SPACE-GEOLOGY

Methods for multiscale Earth science modelling

Authors

Affiliations

Florian Franziskakis

Institute for Environmental Sciences, University of Geneva

Sébastien Biass

Department of Earth Sciences, University of Geneva

Grégory Giuliani

Institute for Environmental Sciences, University of Geneva

Published

March 27, 2026

Welcome to the SPACE GEOLOGY course!

This is a practical course that explores what cutting-edge computing and Earth observation tools can bring to the modern scientist’s toolbox. Through concrete applications at the global scale (for example, reconstructing geology, climate, and landscapes over hundreds of millions of years) and at the local scale (for example, mapping risks and vulnerability in an alpine context), the course illustrates how the use of interactive coding notebooks, a dedicated software library, and open-access datasets can be integrated to study the Earth.

Learning Objective

This course enables students to learn new ways to explore, process, analyze, and visualize geological and environmental geospatial data.

Course Structure

Monday March 23 - Rue des Maraîchers Building - Room 102 (morning) & 605 (afternoon)

09:00 - 09:15 Intro to SPACE-GEOLOGY

09:15 - 10:00 Lecture: GIS & Remote Sensing in Earth Sciences (G. Giuliani)

10:00 - 12:30 Python Environment Setup

12:30 - 13:30 Lunch

13:30 - 17:00 Exercise 1.1: Reconstructing Earth’s Past – From a Snapshot to Deep Time

Tuesday March 24 - Rue des Maraîchers Building - Room 605 (all day)

09:00 - 09:30 Feedback from Day 1

09:30 - 10:30 Lecture: Reconstructing the Earth in Deep-time using Plate Tectonic Models (C. Vérard)

10:30 - 12:30 Exercise 1.2: How Fast Was Earth’s Engine Running?

12:30 - 13:30 Lunch

13:30 - 17:00 Exercise 1.2 (continued)

Wednesday March 25 - Rue des Maraîchers Building - Room 606 (all day)

9:15 - 9:30 Feedback from Day 1

9:30 - 10:30 Palaeoclimate Modelling: the Role of Palaeogeography (N. Werner)

10:30 - 12:30 Exercise 1.3: Palaeogeography Meets Palaeoclimatology

12:30 - 13:30 Lunch

13:30 - 17:00 Exercise 1.3 (continued)

Thursday March 26 - Rue des Maraîchers Building - Room 201 (all day)

9:00 - 10:00 Introduction to GIS for Landslide Susceptibility Assessement (S. Biass)

10:00 - 12:30 Exercise 2: Landslide Susceptibility Assessment

12:30 - 13:30 Lunch

13:30 - 17:00 Exercise 2 (continued)

Friday March 27 - Rue des Maraîchers Building - Room 102 (all day)

9:00 - 12:30 Exercise 2 (continued)

12:30 - 13:30 Lunch

13:30 - 17:00 Wrap-up & Report Writing

Exercise 1: Evolution of the Earth in deep-time

This exercise introduces students to geological modelling in GIS through a progressive, research-style exploration of Earth’s deep-time evolution using the Palaeo Data Cube. Starting with paleogeographic reconstructions, students analyze how land–ocean distribution changed from 100 Ma to the entire Phanerozoic by loading GeoTIFF rasters, computing global statistics, and visualizing maps and time series in Python. The course then expands to test geodynamic hypotheses by integrating seafloor age, crustal thickness, and lithospheric thickness datasets to examine how these layers are linked. Finally, students explore climate data (temperature, precipitation) and generate climate zone maps. Across all exercises, students develop core GIS and coding skills, learn to automate multi-dataset workflows, and interpret how tectonics, climate, and surface processes interact to shape Earth systems over hundreds of millions of years.

Exercise 2: Landslide risk assessement in an Alpine context

The second exercise focuses on a regional-scale application in the Swiss Alps, where students assess landslide susceptibility using GIS-based spatial analysis. By integrating high-resolution digital elevation models with geological maps and other relevant spatial layers, students evaluate how topography and geological conditions control slope instability. The exercise emphasizes practical risk assessment methods, including terrain analysis and multi-layer overlay, to identify areas most prone to landslides in an Alpine environment.

More information

SPACE-GEOLOGY is a 3 ECTS course given by the University of Geneva, as part of the Complementary Certificate of Geomatics, the Master in Environmental Sciences, and the Master in Earth Sciences.

This course is being updated and made fully open thanks to support from UNIGE’s Open Research Data call for projects, as part of the Palaeo Data Cube project.

For questions, please write to florian.franziskakis@unige.ch