NIGK15016U Cancelled: Lithosphere Structure from Geophysical Data

Volume 2019/2020
Education

MSc Programme in Geology-Geoscience

Content

An advanced geophysics course covering lithosphere formation, secular evolution of lithosphere, tectonic processes in the lithosphere,
importance of the lithosphere for retention of natural resources, geophysical methods used for imaging the lithosphere, methods for modelling processes related to the lithosphere.

  • Synthesis and analysis of the structure of the upper 300 km of the Earth globally, with focus on crustal and upper mantle heterogeneity in various tectonic settings.
  • Geophysical methods used for imaging the lithosphere; their advantages and uncertainties.
  • Lithosphere structure in continents and oceans as reflected in seismic and electrical parameters; thermal regime and lithosphere temperatures; rheology and deformation; gravity data and density; interpretations of lithosphere heterogeneities in terms of variations in composition, temperature, water content, and melting.
  • Processes related to the lithosphere formation and secular evolution from Archean till present; effects of mantle convection and plate tectonics on lithosphere modification.
  • Formation and retention of hydrocarbons and mineral resources during the lithosphere evolution.
  • Focus on problems which are subject of on-going big debates in geophysics.
Learning Outcome

Knowledge:

  • An understanding of the current state-of-the-art geophysical methods for studying the lithosphere, including uncertainties, resolution, theoretical and practical limitations.
  • General knowledge of the structure of the lithosphere in different tectonic settings globally.
  • An overview of processes that form, modify and destroy the lithosphere with understanding of the links between the lithosphere structure and its evolution.
  • Practical importance of knowledge of the lithosphere structure and processes: natural hazards, retention of natural resources in different tectonic settings, etc.
  • Appreciation of the limitations of our present understanding of the lithosphere structure and evolution, including major on-going debates in geophysics.


Skills:

  • Identification of key features of the lithosphere
  • Identification of methods for imagining the lithospheric structure
  • Understanding of current literature on the subject, including skills to critically summarize information, present this understanding, and defend your point of view.
  • Understanding of geodynamic process leading to formation of mineral and hydrocarbon resources in relation to the lithosphere structure and evolution.
  • Scientific reporting, including report writing in the style of a research proposal, and oral presentations.


Competences:

Upon completion of the course, students should show:

  •  understanding of the globally heterogeneous structure of the lithosphere and its characteristics in different tectonic settings;
  • geophysical methods for studies of structure and processes in the lithosphere, including theoretical and practical limitations of the methods and their interpretations;
  • processes that form and modify the lithosphere, including formation and retention of mineral and hydrocarbon resources in the Earth.
  • The student should demonstrate this insight by scientific reporting on provided subjects.

The course is based on the book:

Artemieva I.M., 2011. "The lithosphere: An interdisciplinary approach", Cambridge University Press

and on additional reading material.

BSc Programme in Geology or equivalent is recommended.
BSc and MSc courses in Geophysics, including the two BSc courses “Introduction to Solid Earth Geophysics” and “Geophysics: Global Tectonics” or equivalent.
Class teaching with lectures and active participation of students such as student presentations, group discussions, report writing, etc. For the teaching plan, please see Absalon.
  • Category
  • Hours
  • Class Seminar
  • 7
  • Lectures
  • 28
  • Preparation
  • 171
  • Total
  • 206
Collective
Continuous feedback during the course of the semester

Students receive feedback during classes based on their questions related to the course content.

Credit
7,5 ECTS
Type of assessment
Oral examination, 20 minutes
Written assignment, during course
The written assignment is prepared during the course and must be handed in prior to the exam week. The oral exam uses the written assignment as its point of departure. It includes the titles listed in the officially approved reading list. Part-exams are not weighted, and an overall assessment is is given after the oral exam.
Aid
Without aids
Marking scale
7-point grading scale
Censorship form
No external censorship
Several internal examiners.
Re-exam

Identical to ordinary exam.

The written assignment must be handed in prior to the re-examination week. 20 minutes oral examination. The oral exam uses the written assignment as its point of departure. It includes the titles listed in the officially approved reading list.  Part-exams are not weighted, and an overall assessment is is given after the oral exam.

Criteria for exam assesment

Please see learning outcome.