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snippets [2013/02/28 11:54] – [Gradual change] mkoppsnippets [2019/03/21 10:21] (current) – external edit 127.0.0.1
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   * Make qualitative predictions about the effect of different environmental and genetic variables.   * Make qualitative predictions about the effect of different environmental and genetic variables.
   * Provide rough rules of thumb for the magnitude of genetic (but not plastic, wee above) changes.   * Provide rough rules of thumb for the magnitude of genetic (but not plastic, wee above) changes.
-  * Make suggestions about measurements and scaling (e.g. Herford et al. 2004, Hansen and Houle 2008, Gingerich 2009)+  * Make suggestions about measurements and scaling (e.g. Hereford et al. 2004, Hansen and Houle 2008, Gingerich 2009)
  
 == Outline == == Outline ==
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 </latex> </latex>
  
-Here, z is the phenotype of an individual, theta_t is the optimum at time t, and the "variance" sigma^2 measures the width of the fitness function (i.e., selection is strong sigma^2 is small). Here and later on, our notation mainly follows ... (Bürger and Lynch 1995?). Frequently, it is assumed that, at time 0, z = theta_0, that is, the population is perfectly adapted before the optimum stops moving. Movement of the optimum is typically assumed to the linear, potentially accompanied by stochastic white noise:+Here, z is the phenotype of an individual, theta_t is the optimum at time t, and the "variance" sigma^2 measures the width of the fitness function (i.e., selection is strong sigma^2 is small). Here and later on, our notation mainly follows ... (Bürger and Lynch 1995?). Frequently, it is assumed that, at time 0, z = theta_0, that is, the population is perfectly adapted before the optimum starts moving. Movement of the optimum is typically assumed to be linear, potentially accompanied by stochastic white noise:
  
 <latex> <latex>
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 <latex> <latex>
 \Delta \bar z^* = ... \Delta \bar z^* = ...
 +</latex>
 +
 +Even if the genetic variance is assumed to be constant, whether or not the population can actually follow the optimum depends on the population growth rate (mean fitness) at the equilibrium. The mean fitness can be decomposed into
 +
 +<latex>
 +\bar w_t = w_{max} - l_g - l_d
 </latex> </latex>
 === Multivariate case === === Multivariate case ===