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--- 2014:courses:massol:start [2014/02/04 10:00] – [Outline] massol
+++ 2014:courses:massol:start [2024/01/09 18:45] (current) – external edit 127.0.0.1
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 adaptation. During the course, I will discuss the following topics:
-Lecture 1: Adaptation and the concept of fitness
+Lecture 1: [[Adaptation and the concept of fitness]]
   * Basics of natural selection
   * The concept of fitness
   * Evolution in structured populations
-Lecture 2: Phenotypic models
+Lecture 2: [[Phenotypic models]]
   * Game theory
   * Adaptive dynamics
   * Quantitative genetics
-Lecture 3: Evolution in metapopulations
+Lecture 3: [[Evolution in metapopulations]]
   * Kin selection and group selection
   * Computing fitness in metapopulations
   * Case study: The evolution of dispersal
-Lecture 4: More than one trait
+Lecture 4: [[More than one trait]]
   * The biology of multiple traits
   * Adaptive dynamics and quantitative genetics for multiple traits
@@ Line 34: / Line 37: @@
 Evolutionary Approach (eds. Krebs JR & Davies NB). Blackwell Oxford, pp. 6284. [[http://users.ox.ac.uk/~grafen/cv/KandD2ed.pdf]]
-HoPbauer J. & Sigmund K. (1990).Adaptive dynamics and evolutionary stability. Appl Math Lett, 3, 75-79. [[http://homepage.univie.ac.at/karl.sigmund/adaptivedynamics.pdf]]
+Hofbauer J. & Sigmund K. (1990).Adaptive dynamics and evolutionary stability. Appl Math Lett, 3, 75-79. [[http://homepage.univie.ac.at/karl.sigmund/adaptivedynamics.pdf]]
 Lenormand T. (2002). Gene flow and the limits to natural selection. Trends Ecol Evol, 17, 183-189.
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 Duputié A., Massol F., Chuine I., Kirkpatrick M. & Ronce O. (2012). How do genetic
-correlations affect species range shifts in a changing environment? Ecol Lett, 15, 251-259. [[http://www.cefe.cnrs.fr/images/stories/DPTEFonctionnelle/BIOFLUX/Chercheurs/isabelle_chuine/publications/Duputie_etal_EcolLet%202012.pdf]]
+correlations affect species range shifts in a changing environment? Ecol Lett, 15, 251-259. [[http://tinyurl.com/kkgw4og]]
+Massol F., Duputié A., David P. & Jarne P. (2011). Asymmetric patch size distribution leads to disruptive selection on dispersal. Evolution, 65, 490-500. [[http://tinyurl.com/mm8dsbs]]
-Massol F., Duputié A., David P. & Jarne P. (2011). Asymmetric patch size distribution leads to disruptive selection on dispersal. Evolution, 65, 490-500. [[http://onlinelibrary.wiley.com/doi/10.1111/j.15585646.2010.01143.x/abstract]]
+===== Links for the groups =====
+On using chemical kinetics to formalize population dynamics problems [[http://www.jstor.org/stable/pdfplus/2060627.pdf]]
+On epidemics on networks [[http://cs.stanford.edu/people/jure/pubs/virus-tissec.pdf]] and [[http://www.bio.utexas.edu/research/meyers/LaurenM/VolzProcB07.pdf]]
 =====Venue and further information=====
 [[http://www.ictp-saifr.org/?page_id=4634|ICTP-SAIFR site]]