TY - JOUR
T1 - Adaptation of rice (Oryza sativa L.) genotypes in the rainfed lowlands of Lao PDR
AU - Sengxua, Pheng
AU - Samson, Benjamin K.
AU - Bounphanousay, Chay
AU - Xayavong, Sisavanh
AU - Douangboupha, Khamsouk
AU - Harnpichitvitaya, Dome
AU - Jackson, Tamara M.
AU - Wade, Len J.
N1 - Includes bibliographical references.
PY - 2017/10/2
Y1 - 2017/10/2
N2 - Genotype by environment (G×E) interactions for grain yield were investigated in 14 rice genotypes across eight rainfed lowland field environments in Lao PDR, in order to identify stable adapted cultivars for improved farmer livelihood and food security. G×E accounted for 20.3% of the total variance, with three vectors from ordination analysis accounting for 75.1% of the G×E-SS, in 6 genotype × 6 environment groups. PCA1 indicated water-limited yield potential, PCA2 pre-flowering stress and PCA3 post-flowering stress. Genotype groups (G1–G6) differed in adaptation to these environments. G5 (VT450-2 and TSN9) were widely adapted and high-yielding. G6 (TDK11 and TDK37) were also high-yielding, topping the rankings in three environment groups, but yielded less in Phalanxay 2012 and Phalanxay 2011, where their phenology was unstable under stress. Other genotype groups showed specific adaptations, but failed to exceed yields of G5 and G6. Hence, VT450-2 and TSN9 (G5) were the preferred genotypes for rainfed lowland in southern Lao PDR, due to their high and stable grain yields. Stability in flowering time and high yield in rainfall deficit were desirable traits for improved farmer livelihood and food security.
AB - Genotype by environment (G×E) interactions for grain yield were investigated in 14 rice genotypes across eight rainfed lowland field environments in Lao PDR, in order to identify stable adapted cultivars for improved farmer livelihood and food security. G×E accounted for 20.3% of the total variance, with three vectors from ordination analysis accounting for 75.1% of the G×E-SS, in 6 genotype × 6 environment groups. PCA1 indicated water-limited yield potential, PCA2 pre-flowering stress and PCA3 post-flowering stress. Genotype groups (G1–G6) differed in adaptation to these environments. G5 (VT450-2 and TSN9) were widely adapted and high-yielding. G6 (TDK11 and TDK37) were also high-yielding, topping the rankings in three environment groups, but yielded less in Phalanxay 2012 and Phalanxay 2011, where their phenology was unstable under stress. Other genotype groups showed specific adaptations, but failed to exceed yields of G5 and G6. Hence, VT450-2 and TSN9 (G5) were the preferred genotypes for rainfed lowland in southern Lao PDR, due to their high and stable grain yields. Stability in flowering time and high yield in rainfall deficit were desirable traits for improved farmer livelihood and food security.
KW - Drought
KW - Flowering
KW - Gqrain fill
KW - Grain yield
KW - G×E interaction
KW - Plant height
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U2 - 10.1080/1343943X.2017.1403290
DO - 10.1080/1343943X.2017.1403290
M3 - Article
AN - SCOPUS:85035131107
SN - 1343-943X
VL - 20
SP - 477
EP - 484
JO - Plant Production Science
JF - Plant Production Science
IS - 4
ER -