At the end of the course, the students will have acquired:
The acquisition of knowledge will be monitored and assessed during the lab activities, by means of tests or meetings between the lecturer and group of students.
The student will be able to describe and classify igneous, metamorphc and sedimentary rocks. The student will also be able to link rocks to their genetic processes in the framework of plate tectonics.
The acquisition of skills will be assessed during the lab activities.
The student will make practical experience in the description, classification and origin of rocks.
The acquisition of behaviors will be assessed during the lab activities.
Fundamental of Geology, as taught in the Preparatory Year.
Blended Learning: 6 ECTS credits of lectures online through MS Teams platform. 4 ECTS credits of lectures in presence. 2 ECTS credits of laboratory in presence.
Teaching materials available on MS Teams platform for dowload. Communication between teacher and students through MS Teams platform and in presence.
Introductory Geology – Exogenous (6 credits)
Earth materials: Sedimentary rocks
Rocks cycle and classification of sedimentary rock. Distribution of sedimentary rocks and their importance for society.Sedimentary rocks: Clastic, Biochemical, Biogenic, Organic, Chemical precipitates. Textural parameters. Methods of observation and identification of sedimentary rocks (hand lens, optical microscope).Sedimentray rocks: their use in society.
Sedimentary processes
Selective and mass sedimentary transport. Type of deposits. Ripples from unidirectional bidirectional and oscillatory currents and their classification. Mass wasting processes. Types of stratifications.
Stratigraphy
Sedimentary rocks and earth geological history: principles of stratigraphy. Types of stratigraphic contacts. Unconformities. Lithostratigraphic Biostratigraphic and Cronostratigraphic units. Methods of stratigraphic dating. The field description of sedimentary rocks and stratigraphic sequences
Sedimentary environments
Actualism principle, Walter's Law and types of sedimentary sequences. Facies concept. Sedimentary depositional environments and their classification. Continental, coastal and marine sedimentary environments.
Tectonic and geodynamics
Rocks deformation and main structures of brittle and ductile deformation. Fault and fold. Geodynamic environments of sedimentary rocks.
Introductory Geology - Endogenous (6 credits)
Introduction
Time, space, and rates in Geology. Introducing the Blue Planet.
Earth's materials: elements, minerals, rocks
Description and classification of minerals - instruments, methods. Description and classification of rocks - instruments (hand lens, optical microscope), texture, mineralogy, chemical composition (chemical analyses, tables). Description and classification of igneous rocks - modal plots, chemical plots. Description and classification of metamorphic rocks. Earth materials as resources: an overview.
Plate tectonics
Earth's internal structure. Lithosphere and plates. Earth internal motion and geodynamics, physiography and structure of plate margins. The plate margins - divergent, convergent, transcurrent - earthquakes and volcanoes.
Rock forming processes in the plate tectonic scenario
Processes at divergent/constructive plate boundaries - magma genesis, magma ascent, intrusion, volcanism, hydrothermal metamorphism. Processes at convergent plate boundaries - subduction zones - magma genesis, magma ascent and intrusion, regional metamorphism - contact metamorphism, arc volcanism. Processes at convergent plate boundaries - collision zones - post-collisional processes - metamorphism and crustal melting. Processes in intraplate settings - oceanic islands, intracontinental rifts.
Rocks in the lab and in the field
Field description of igneous rocks - granitic and mafic complexes - shallow level intrusions. Field description of igneous rocks - lava flows - pyroclastic rocks. Field description of metamorphic rocks. Classification of igneous rocks by process. Classification of metamorphic rocks by process.
Chronostratigraphy/isotopic dating
Geology as an historical science- isotope chronology.
Stephen J. Reynolds, Julia K. Johnson , Paul J. Morin, Charles M. Carter, Exploring Geology, 6th edition, 2022, McGraw-Hill Education.
Brian J. Skinner, Barbara Murck, The blue planet: an introduction to earth system science, 3rd ed. 2011, John Wiley & Sons, Inc.
Chris King, Exploring Geoscience across the Globe, Published at: http://www.igeoscied.org/teaching-resources/geoscience-text-books/ (open access, free download).
Brian J. Skinner, Stephen C. Porter, Jeffrey Park, The Dynamic Earth - An introduction to physical geology, 5th edition, 2004, John Wiley & Sons.
The exam will consist of
COMMISSIONE D'ESAME
Presidente: Sergio Rocchi
membri: Giovanni sarti, Silvia Fornasaro
Presidente supplente:Giovanni Sarti
EXAMINATION COMMITTEE
President: Sergio Rocchi. Members: Giovanni Sarti, Silvia Fornasaro
Substitute president: Adriano Ribolini. Substitute members: Francesca Meneghini, Pier paolo Giacomoni.