A Mixed-Model Approach to Mapping Quantitative Trait Loci in Barley on the Basis of Multiple Environment Data

A Mixed-Model Approach to Mapping Quantitative Trait Loci in Barley on the Basis of Multiple Environment Data

Hans-Peter Piepho^a
^a Institut für Nutzpflanzenkunde, FB 11, Universität Kassel, 37213 Witzenhausen, Germany

Corresponding author: Hans-Peter Piepho, Universität Kassel, Steinstrasse 19, 37213 Witzenhausen, Germany., piepho{at}wiz.uni-kassel.de (E-mail)

Communicating editor: J. B. WALSH

In this article, I propose a mixed-model method to detect QTLwith significant mean effect across environments and to characterizethe stability of effects across multiple environments. I demonstratethe method using the barley dataset by the North American BarleyGenome Mapping Project. The analysis raises the need for mixedmodeling in two different ways. First, it is reasonable to regardenvironments as a random sample from a population of targetenvironments. Thus, environmental main effects and QTL-by-environmentinteraction effects are regarded as random. Second, I expecta genetic correlation among pairs of environments caused byundetected QTL. I show how random QTL-by-environment effectsas well as genetic correlations are straightforwardly handledin a mixed-model framework. The main advantage of this methodis the ability to assess the stability of QTL effects. Moreover,the method allows valid statistical inferences regarding averageQTL effects.

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