Measurement and management of genotype-environment interaction (GxE) for the improvement of rainfed lowland rice yield in Cambodia


Autoria(s): Basnayake, Jayampathi; Ouk, Makara; Votany, Thum; Kang, Sideth; Khon Hel, Pith; Fukai, Shu; Sarom, Men; Fischer, Ken
Contribuinte(s)

T. Fischer

N. Turner

J. Angus

L. McIntyre

M. Robertson

A. Borrell

D. Lloyd

Data(s)

01/01/2004

Resumo

The magnitude and nature of genotype-by-environment interactions (G×E) for grain yield (GY) and days to flower (DTF) in Cambodia were examined using a random population of 34 genotypes taken from the Cambodian rice improvement program. These genotypes were evaluated in multi-environment trials (MET) conducted across three years (2000 to 2002) and eight locations in the rainfed lowlands. The G×E interaction was partitioned into components attributed to genotype-by-location (G×L), genotype-by-year (G×Y) and genotype-by-location-by-year (G×L×Y) interactions. The G×L×Y interaction was the largest component of variance for GY. The G×L interaction was also significant and comparable in size to the genotypic component (G). The G×Y interaction was small and non significant. A major factor contributing to the large G×L×Y interactions for GY was the genotypic variation for DTF in combination with environmental variation for the timing and intensity of drought. Some of the interactions for GY associated with timing of plant development and exposure to drought were repeatable across the environments enabling the identification of three-target populations of environments (TPE) for consideration in the breeding program. Four genotypes were selected for wide adaptation in the rainfed lowlands in Cambodia.

Identificador

http://espace.library.uq.edu.au/view/UQ:101332

Idioma(s)

eng

Publicador

The Regional Institute

Palavras-Chave #E1 #300203 Plant Improvement (Selection, Breeding and Genetic Engineering) #620103 Rice
Tipo

Conference Paper