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651-4087-00L 3 Credits BSC , MSC , GS D-ERDW
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Case Studies in Exploration and Environmental Geophysics

Lecturers & Examiners: Prof. Dr. Hansruedi Maurer, Dr. Marian Hertrich, Prof. Dr. Johan Robertsson, Prof. Dr. Martin O. Saar, Dr. Tom Spillmann
VVZ CR n/a

Last Updated: 2026-02-05 16:38:38

Abstract

This course focuses on benefits and limitations of geophysical methods applied to problems of high societal relevance. It is demonstrated, how seismics, ground-penetrating-radar and other electromagnetic methods can be employed in geothermics, the cryosphere, hydrocarbon exploration, natural hazard assessments and radioactive waste disposal problems.

Objective

This course is set up for both, geophysicists and non-geophysicists. The former will become familiar with applications of geophysical methods, for which they have learned the underlying theory in other courses. Non-geophysicists (i.e., potential users of geophysical technics, such as geologists and geotechnical engineers) will learn, which geophysical method or which combination of geophysical methods can be used to solve a particular in their realm. The main learning goal for both groups is to understand the benefits and limitations of geophysical techniques for important applications, such as exploration problems, waste disposal, or natural hazards.

Content

During the first part of the course, various themes will be introduced, in which geophysical methods play a key role. Module 1 (22.2.): Natural Hazards (H.R. Maurer) Module 2 (29.2./11.4): Geothermal Energy (M. Saar) Module 3 (7.3.): Long-term geophysical monitoring of Geologic Carbon Sequestration (GCS) projects (B. Biondi) Module 4 (14.3./21.3.): Radioactive Waste Disposal (T. Spillmann) Module 5 (25.4.): Cryosphere Applications (H.R. Maurer) Module 6 (28.3.): Hydrocarbon Exploration (Fons ten Kroode) During the second part of the course, we will focus on Deep Underground Laboratories. They offer exciting opportunities for research associated with many themes covered in Modules 1 to 6. The lab visits are scheduled as follows 2.5 .: Mont Terri Laboratory 16.5: Bedretto Laboratory 23.5.: Grimsel Test Site The laboratory visits will occupy the full afternoons of the respective days. For earning the credit points, at least two out of the three laboratory visits are mandatory, but the students are encouraged, to join all visits. Active participation of the students will be required. Prior to the laboratory visits, the students must familiarize themselves with one experiment (in total, not per laboratory), and they will introduce this experiment during the visit to their fellow students. Finally, a short report on the experiment assigned will have to be written. Presentation and report will contribute 50% to the final grade. The remaining 50% of the final grade will be earned with an oral exam. More details will be provided during the course.

Resources

Lecture Notes

Course material will be provided in the teaching repository associated with this course.

Literature

Provided during the course

Learning Materials (Links)

General Information

Language
English
Levels
BSC , MSC , GS
Frequency
Yearly recurring

Examination

Type
graded semester performance
Written Exam

Course Components

Type Title Time & Place Hours
lecture with exercise Case Studies in Exploration and Environmental Geophysics
  • Thu 13:15-16:00 (NO F 39)
35 h semesterly

Offered In