Mean d2 and Divergence Time: Transformations and Standardizations

doi:10.1093/jhered/esh021

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Journal of Heredity 2004:95(2):165-171
© 2004 The American Genetic Association

Brief Communication

Mean d² and Divergence Time: Transformations and Standardizations

B. D. Neff

From the Department of Biology, University of Western Ontario, London, Ontario N6A 5B7, Canada. I thank Beth MacDougall-Shackleton, Louis Bernatchez, and two anonymous reviewers for helpful comments, and Lindi Wahl, Baolai Ge, and the SHARCNET facility for access to their computers. This work was supported by the Natural Sciences and Engineering Research Council of Canada the Canadian Foundation for Innovation, the Ontario Innovation Trust, and Compaq.

Address correspondence to Bryan D. Neff at the address above or e-mail: bneff{at}uwo.ca.

The fitness consequences of inbreeding and outbreeding haveintrigued biologists for a long time. Recently a measure ofrelatedness of parental haplotypes has been proposed calledmean d². This measure is based on a stepwise mutational processand therefore is tailored to microsatellite genetic markers.Theoretical work suggests that mean d² typically is less suitedfor measuring fitness consequences due to close inbreeding ratherthan heterozygosity. However, mean d² may be more appropriatethan heterozygosity for measuring divergence times over longertime scales and thus for detecting outbreeding depression. Here,simulations are used to (1) identify appropriate standardizationcoefficients and transformations for mean d², and (2) evaluatemean d² as a measure of divergence time of parental lineagesover time scales up to 10,000 generations. Results show thatmean d² is a linear predictor of divergence time. The coefficientof variation of mean d² approaches a constant value with increasingdivergence time and therefore logarithm transformation is appropriateto restore homoscedasticity. When mutation rates and sizes areknown for each locus they can be incorporated into a standardizationcoefficient to increase the precision of mean d². As few as10 loci can explain more than 70% of the variation in divergencetime between lineages. While heterozygosity outperforms meand² at detecting differences in divergence time over relativeshort time periods ( $<=$ 1000 generations), mean d² can outperformheterozygosity at detecting differences over longer time periods( $>=$ 1000 generations). However, gene flow of as littleas 1% per generation can significantly reduce the ability ofeither mean d² or heterozygosity to estimate divergence time.

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