitoid greenstone terrain, South Africa: a record of overthickening and collapse of Mid-Archaean continental crust. American Geophysical Union Special Publication (in press). Stevens, G., Prins, S. and Rozendaal, A. 2005. Partial melting of the assemblage sphalerite + galena + pyrrhotite + chalcopyrite + sulfur: Implications for high-grade metamorphosed massive sulfide deposits. Economic Geology, 100: 106-110. Buick, I.S., Stevens, G. and Gibson, R.L. (2004). The role of water retention in the anatexis of metapelites in the Bushveld Complex aureole, South Africa: An experimental study. Journal of Petrology, 45: 1777-1797.
Kisters, A.F.M., Stevens, G., Dziggel, A., Armstrong, R.A. (2003). Extensional detachment faulting and core-complex formation at the base of the Barberton greenstone belt: evidence for a 3.2 Ga orogenic collapse. Precambrian Research 127, 355-378.
Stevens, G., Droop, G.T.R., Armstrong, R.A., and Anhaeusser, C.R. 2002. The Schapenburg schist belt: Amphibolite facies Archaean metasediments of the Figtree Group, Barberton greenstone belt, South Africa. South African Journal of Geology, 105: To appear in December 2002 issue.Preston, R.F., Stevens, G. and McCarthy, T.S. 2002. Fluid compositions in equilibrium with silica-undersaturated magmas in the system Na2O-Al2O3-SiO2-H2O: Clues to the composition of fenitizing fluids. Contributions to Mineralogy and Petrology, Manuscript: 0414. DOI: 10.1007/s00410-002-0414-1. Printed version to appear December 2002
Murphy, P.J., Stevens, G. and La Grange, M.S. 2000. Gold-chloride speciation in hydrothermal fluids: a Raman spectroscopic study at geologically relevant pressures and temperatures. Geochemica Cosmochemica Acta, 64: 479-494. Stevens, G., Clemens, J.D. and Droop, G.T.R. 1997. Migmatites, granites and granulites: The data from experiments on "primitive" metasedimentary protoliths. Contributions to Mineralogy and Petrology, 128: 352-370.