Biology Magazine

Death of the Fittest

Posted on the 18 July 2014 by Bjornostman @CarnyEvolution
This is imho an excessively beautiful figure! I keep staring at it getting thrills, and bliss pours over me as I explore its intricacies. This is evolution.
Death of the fittest Click to enlarge.
(You should enjoy this figure while listening to one or several of these:)

What are we looking at? Fitness over time of all individuals in a population of size 100. The blue line is average population fitness. The red line is the lineage that leads to the most fit individual after 100,000 updates.
And the real treasure? All the black lines which are all the other lineages that died out. Only the individuals who descend from the ancestor on the red line are alive near the end (technically, the most recent common ancestor (MRCA) is close to but obviously not quite at the end of the simulation).
We see two interesting facts:
  • Offspring that have deleterious mutations (that decrease fitness) survive for quite a long time, and those individuals even have offspring of their own some times. In fact, we can see that there are even deleterious mutations on the line of descent (the red line goes down on three occasions).
  • Offspring that have beneficial mutations (that increase fitness) don't always survive. In fact, most of them eventually die and those beneficial mutations are lost. Evolution does not imply survival of the fittest.
Deleterious mutations do not prohibit evolution; deleterious mutations hitchhike on the back of beneficial mutations and go to fixation that way (there is no epistasis in this model).
The simulation Constant population size of 100. Mutation rate of 0.01. Effect of mutations is drawn at random from a uniform distribution of selection coefficients between -0.05 and 0.05. One individual reproduces per computational update (Moran process), and chance of reproducing is proportional to fitness (Wright-Fisher selection).

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