Heterosis for Viability, Fecundity, and Male Fertility in Drosophila melanogaster : Comparison of Mutational and Standing Variation

Heterosis for Viability, Fecundity, and Male Fertility in Drosophila melanogaster : Comparison of Mutational and Standing Variation

James D. Fry^a, Stefanie L. Heinsohn^a, and Trudy F. C. Mackay^a
^a Department of Genetics, North Carolina State University, Raleigh, North Carolina 27695-7614

Corresponding author: James D. Fry, Department of Biology, Utah State University, Logan, UT 84322-5305, jdfry{at}biology.usu.edu (E-mail).

Communicating editor: A. G. CLARK

If genetic variation for fitness traits in natural populations("standing" variation) is maintained by recurrent mutation,then quantitative-genetic properties of standing variation shouldresemble those of newly arisen mutations. One well-known propertyof standing variation for fitness traits is inbreeding depression,with its converse of heterosis or hybrid vigor. We measuredheterosis for three fitness traits, pre-adult viability, femalefecundity, and male fertility, among a set of inbred Drosophiliamelanogaster lines recently derived from the wild, and alsoamong a set of lines that had been allowed to accumulate spontaneousmutations for over 200 generations. The inbred lines but notthe mutation-accumulation (MA) lines showed heterosis for pre-adultviability. Both sets of lines showed heterosis for female fecundity,but heterosis for male fertility was weak or absent. Crossesamong a subset of the MA lines showed that they were stronglydifferentiated for male fertility, with the differences inheritedin autosomal fashion; the absence of heterosis for male fertilityamong the MA lines was therefore not caused by an absence ofmutations affecting this trait. Crosses among the inbred linesalso gave some, albeit equivocal, evidence for male fertilityvariation. The contrast between the results for female fecundityand those for male fertility suggests that mutations affectingdifferent fitness traits may differ in their average dominanceproperties, and that such differences may be reflected in propertiesof standing variation. The strong differentiation among theMA lines in male fertility further suggests that mutations affectingthis trait occur at a high rate.

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