Dr. Andreas Ertl-Winand
Birth name and used for scientific publications: Ertl, Andreas
andreas.ertl(a)a1.net
Josef-Holaubek-Platz 2 (UZA II),
1090 Wien
Raumnummer: 2B381
T: +43-1-4277-53257



Projects, positions and scientific commitment

  • 2009-2024 Member of Subcommittee on Tourmaline Nomenclature (STN) of the International Mineralogical Association’s Commission on New Minerals, Nomenclature and Classification (CNMNC).
  • 2010-2013 FWF-project (P23012-N19) “Correlations between tourmaline crystal chemistry and PT conditions during crystal growth”.
  • 2011 Guest professor at the University of Heidelberg, Institut für Geowissenschaften, Heidelberg, Germany.
  • 2013-2015 Member of the editorial board of the journal “The Canadian Mineralogist” (Mineralogical Association of Canada).
  • 2014-2017 FWF-project (P26903-N19) “Detailed investigations of metamorphic and magmatic tourmaline as a geothermometer”.
  • 2014-2021 Member of Subcommittee on the Samarskite Group Nomenclature (SGN) of the International Mineralogical Association’s Commission.
  • 2018-2021 FWF-project (P31049-N29) “What happens to borosilicates during subduction and in different geotectonic settings?”.
  • 2022-2026 FWF-project (P 35585) “Novel use of borosilicates in geothermobarometry”.
  • 2022 Member of the expert commission “Historic honors in earth sciences worth discussing and problematic” (Faculty of Earth Sciences, Geography and Astronomy, University of Vienna).
  • 2022-2025 Member of the editorial board of the journal “The American Mineralogist” (Mineralogical Society of America, USA).

Main research areas

  • Crystal structure and crystal chemical investigations on silicates (tourmaline supergroup, dumortierite supergroup, mica supergroup), phosphates and Mn-oxides.
  • Main emphasis on natural and synthetic members of the tourmaline supergroup.
  • I am interested in correlations between PT conditions during mineral crystallization and structural and crystal chemical properties, interdisciplinary collaborations.

 

Most important research results:

  • Discovery and descriptions of tetrahedrally-coordinated boron in borosilicates.
  • Description of new tourmalines: fluor-schorl, darrellhenryite, alumino-oxy-rossmanite.
  • Discovery of relationships between PT conditions and crystal chemistry of borosilicates.


Current research project

 

Novel use of borosilicates in geothermobarometry

Project no. P 35585
Grant DOI 10.55776/P35585

Abstract

Although many articles about minerals from the tourmaline and dumortierite supergroups have been published, detailed investigations of the relation between crystal chemistry and pressure-temperature conditions are still missing. A systematic investigation of natural borosilicates from different Geological environments, which are petrologically well characterized, as well as synthetic borosilicates, which are synthesized under defined pressure-temperature conditions, can lead to important relationships. It is hypothesized that the most important borosilicates are suitable for geothermobarometry. The distribution of the elements Fe, Mg and Al at the different sites in the crystal structure of tourmaline could be an important finding to successful calibrate such a tourmaline geothermometer. It is also possible that in Mg-bearing tourmalines at higher pressures such an intersite disorder positively correlates to B at the Si position. Further it will be checked, if the slope of the positive correlations between the average charge of the cations at the Na-position (X site) and the F content in tourmalines in closed systems is related to the temperature during the crystallization of such a tourmaline. It will also be checked, if in natural dumortierite, the Mg content is positively correlated to the pressure conditions and to the OH content. Borosilicates will be synthesized at different pressure-temperature conditions. Crystal structures of synthetic and natural tourmalines and dumortierites from petrological well-defined rocks will be determined by the single-crystal diffraction method. The complete chemical composition of these borosilicates will be determined. Finally, relationships between crystal chemistry and pressure-temperature conditions are developed. Although many scientists see great potential for the use of these borosilicates in geothermobarometry, many questions have not yet been solved. Especially the orderdisorder of Mg, Fe and Al in octahedral sites as well as B and Al at the tetrahedral sites can lead to interesting correlations to pressure-temperature conditions. Completely new studies are being conducted to establish correlations, which seem to be temperature dependent, e.g., between the average charge at the X site and the F content on samples of different origins. Preliminary investigations on high-pressure tourmalines show that, with increasing disorder of Mg and Al between the different crystallographic sites, the amount of B at the Si position increases, while an increasing symmetry deviation from the trigonal crystal system occurs. This is a completely new observation. This strategic research includes many new ideas and will be particularly helpful for the use of borosilicates in geothermobarometry. This project will benefit from many highly qualified international collaborators with significant skills and experience.

Research institutions

Naturhistorisches Museum Wien (Natural History Museum Vienna, Austria)
Universität Wien (University of Vienna, Austria)

Associated research partner

ao. Univ.-Prof. Mag. Dr. Gerald Giester (University of Vienna, Austria)