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Game Theory Explains Perplexing Evolutionary Stable Strategy

Side Blotch Lizards ( Uta stanburiana ). Game Theory Explains Perplexing Evolutionary Stable Strategy. Erin N. Bodine Math 188: Social Choice & Decision Making 22 – April - 2003. Observations of Morph Frequency and Fitness. Morph Frequency

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Game Theory Explains Perplexing Evolutionary Stable Strategy

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  1. Side Blotch Lizards (Uta stanburiana) Game Theory Explains Perplexing Evolutionary Stable Strategy Erin N. Bodine Math 188: Social Choice & Decision Making 22 – April - 2003

  2. Observations of Morph Frequency and Fitness Morph Frequency Sinervo and Lively find a cycle in which morph has the highest frequency. Morph Fitness Sinervo and Lively find that the cycle of morph frequency relates to the fitness of each male type.

  3. Relative Morph Fitness

  4. Rock-Paper-Scissors Game Matrix for Rock-Paper-Scissors The model of rock-paper-scissors typically used by game theorists. 1 = win 0 = draw -1 = loss for player I Payoffs shown are for player I Let nature randomly pick two side-blotched lizards to inhabit the same territory for mating. Depending on what male morph they are, the lizard with the greater fitness in that territory will play out like a game of rock-paper-scissors.

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