Diversity of banana diploid hybrids: An assessment based on a hydroponic system

Abstract

AbstractBananas are typical to tropical and subtropical climate regions, where they have better conditions due to high air humidity and soil water availability. The production of drought‐tolerant varieties is an alternative to expand the cultivation sites to drier areas. In this work, we present a hydroponic system for the genotype selection of Musa sp. (AA) subjected to water stress. A total of 14 banana genotypes were tested; 12 diploids and two commercial varieties with a known response to drought tolerance. The results show that the improved diploids have different responses with respect to water deficit, with the PMGB043 and PMGB044 genotypes considered more susceptible and the PMGB075 and PMGB099 genotypes more tolerant. Under water deficit conditions, most banana diploids maintain a high relative water content, but there is a reduction in aerial part growth and an increase in root dry mass. The accumulation of alcohol dehydrogenase, especially in control treatment plants, indicate that the glycolytic pathway was used to supply energy demand, showing potential flood‐tolerant genotypes. The results are essential for the preimprovement of banana cultivars.