250049 VO Mathematische Populationsgenetik (2013S)
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Details
Sprache: Englisch
Prüfungstermine
- Donnerstag 04.07.2013
- Donnerstag 04.07.2013
- Montag 15.07.2013
- Montag 09.09.2013
- Montag 16.12.2013
- Montag 30.06.2014
- Montag 13.10.2014
Lehrende
Termine (iCal) - nächster Termin ist mit N markiert
- Dienstag 05.03. 10:15 - 11:55 Seminarraum
- Mittwoch 06.03. 11:05 - 11:55 Seminarraum
- Dienstag 12.03. 10:15 - 11:55 Seminarraum
- Mittwoch 13.03. 11:05 - 11:55 Seminarraum
- Dienstag 19.03. 10:15 - 11:55 Seminarraum
- Mittwoch 20.03. 11:05 - 11:55 Seminarraum
- Dienstag 09.04. 10:15 - 11:55 Seminarraum
- Mittwoch 10.04. 11:05 - 11:55 Seminarraum
- Dienstag 16.04. 10:15 - 11:55 Seminarraum
- Mittwoch 17.04. 11:05 - 11:55 Seminarraum
- Dienstag 23.04. 10:15 - 11:55 Seminarraum
- Mittwoch 24.04. 11:05 - 11:55 Seminarraum
- Dienstag 30.04. 10:15 - 11:55 Seminarraum
- Dienstag 07.05. 10:15 - 11:55 Seminarraum
- Mittwoch 08.05. 11:05 - 11:55 Seminarraum
- Dienstag 14.05. 10:15 - 11:55 Seminarraum
- Mittwoch 15.05. 11:05 - 11:55 Seminarraum
- Mittwoch 22.05. 11:05 - 11:55 Seminarraum
- Dienstag 28.05. 10:15 - 11:55 Seminarraum
- Mittwoch 29.05. 11:05 - 11:55 Seminarraum
- Dienstag 04.06. 10:15 - 11:55 Seminarraum
- Mittwoch 05.06. 11:05 - 11:55 Seminarraum
- Dienstag 11.06. 10:15 - 11:55 Seminarraum
- Mittwoch 12.06. 11:05 - 11:55 Seminarraum
- Dienstag 18.06. 10:15 - 11:55 Seminarraum
- Mittwoch 19.06. 11:05 - 11:55 Seminarraum
- Dienstag 25.06. 10:15 - 11:55 Seminarraum
- Mittwoch 26.06. 11:05 - 11:55 Seminarraum
Information
Ziele, Inhalte und Methode der Lehrveranstaltung
This lecture course gives an introduction to mathematical population genetics. Population genetics is concerned with the study of the genetic composition of populations and how this composition is changed by genetic, ecological, or evolutionary factors such as selection, mutation, recombination, mating, or migration. Therefore, in population genetics these mechanisms and their interactions are studied. Population genetics is a prerequisite for understanding biological evolution and has important applications in animal and plant breeding, as well as in conservation biology. In this course, an introduction to the most fundamental mathematical models is provided. These are usually formulated in terms of differential- or difference equations, or as Markov processes. In the simplest cases, these models describe the evolution of gene frequencies under the influence of the above mentioned factors. Also models are designed that allow inferences about evolutionary processes in the history of a population given data of its present genetic conposition. Essentially, Reinhard Bürger will teach the first half of the course, and Joachim Hermisson the second. This lecture course will be accompanied by Übungen (Proseminar), held by Doz. Dr. Claus Rüffler. Students are strongly advised to attend these Übungen because many important examples will be treated there that illustrate and deepen the theory covered in the lectures.
Art der Leistungskontrolle und erlaubte Hilfsmittel
Oral exam
Mindestanforderungen und Beurteilungsmaßstab
Prüfungsstoff
Literatur
Zuordnung im Vorlesungsverzeichnis
MBIP
Letzte Änderung: Sa 26.02.2022 00:25