Descrizione: Descrizione: EGU Summer School 2023

 

 

 Home

 Program

     Field Program

     Lecture Program

 Registration & Payments

 Committees

 How to get there

 Links

 List of participants

 Downloads

Images of the school


Welcome to the
Sixth EGU Summer School

STRUCTURAL ANALYSIS OF CRYSTALLINE ROCKS

 

The school is aimed at teaching advanced techniques of quantitative structural analysis in deformed basement rocks. It is addressed at PhD and post-Doc students and early-career researchers.

Structure of the school

The school is divided into two parts:

1)    Two days of field work on glacier-polished outcrops in the Nevessee (Lago di Neves) area.
The glacially-polished exposures in this area are spectacular and provide an ideal natural lab for field training. The area hosts an impressive variety of mesoscale structures, with classic examples of multiphase magmatic intrusion, magma mingling structures, localisation of ductile shear zones and their interaction, polyphase veining and brittle faulting.

2)   The field workshop will be followed by four days of in-classroom teaching in Dietenheim/Bruneck (Teodone, Brunico) on the theory of deformation and of quantitative methods of micro- and meso-structural analysis of deformed rocks.  The workshop will be held at the Fachschule für Landwirtschaft, Dietenheim (http://www.fachschule-dietenheim.it/landwirtschaft/it/default.asp).
The different aspects and approaches to structural analysis of crystalline rocks that will be covered are:
    a) nucleation and growth of ductile shear zones and interplay between fracturing and flow during high temperature deformation
    a) analysis of mylonites with a dedicated session on analysis of deformation microstructures and crystallographic preferred orientations in granitoid mylonites;
    b) simulation of deformation processes by rock-analogue and natural and  synthetic rock experiments;
    c) numerical modelling of deformation structures;
    d) physical and chemical fluid-rock interaction in ductile shear zone and fault networks;
    e) role of fluids during flow and fracturing;
    f) interplay between metamorphic reaction and deformation in shear zones.

* We very strongly encourage the students and researchers attending the school to bring along a poster (A0 landscape) summarizing their current  research work. We will provide space and time during the lecture period in Brunico/Bruneck, with the opportunity to discuss with teachers and fellow students.

 


Webmaster: Nicola Praticelli (Dept. of Geosciences - University of Padova - Italy)

Logos and trademarks are properties of their owners.

Sixth EGU Summer School