Indirect Versus Direct Selection of Adaptable Genotypes of Coffea canephora for Drought Stress and Non-Stress Conditions

Abstract

Improving breeding strategies for adaptation to water-deficit stress is an important challenge to increasing coffee yields. In a nine-year experiment, 18 genotypes were tested under drought-stress and non-stress conditions to select adaptable genotypes to drought stress. Efficiency of indirect selection based on agronomic traits related to drought-stress was also assessed relative to direct selection based on yield. Drought stress significantly limited fruit-set and yields by 51–75% in all 18 genotypes. Clustering the genotypes based on seven-year average yields under stress and non-stress conditions and their drought susceptibility index (DSI) resulted in the direct selection of eight generally adaptable genotypes. These were characterized by low DSI and high yields in drought-stress and non-stress environments. These genotypes should serve as materials for breeding for drought tolerance or for direct utilization as planting material under drought-stress and non-stress conditions. The first three-year average yield was 75% as efficient as the seven-year average yield; the last four- to seven-year yields gave similar results. Indirect selection by clustering of the genotypes according to span (crown diameter) and fruit set was 75% as efficient as direct selection based on seven-year average yields. The efficiency of the first three-year yield as well as span and fruit set in selecting adaptable genotypes, coupled with the determination of these traits at the early stages of the growing cycle, further demonstrates that genotypes adaptable to water-deficit stress can be selected in the early stages of the breeding program.