- Docente: Maria Cristina Perri
- Credits: 9
- SSD: GEO/01
- Language: Italian
- Moduli: Maria Cristina Perri (Modulo 1) Maria Cristina Perri (Modulo 4) Daniele Scarponi (Modulo 2) Federico Fanti (Modulo 3)
- Teaching Mode: Traditional lectures (Modulo 1) Traditional lectures (Modulo 4) Traditional lectures (Modulo 2) Traditional lectures (Modulo 3)
- Campus: Bologna
- Corso: First cycle degree programme (L) in Geological Sciences (cod. 8015)
Learning outcomes
At the course end the student has skills on the classic domains of palaeontology such as palaeobiology, palaeoecology, palaeobiogeography, biostratigraphy and palaeontologic taxonomy. Identification of fossils.
Course contents
A short account of the history of palaeontology. Taphonomy. Fossil associations. Biologic, physical and chemical processes in producing skeletal materials. Biostratinomic processes, burial, fossilisation and diagenesis. Fossil deposits. The science of classification. Principles of biologic/palaeontologic nomenclature. Taxonomy and parataxonomy. Taxonomic schools. Evolution. Biologic and palaeontologic evidence of evolution. Development of evolutionary theory from Lamark and Darwin to the modern synthetic theory. Principles of genetics. Codification of characters. Mutations as a primary basis in evolution. Micro- and macroevolution. Variation of gene frequencies in populations for natural selection; mutations; genetic drift. Species origins. Models of phyletic gradualism and punctuated equilibria. Macroevolution. Origin of new structural plans. Evolutionary trends. Rates of evolution. Biologic crises and adaptative radiations. Origin of life and the main steps in evolution of the biosphere. Evolution of living forms in the Precambrian and Cambrian and a short account of the Ordovician to Cretaceous palaeontologic record. Development of contemporary faunas. Ecology and palaeoecology. Autoecology and synecology. Marine ecosystems. Zonations of the benthic and pelagic marine environments. Factors limiting dispersal of marine organisms. Populations. Palaeoichnology: classification and nomenclature of fossil traces; ichnofacies; palaeoenvironmental importance and stratigraphic significance of fossil traces.
Stratigraphy: lithostratigraphic, chemostratigraphic, biostratigraphic, magnetostratigraphic, chronostratigraphic and geochronologic units. Global standard chronostratigraphic scale. Time-scale of geomagnetic reversals. Integrated stratigraphic correlations. Palaeobiogeography. Organismic distribution according to models of dispersion and vicariancy. Biogeographic and palaeobiogeographic realms, regions and provinces. Palaeontologic evidence supporting plate tectonics. Peculiarities of insular faunas.
Systematic palaeontology: Foraminifers, radiolarians, diatoms, silicoflagellates, coccolithophorids, sponges including porifers, cnidarians, bryozoans, brachiopods, molluscs, arthropods (principally trilobites, ostracods, cirripeds, eurypterids), echinoderms, graptolites and conodonts. Morphologic characters, palaeoenviromental significance, evolutionary trends and stratigraphic distribution of these groups. Exercises on identification and description (taxonomy) of fossils.
Readings/Bibliography
S. Raffi & E. Serpagli. Introduzione alla Paleontologia. UTET, Torino.
R. Boardman, A.H. Cheetram, A.J. Rowell. Fossils Invertebrates. Blackwell Scientific Publ.
N. Eldredge. Fossils. Aurum Press.
D.R. Prothero. Bringing fossils to life. An Introduction to Paleobiology. Library of Congress Cataloging-in-Publication Data
Teaching methods
Lectures; practical laboratory exercises; field excursions
Assessment methods
Oral examination with practical test on fossil identifications
Teaching tools
LCD projector; overhead projector; blackboard; fossil collections; laboratory tools such as binocular microscopes and floodlights; tools and teaching aids for field excursions.
Office hours
See the website of Maria Cristina Perri
See the website of Daniele Scarponi
See the website of Federico Fanti