Theoretical Basis of the Beavis Effect

Theoretical Basis of the Beavis Effect

Shizhong Xu^a
^a Department of Botany and Plant Sciences, University of California, Riverside, California 92521

Corresponding author: Shizhong Xu

Communicating editor: S. OTTO

The core of statistical inference is based on both hypothesistesting and estimation. The use of inferential statistics forQTL identification thus includes estimation of genetic effectsand statistical tests. Typically, QTL are reported only whenthe test statistics reach a predetermined critical value. Therefore,the estimated effects of detected QTL are actually sampled froma truncated distribution. As a result, the expectations of detectedQTL effects are biased upward. In a simulation study, WilliamD. Beavis showed that the average estimates of phenotypic variancesassociated with correctly identified QTL were greatly overestimatedif only 100 progeny were evaluated, slightly overestimated if500 progeny were evaluated, and fairly close to the actual magnitudewhen 1000 progeny were evaluated. This phenomenon has subsequentlybeen called the Beavis effect. Understanding the theoreticalbasis of the Beavis effect will help interpret QTL mapping resultsand improve success of marker-assisted selection. This studyprovides a statistical explanation for the Beavis effect. Thetheoretical prediction agrees well with the observations reportedin Beavis's original simulation study. Application of the theoryto meta-analysis of QTL mapping is discussed.

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