Optimum and decorrelated constrained multistage linear phenotypic selection indices theory

Optimum and decorrelated constrained multistage linear phenotypic selection indices theory

Some authors have evaluated the unconstrained optimum and decorrelated multistage linear phenotypic selection indices (OMLPSI and DMLPSI, respectively) theory. We extended this index theory to the constrained multistage linear phenotypic selection index context, where we denoted OMLPSI and DMLPSI as OCMLPSI and DCMLPSI, respectively. The OCMLPSI (DCMLPSI) is the most general multistage index and includes the OMLPSI (DMLPSI) as a particular case. The OCMLPSI (DCMLPSI) predicts the individual net genetic merit at different individual ages and allows imposing constraints on the genetic gains to make some traits change their mean values based on a predetermined level, while the rest of them remain without restrictions. The OCMLPSI takes into consideration the index correlation values among stages, whereas the DCMLPSI imposes the restriction that the index correlation values among stages be null. The criteria to evaluate OCMLPSI efficiency vs. DCMLPSI efficiency were that the total response of each index must be lower than or equal to the single-stage constrained linear phenotypic selection index response and that the expected genetic gain per trait values should be similar to the constraints imposed by the breeder. We used one real and one simulated dataset to validate the efficiency of the indices. The results indicated that OCMLPSI accuracy when predicting the selection response and expected genetic gain per trait was higher than DCMLPSI accuracy when predicting them. Thus, breeders should use the OCMLPSI when making a phenotypic selection.

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Main Authors: Ceron Rojas, J.J., Toledo, F.H., Crossa, J.
Format: Article biblioteca
Language:English
Published: Crop Science Society of America (CSSA) 2019
Subjects:PHENOTYPES, SELECTION INDEX, GENETIC GAIN,
Online Access:https://hdl.handle.net/10883/20595
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spelling dig-cimmyt-10883-205952022-11-24T19:51:45Z Optimum and decorrelated constrained multistage linear phenotypic selection indices theory Ceron Rojas, J.J. Toledo, F.H. Crossa, J. PHENOTYPES SELECTION INDEX GENETIC GAIN Some authors have evaluated the unconstrained optimum and decorrelated multistage linear phenotypic selection indices (OMLPSI and DMLPSI, respectively) theory. We extended this index theory to the constrained multistage linear phenotypic selection index context, where we denoted OMLPSI and DMLPSI as OCMLPSI and DCMLPSI, respectively. The OCMLPSI (DCMLPSI) is the most general multistage index and includes the OMLPSI (DMLPSI) as a particular case. The OCMLPSI (DCMLPSI) predicts the individual net genetic merit at different individual ages and allows imposing constraints on the genetic gains to make some traits change their mean values based on a predetermined level, while the rest of them remain without restrictions. The OCMLPSI takes into consideration the index correlation values among stages, whereas the DCMLPSI imposes the restriction that the index correlation values among stages be null. The criteria to evaluate OCMLPSI efficiency vs. DCMLPSI efficiency were that the total response of each index must be lower than or equal to the single-stage constrained linear phenotypic selection index response and that the expected genetic gain per trait values should be similar to the constraints imposed by the breeder. We used one real and one simulated dataset to validate the efficiency of the indices. The results indicated that OCMLPSI accuracy when predicting the selection response and expected genetic gain per trait was higher than DCMLPSI accuracy when predicting them. Thus, breeders should use the OCMLPSI when making a phenotypic selection. 2585-2600 2019-12-19T01:10:17Z 2019-12-19T01:10:17Z 2019 Article Published Version 0011-183X (Print) https://hdl.handle.net/10883/20595 10.2135/cropsci2019.04.0241 English http://hdl.handle.net/11529/10199 Open Access PDF Madison (USA) Crop Science Society of America (CSSA) 6 59 Crop Science
institution CIMMYT
collection DSpace
country México
countrycode MX
component Bibliográfico
access En linea
databasecode dig-cimmyt
tag biblioteca
region America del Norte
libraryname CIMMYT Library
language English
topic PHENOTYPES
SELECTION INDEX
GENETIC GAIN
PHENOTYPES
SELECTION INDEX
GENETIC GAIN
spellingShingle PHENOTYPES
SELECTION INDEX
GENETIC GAIN
PHENOTYPES
SELECTION INDEX
GENETIC GAIN
Ceron Rojas, J.J.
Toledo, F.H.
Crossa, J.
Optimum and decorrelated constrained multistage linear phenotypic selection indices theory
description Some authors have evaluated the unconstrained optimum and decorrelated multistage linear phenotypic selection indices (OMLPSI and DMLPSI, respectively) theory. We extended this index theory to the constrained multistage linear phenotypic selection index context, where we denoted OMLPSI and DMLPSI as OCMLPSI and DCMLPSI, respectively. The OCMLPSI (DCMLPSI) is the most general multistage index and includes the OMLPSI (DMLPSI) as a particular case. The OCMLPSI (DCMLPSI) predicts the individual net genetic merit at different individual ages and allows imposing constraints on the genetic gains to make some traits change their mean values based on a predetermined level, while the rest of them remain without restrictions. The OCMLPSI takes into consideration the index correlation values among stages, whereas the DCMLPSI imposes the restriction that the index correlation values among stages be null. The criteria to evaluate OCMLPSI efficiency vs. DCMLPSI efficiency were that the total response of each index must be lower than or equal to the single-stage constrained linear phenotypic selection index response and that the expected genetic gain per trait values should be similar to the constraints imposed by the breeder. We used one real and one simulated dataset to validate the efficiency of the indices. The results indicated that OCMLPSI accuracy when predicting the selection response and expected genetic gain per trait was higher than DCMLPSI accuracy when predicting them. Thus, breeders should use the OCMLPSI when making a phenotypic selection.
format Article
topic_facet PHENOTYPES
SELECTION INDEX
GENETIC GAIN
author Ceron Rojas, J.J.
Toledo, F.H.
Crossa, J.
author_facet Ceron Rojas, J.J.
Toledo, F.H.
Crossa, J.
author_sort Ceron Rojas, J.J.
title Optimum and decorrelated constrained multistage linear phenotypic selection indices theory
title_short Optimum and decorrelated constrained multistage linear phenotypic selection indices theory
title_full Optimum and decorrelated constrained multistage linear phenotypic selection indices theory
title_fullStr Optimum and decorrelated constrained multistage linear phenotypic selection indices theory
title_full_unstemmed Optimum and decorrelated constrained multistage linear phenotypic selection indices theory
title_sort optimum and decorrelated constrained multistage linear phenotypic selection indices theory
publisher Crop Science Society of America (CSSA)
publishDate 2019
url https://hdl.handle.net/10883/20595
work_keys_str_mv AT ceronrojasjj optimumanddecorrelatedconstrainedmultistagelinearphenotypicselectionindicestheory
AT toledofh optimumanddecorrelatedconstrainedmultistagelinearphenotypicselectionindicestheory
AT crossaj optimumanddecorrelatedconstrainedmultistagelinearphenotypicselectionindicestheory
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