The objective of this study was to evaluate the G x E (genotype× environment) interaction
using AMMI and GGE-biplot analysis for sugar yield of sugarcane genotypes and identify …

An understanding of the causes of genotype× environment (G× E) interactions is essential
for the implementation of efficient selection and evaluation networks. Currently, studies …

Identification of stable genotypes for high yield and quality is of paramount importance,
particularly under changing climatic scenarios. The objective of the study was to identify …

Twelve sugarcane genotypes (eight local collections, two exotic and two standard checks)
were evaluated at three locations (Wonji, Metehara and Finchaa Sugar Estates of Ethiopia) …

Eleven genotypes of sugarcane (ten genotypes and one commercial variety GT 54-9 as a
control) were evaluated at twelve environments; three locations (Agric. Res. Stations of Kom …

The causes of genotype× environment (G× E) interactions in sugarcane (Saccharum spp.)
are unclear. The objectives of this study were to (i) investigate the G× E interactions and site …

Non-repeatable genotype× ratoon (G× R) and genotype× site× ratoon (G× S× R) interactions
in sugarcane (Saccharum sp.) restricts the evaluation of repeatable genotype× site (G× S) …

The problem of genotype by environment interaction (G× E) is that often complicates the
interpretation of trials in multiple locations, making it difficult to select genotypes adapted to …

Field experiments were conducted in six environments (2 water regimes x 3 crops) during
2005-07 to study the effect of genotype x environment interaction (GEI) on cane and sugar …

The study aims at determining the economic impact of the rubber based cropping system
introduced to rubber farmers in Nigeria by Rubber Research Institute of Nigeria under the …