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2014:courses:massol:more_than_one_trait [2014/02/14 16:07] massol2014:courses:massol:more_than_one_trait [2024/01/09 18:45] (current) – external edit 127.0.0.1
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 ===== More than one trait ===== ===== More than one trait =====
  
 +Lecture [[https://www.dropbox.com/s/mpfarrzb9pm17pq/Lecture4v3versionforpdf.pdf]]
  
 === Further reading === === Further reading ===
-Arnold S.J., Bürger R., Hohenlohe P.A., Ajie B.C. & Jones A.G. (2008). Understanding the evolution and stability of the G-matrix. Evolution, 62, 2451-61.+Arnold S.J., Bürger R., Hohenlohe P.A., Ajie B.C. & Jones A.G. (2008). Understanding the evolution and stability of the G-matrix. Evolution, 62, 2451-61. [[http://people.oregonstate.edu/~arnoldst/pdf_files/Arnold%20et%20al%202008.pdf]]
  
 Barton N.H. (2000). Adaptation at the edge of a species’ range. In: Integrating ecology and evolution in a spatial context (eds. Silvertown J & Antonovics J). Cambridge University Press Cambridge, UK, pp. 365-392. Barton N.H. (2000). Adaptation at the edge of a species’ range. In: Integrating ecology and evolution in a spatial context (eds. Silvertown J & Antonovics J). Cambridge University Press Cambridge, UK, pp. 365-392.
  
-Burton O.J., Phillips B.L. & Travis J.M.J. (2010). Trade-offs and the evolution of life-histories during range expansion. Ecol Lett, 13, 1210-1220.+Burton O.J., Phillips B.L. & Travis J.M.J. (2010). Trade-offs and the evolution of life-histories during range expansion. Ecol Lett, 13, 1210-1220. [[http://www.ucl.be/cps/ucl/doc/bdiv/documents/burton_et_al_2010.pdf]] 
 + 
 +Cheptou P.-O. & Massol F. (2009). Pollination fluctuations drive evolutionary syndromes linking dispersal and mating system. Am Nat, 174, 46-55. [[http://tinyurl.com/ktt76ub]]
  
-Cheptou P.-O. & Massol F. (2009). Pollination fluctuations drive evolutionary syndromes linking dispersal and mating system. Am Nat17446-55.+Duputié A.Massol F., Chuine I., Kirkpatrick M. & Ronce O. (2012). How do genetic 
 +correlations affect species range shifts in a changing environment? Ecol Lett15251-259. [[http://tinyurl.com/kkgw4og]]
  
-Duputié A., Massol F., Chuine I., Kirkpatrick M. & Ronce O. (2012). How do genetic correlations affect species range shifts in a changing environment? Ecol Lett15251-259.+Garcia-Ramos G. & Huang Y. (2013). Competition and evolution along environmental gradients: patterns, boundaries and sympatric divergence. Evol Ecol, 27489-504. [[http://download.springer.com/static/pdf/876/art%253A10.1007%252Fs10682-012-9614-y.pdf?auth66=1392567039_0d34b3dfed9ae0909dbabcabe961cd8f&ext=.pdf]]
  
-Garcia-Ramos G. & Huang Y. (2013). Competition and evolution along environmental gradients: patterns, boundaries and sympatric divergenceEvol Ecol27489-504.+Garcia-Ramos G. & Kirkpatrick M. (1997). Genetic models of adaptation and gene flow in peripheral populationsEvolution5121-28. [[http://www.jstor.org/stable/pdfplus/2410956.pdf]]
  
-Garcia-Ramos G. & Kirkpatrick M. (1997). Genetic models of adaptation and gene flow in peripheral populations. Evolution, 5121-28.+Jones A.G., Arnold S.J. & Bürger R. (2004). Evolution and stability of the G-matrix on a landscape with a moving optimum. Evolution, 581639-1654. [[http://ped.fas.harvard.edu/publications/PEDpublications/2004/buerger_evol04.pdf]]
  
-Jones A.G., Arnold S.J. & Bürger R. (2004). Evolution and stability of the G-matrix on a landscape with a moving optimumEvolution581639-1654.+Kirkpatrick M. (2009). Patterns of quantitative genetic variation in multiple dimensionsGenetica136271-284. [[http://www.sbs.utexas.edu/kirkpatrick_lab/k/home_files/K_09_Genetica.pdf]]
  
-Kirkpatrick M. (2009). Patterns of quantitative genetic variation in multiple dimensionsGenetica136271-284. +Kirkpatrick M. & Barton N.H. (1997). Evolution of a species' rangeAm Nat1501-23[[http://www.webpages.uidaho.edu/~joyce/m563_html/projects/2011/kirkpatrick&barton_AmNat1997.pdf]]
-Roff D.A(1996)The evolution of genetic correlations: an analysis of patterns. Evolution, 50, 1392-1403.+
  
-Kirkpatrick M. & Barton N.H. (1997). Evolution of a species' range. Am Nat, 1501-23.+Kisdi E. (2002). Dispersal: Risk spreading versus local adaptation. Am Nat, 159579-596. [[http://www.jstor.org/stable/pdfplus/10.1086/339989.pdf]]
  
-Kisdi E. (2002). DispersalRisk spreading versus local adaptation. Am Nat, 159579-596.+Le Galliard J.-F., Ferrière R. & Dieckmann U. (2005). Adaptive evolution of social traitsOrigin, trajectories, and correlations of altruism and mobility. Am Nat, 165206-224. [[http://user.iiasa.ac.at/~dieckman/reprints/LeGalliardEtal2005.pdf]]
  
-Le Galliard J.-F., Ferrière R. & Dieckmann U. (2005). Adaptive evolution of social traits: Origin, trajectories, and correlations of altruism and mobilityAm Nat165206-224.+Mirrahimi S. & Raoul G. (2013). Dynamics of sexual populations structured by a space variable and a phenotypical traitTheor Popul Biol8487-103. [[http://www.math.univ-toulouse.fr/~smirrahi/MR.pdf]]
  
-Mirrahimi S. & Raoul G. (2013). Dynamics of sexual populations structured by a space variable and a phenotypical traitTheor Popul Biol8487-103.+Pease C.M., Lande R. & Bull J.J. (1989). A model of population growth, dispersal and evolution in changing environmentEcology701657-1664. [[http://www.jstor.org/stable/pdfplus/1938100.pdf]]
  
-Pease C.M., Lande R. & Bull J.J. (1989). A model of population growth, dispersal and evolution in a changing environmentEcology701657-1664.+Polechová J., Barton N.H. & Marion G. (2009). Species' range: adaptation in space and timeAm Nat174E186-204. [[http://www.bioss.ac.uk/uploads/2792/ClineM0Text33a.pdf]]
  
-Polechová J., Barton N.H. & Marion G. (2009). Species' range: adaptation in space and timeAm Nat174E186-204.+Price T.D. & Kirkpatrick M. (2009). Evolutionarily stable range limits set by interspecific competitionProc R Soc Lond B Biol Sci2761429-1434. [[http://rspb.royalsocietypublishing.org/content/276/1661/1429.full.pdf+html]]
  
-Price T.D. & Kirkpatrick M. (2009). Evolutionarily stable range limits set by interspecific competitionProc R Soc Lond B Biol Sci2761429-1434.+Ravigné V., Dieckmann U. & Olivieri I. (2009). Live where you thrive: Joint evolution of habitat choice and local adaptation facilitates specialization and promotes diversityAm Nat174E141-E169. [[http://www.iiasa.ac.at/~dieckman/reprints/RavigneEtal2009.pdf]]
  
-Ravigné V., Dieckmann U. & Olivieri I. (2009). Live where you thrive: Joint evolution of habitat choice and local adaptation facilitates specialization and promotes diversityAm Nat174E141-E169.+Roff D.A. (1996). The evolution of genetic correlations: an analysis of patternsEvolution501392-1403. [[http://www.jstor.org/stable/pdfplus/2410877.pdf]]
  
-Van Noordwijk A.J. & de Jong G. (1986). Acquisition and allocation of resources: their influence on variation in life history tactics. Am Nat, 128, 137-142.+Van Noordwijk A.J. & de Jong G. (1986). Acquisition and allocation of resources: their influence on variation in life history tactics. Am Nat, 128, 137-142. [[http://www.nioo.knaw.nl/sites/default/files/AmNat86_acq-all.pdf]]
  
-Vitalis R., Rousset F., Kobayashi Y., Olivieri I. & Gandon S. (2013). The joint evolution of dispersal and dormancy in a metapopulation with local extinctions and kin competition. Evolution, 67, 1676-1691.+Vitalis R., Rousset F., Kobayashi Y., Olivieri I. & Gandon S. (2013). The joint evolution of dispersal and dormancy in a metapopulation with local extinctions and kin competition. Evolution, 67, 1676-1691. [[http://www.evolepid.org/pub/Vitalisetal2013.pdf]]
  
-Walsh B. & Blows M.W. (2009). Abundant genetic variation + strong selection = multivariate genetic constraints: A geometric view of adaptation. Annu Rev Ecol Evol Syst, 40, 41-59.+Walsh B. & Blows M.W. (2009). Abundant genetic variation + strong selection = multivariate genetic constraints: A geometric view of adaptation. Annu Rev Ecol Evol Syst, 40, 41-59. [[http://nitro.biosci.arizona.edu/zdownload/papers/Annualreview.pdf]]
  
-Wolf M., van Doorn G.S., Leimar O. & Weissing F.J. (2007). Life-history trade-offs favour the evolution of animal personalities. Nature, 447, 581-584.+Wolf M., van Doorn G.S., Leimar O. & Weissing F.J. (2007). Life-history trade-offs favour the evolution of animal personalities. Nature, 447, 581-584. [[http://www.fed.cuhk.edu.hk/~lchang/material/Evolutionary/Development/Life-history%20trade-offs%20favour%20the%20evolution%20of%20animal%20personalities.pdf]]
  
-Yukilevich R. (2005). Dispersal evolution in fragmented habitats: the interplay between the tendency and the ability to disperse. Evol Ecol Res, 7, 973-992.+Yukilevich R. (2005). Dispersal evolution in fragmented habitats: the interplay between the tendency and the ability to disperse. Evol Ecol Res, 7, 973-992. [[http://www.evolutionary-ecology.com/abstracts/v07n07/ddar1804.pdf]]
2014/courses/massol/more_than_one_trait.1392394032.txt.gz · Last modified: 2024/01/09 18:45 (external edit)