ABSTRACT
Kernel yield of thirteen groundnut varieties was studied for Genotype by Environment Interaction (GEI) in randomized complete block design with three replications across three locations of northern Cameroon using stability parameters and, Additive Main effects and Multiplicative Interaction analysis (AMMI). The objectives were to estimate the nature and magnitude of GEI, and to identify stable high-yielding groundnut cultivars for general adaptation and unstable varieties for specific adaptation. Combined analysis of variance showed significant differences between genotypes, locations and GEI, suggesting differential response of varieties across testing locations, and the need for stability analysis. Differences between genotypes, environments and GEI accounted respectively for 68.91%, 16.00% and 15.08% of the total variation. Highest kernel yield of 2105, 1900, 1882, 1845 and 1841 kg ha-1 was recorded from genotypes Dourou, Blanc, Gobo-55-437, Ad-Manipenta and JL28 respectively. Genotypes NW-Red Esimbi and Ouest-A2 gave the lowest kernel yield of 454 and 1284 kg ha-1 respectively. Two IPCA of AMMI were significant and captured the largest portion of variation of the total GEI. Stability analysis identified Dourou as the best lines due to its stability and high yield while Gobo-55-437 and Blanc were specifically adapted to Pitoa and Gobo locations.
Key words: Key words:
Arachis hypogaea, yield, genotype x environment interaction, stability analysis, northern Cameroon
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