- Docente: Luca Gasperini
- Credits: 8
- SSD: GEO/03
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
- Corso: Second cycle degree programme (LM) in Geology and Land Management (cod. 8027)
Learning outcomes
The essential tools for interpreting the sesimic profiles and
reconstructing balanced geological cross sections will be the main
outcome of this course. Students will have the skill of: - defining
the main tectonic and sedimentary feautures from 2D seismic
profiles; - realizing geological cross-section from surface geology
and weel data sets and sesismic profiles; - retrodeforming and
validating gelogical cross sections.
A special emphasis will be given on utilizing computer softwares
dedicated to: i) management of 3D geological data set from
multiple sources; ii) visualization, manipulation and
time-space conversion of sesismic profiles, iii) retrodeformation
and validation of geological cross section in 2D and 3D.
Course contents
Concept of balanced geological cross sections. Construction,
retrodeformation, forwarding modelling and validation. Geometry of
tectonic structures and their association. Detailed analysis of the
internal geometry in the main tectonic structures: 1) listric
normal faults and associated folds, syn-rift sequences. 2)
fault-related folds (fault-bend, fault-propagation, detachment
folds), geometry of folding and deformation of beds, relationships
between tectonics and sedimentation.
Examples from seismic profiles and surface geology.
Refraction and reflection seismic prospecting: basic principles,
elements and methods of acquisition.
Seismic profiles, recording and processing: CMP, stacking,
deconvolution, migration.
Well data reading and interpretation. Comparison between seismic
data and well data. Conversion-time distances.
Interpretation of seismic profiles. Graphic reconstruction
(line-drawing) and choice of reflectors. Identification of key beds
and horizons. Recognition of unconformities and depositional
sequences. Seismic stratigraphy. Reconstruction of tectonic
structures.
Interpretation of seismic profiles through the software Move 2010:
representation, conversion of seismic profiles, and their 2D and 3D
viewing; management and representation in 2D and 3D of well data;
overlay of data from wells on seismic profiles;
interpretation.
Construction of balanced geological sections from surface data,
data from well, and seismic profiles. Graphical procedures
and the software Move 2010. Construction of geological sections,
kinematic and geometric constraints. Retrodeformation. Reiterative
process of removal of errors, balancing and validation.
Readings/Bibliography
-- Woodward, N.B, Boyer, S.E. and Suppe, J. (1989) Balanced
Geological Corss Sections. Short Course in Geology Volume 6.
American Geophysical Union.
-- Corrao, M e Coco, G (2006) Geofisica Applicata. Dario Flaccovio
Editore.
-- McQuillin, R., Bacon, M. e Barclay, W. (1979) An Introduction to
Seismic Interpretation. Graham & Trotman Limited.
-- Suppe, J. (1985) Principles of Structural Geology. Prentice-Hall
Inc
Teaching methods
Lectures, class exercises, computer exercises
(laboratory).
Assessment methods
Written exhams: realization of balanced cross sections and
interpretation of seismic profiles.
Teaching tools
Classroom and laboratory lessons will be supported by the dedicated software Move 2012-2013 Suite (under the Academic Software Initiative of Midland Valley Exploration Ltd.)
Office hours
See the website of Luca Gasperini