TY  - JOUR
AV  - restricted
A1  - Manyasa, E O
A1  - Tongoona, P
A1  - Shanahan, P
A1  - Githiri, S
A1  - Ojulong, H F
A1  - Rathore, A
TI  - Exploiting Genetic Diversity for Adaptation and Mitigation of Climate Change: A Case of Finger Millet in East Africa
UR  - http://dx.doi.org/10.5958/0976-1926.2017.00017.1
JF  - Indian Journal of Plant Genetic Resources
SN  - 0976-1926
PB  - Indian Society of Plant Genetic Resources
N1  - We are grateful to the Bill and Melinda Gates
Foundation for funding this work through the Harnessing
Opportunities for Productivity Enhancement of Sorghums
and Millets (HOPE) project.
N2  - Eighty one finger millet germplasm accessions from East Africa were evaluated in eight environments in Kenya,
Tanzania and Uganda for adaptation and grain yield stability, genotype and genotype x environment (GGE)
models. Lanet 2012 long rains, Serere 2012 long rains and Miwaleni 2012 long rains were found to be the most
discriminating environments for the low temperature, sub-humid mid-altitude and dry lowland areas, respectively.
Seven genotypes were identifi ed for yield stability across the eight environments, whereas nine genotypes had
specifi c adaptation. Fourteen genotypes attained the highest grain yield and had varied maturity, plant heights
and grain colour. This will provide farmers the opportunity to select genotypes appropriate to their target agroecologies
with desired traits. The East African fi nger millet germplasm has high potential as a source of climate
smart, high yielding genotypes for direct production and/or breeding.
KW  - Finger Millet
KW  -  Genetic Diversity
KW  -  GGE
KW  -  Yield Stability
KW  -  East Africa
Y1  - 2017///
SP  - 115
ID  - icrisat10179
EP  - 119
VL  - 30
IS  - 2
ER  -