Linear Index Selection to Improve Traits Defined as Ratios

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Linear Index Selection to Improve Traits Defined as Ratios

F. C. Gunsett^{1, 2, 3}^,

North Carolina A&T State University⁴, Greensboro 27411

Abstract

Theoretical selection response is considered for a trait definedas a ratio of two component traits. A method is presented thatestimates the genetic change in the components of a ratio whenselection is practiced directly on the ratio. Theoretical responsesfor direct selection on the ratio are compared with linear selectionindex responses. The proposed linear index maximizes the correlationbetween the index and the genotype for the ratio of interest.Use of the linear index increases selection responses as comparedwith direct selection on the ratio. Monte Carlo simulation resultsare presented for a single generation selection experiment whichindicate that the use of a linear index is more efficient forchanging traits defined as a ratio of two components traitsthan direct selection on the ratio. Direct selection on theratio is complicated by the disproportionate fashion by whichselection pressure is exerted on the component traits. Linearselection indices place a predetermined amount of selectionpressure on the traits of interest and therefore a predictableamount of genetic change should result.

Footnotes

^¹ Approved for publication by Director of Agricultural Research,North Carolina Agricultural and Technical State University,Greensboro.

^² Research supported by the College of Agriculture, North CarolinaA&T State University, CSRS/ USDA, Grant No. NC.X.-011-5-79-120-1.

^³ Research was initiated while the author was employed by FarmersHybrid Inc., Des Moines, IA.

^⁴ Dept. of Anim. Sci.

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