PT - JOURNAL ARTICLE AU - Sandeep Venkataram AU - Diamantis Sellis AU - Dmitri A. Petrov TI - Ploidy and the Predictability of Evolution in Fisher’s Geometric Model AID - 10.1101/001016 DP - 2013 Jan 01 TA - bioRxiv PG - 001016 4099 - http://biorxiv.org/content/early/2013/12/04/001016.short 4100 - http://biorxiv.org/content/early/2013/12/04/001016.full AB - Predicting adaptive evolutionary trajectories is a primary goal of evolutionary biology. One can differentiate between forward and backward predictability, where forward predictability measures the likelihood of the same adaptive trajectory occurring in independent evolutions and backward predictability measures the likelihood of a particular adaptive path given the knowledge of starting and final states. Recent studies have attempted to measure both forward and backward predictability using experimental evolution in asexual haploid microorganisms. Similar experiments in diploid organisms have not been conducted. Here we simulate adaptive walks using Fisher’s Geometric Model in haploids and diploids and find that adaptive walks in diploids are less forward- and more backward-predictable than adaptive walks in haploids. We argue that the difference is due to the ability of diploids in our simulations to generate transiently stable polymorphisms and to allow adaptive mutations of larger phenotypic effect. As stable polymorphisms can be generated in both haploid and diploid natural populations through a number of mechanisms, we argue that inferences based on experiments in which adaptive walks proceed through succession of monomorphic states might miss many of the key features of adaptation.