Theoretical Aspects of Selection for Yield in Stress and Non-Stress Environment

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Theoretical Aspects of Selection for Yield in Stress and Non-Stress Environment¹

A. A. Rosielle and J. Hamblin²

The question of choice of selection criterion when lines aregrown in stress and non-stress environments is examined froma theoretical standpoint in this paper. Tolerance to stressis defined as the difference in yield between stress and non-stressenvironments, while mean productivity is the average yield instress and non-stress environments. Equations are developedfor the genetic correlations of tolerance and mean productivitywith one another and with yields in stress and non-stress environmentsin terms of the ratio of genetic variances and the genetic correlationsbetween yields in stress and non-stress environments. Theseequations show that selection for tolerance to stress will generallyresult in a reduced mean yield in non-stress environments anda decrease in mean productivity. Selection for mean productivitywill generally increase mean yields in both stress and non-stressenvironments. Tolerance and mean productivity show negativegenetic correlations whent he genetic variance in stress environmentsis less than the genetic variance in non-stress environments.This result provides an explanation for the positive correlationsoften reported between regression coefficient stability andmean productivity; a line with high tolerance to stress normallywould have a low regression coefficient stability and geneticvariances in stress environments are generally lower than innon-stress enviornments.

Key Words: Mean productivity • Regression coeffecient stability • Selection criteria • Tolerance

^¹ Contribution from the Western Australian Dep. of Agric.

^² Plant breeders, Western Australian Dep. Agric., (presently:Dep. Botany and Plant Science, Univ. of California, Riverside,CA 92521, and "NuKara," Howatharra Road, Nanson, via Nabawa,Western Australia).

Received for publication October 27, 1980.

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				W. N. Stiller, P. E. Reid, and G. A. Constable Maturity and Leaf Shape as Traits Influencing Cotton Cultivar Adaptation to Dryland Conditions Agron. J., May 1, 2004; 96(3): 656 - 664. [Abstract] [Full Text] [PDF]

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Theoretical Aspects of Selection for Yield in Stress and Non-Stress Environment1

Theoretical Aspects of Selection for Yield in Stress and Non-Stress Environment¹