Results 251 to 260 of about 79,665 (301)

Integrating marker-assisted identification and multi-environment trait stability models to select superior rice restorer lines for hybrid breeding. [PDF]

Front Plant Sci
Ragi S, Singh VJ, Nandakumar S, Krishnan SG, Bollinedi H, Ellur RK, Vinod KK, Harshitha BS, Sonu, Saran D, Samdarshi S, Basha FTM, Jayaprakash P, Bisht DS, Singh AK, Bhowmick PK.   +15 more
europepmc   +1 more source

Genomic prediction via reaction norm models for pregnancy loss using temperature humidity index in brahman cattle. [PDF]

Transl Anim Sci
Cardona-Cifuentes D, de Albuquerque LG, Aguilar I, Arias M, Camaripano L, Gonzalez-Herrera LG, Mota LFM, Baldi F, Amorim ST.   +8 more
europepmc   +1 more source

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GENOTYPE X ENVIRONMENT INTERACTIONS FOR SEED YIELD IN CLUSTERBEAN

Madras Agricultural Journal, 1984
Genotype x environment interaction was investigated for grain yield in 12 branched genotypes of clusterbean (Cyamopsis tetragonaloba (L.) Taub), under rainfed conditions, during monsoon seasons (1979-1981). There was a significant variation for geno- types and genotype X environment interaction for grain yield.
HENRY A, DAULAY H.S
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Genotype x environment interaction in castor

Madras Agricultural Journal, 2000
The phenotype stability of 79 genotypes of castor (60 hybrids and 19 parents) grown over four environments was studied for oil content, seed yield and other related traits. Variance due to genotypes, environments, G x E (liner) components was highly significant for all the traits.
MANIVEL P, JAVAD HUSSAIN H.S
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Genotype x environment interaction

1995
In section 8.2 the genotypic value was defined as g:= E (\(\underline{p}\) | gt, E). This implies that the genotypic value depends not only on the macro-environmental conditions, but also on the effect of the interaction of the considered genotype and the considered macro-environment.
Izak Bos, Peter Caligari
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Genotype×environment interactions for root depth of wheat

Field Crops Research, 2012
Numerous studies have reported on genotype x environment (G x E) interactions for yield and components of yield, but none to our knowledge have attempted to use this approach for root traits. G x E interactions for root depth were assessed for 24 wheat genotypes over six field environments with contrasting soil physical characteristics in the low ...
Botwright Acuna, T. L., Wade, L. J.
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Genotype x environment interaction through AMMI analysis in sesame genotypes

Journal of Oilseeds Research, 2020
The present study investigates the magnitude of GxE interaction and stability of sesame genotypes over theenvironments. The results indicated that for seed yield/plant, the ASV values ranged from 0.186 to 2.363. Accordingly, genotypes SAVITRI, TMV-4, SSD-5, DSS-9 and RAJESHWARI were considered to be most stable, while YLM-17, CHANDANA, NIRMALA, USHA ...
null BHAGWAT SINGH, null RAJANI BISEN
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Genotype x Environment Interaction and Repeatability of Traits

2017
Genotypes may differ considerably in the magnitude of performance in different environments. When genotypes perform differently in variable environments, genotype x environment interaction (G x E or GEI) has occurred. GEI poses a big challenge to maize breeders when developing varieties for release to farmers in a large geographical area, which is the ...
Baffour Badu-Apraku, M. A. B. Fakorede
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