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Position: Home > Articles > Genotype×environment interaction effects on early fresh storage root yield and related traits in cassava The Crop Journal 2014,2 (5)

Genotype×environment interaction effects on early fresh storage root yield and related traits in cassava

作者：

Robooni Tumuhimbise;Rob Melis;Paul Shanahan;Robert Kawuk

单位：

African Centre for Crop Improvement, School of Agricultural, Earth and Environmental Sciences, University of KwaZulu-Natal, Private Bag X01, Scottsville, 3209 Pietermaritzburg, South Africa; National Crops Resources Research Institute, National Agricultural Research Organisation, P.O. Box 7084, Kampala, Uganda;National Crops Resources Research Institute, National Agricultural Research Organisation, P.O. Box 7084, Kampala, Ugand

关键词：

Cassava;Early yield;Stability;AMMI;Breeding;STABILITY ANALYSIS;PERFORMANCE;BULKING;DISEASE;TRIAL

摘要：

Cassava (Manihot esculenta Crantz) is an important root crop worldwide. It exhibits substantial differential genotypic responses to varying environmental conditions, a phenomenon termed genotype × environment interaction (GEI). A significant GEI presents challenges in the selection of superior genotypes. The objective of this study was to examine the effect of genotype, environment and GEI on early fresh storage root yield (FSRY) and related traits in cassava. Accordingly, 12 cassava genotypes were evaluated in a randomised complete block design at three contrasting locations (Jinja, Nakasongola and Namulonge) in Uganda. Trials were harvested nine months after planting and the data collected were analysed using the additive main effects and multiplicative interaction (AMMI) model. The AMMI analysis of variance showed significant variation among genotypes for early FSRY and all other traits assessed. Locations were significantly different for all traits except for cassava brown streak disease root necrosis. The GEI effect was non-significant for early FSRY, but significant for other traits. For early FSRY, 48.5% of the treatment sum of squares was attributable to genotypes, 27.3% to environments, and 24.1% to GEI, indicating a predominance of genotypic variation for this trait. Predominance of genotypic variation was also observed for all the other traits. A majority of the genotypes (67%) had low interaction effects with locations for early FSRY, with Akena, CT2, CT4 and NASE14 being the most stable genotypes for the trait. Significant negative correlation was observed between cassava mosaic disease severity and early FSRY and storage root number, indicating significant negative effects of cassava mosaic disease on early FSRY and stability in cassava. The information generated will inform future selection initiatives for superior early-yielding cassava genotypes combining resistance to cassava mosaic and brown streak diseases in Uganda.

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Genotype×environment interaction effects on early fresh storage root yield and related traits in cassava

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