CORRELATION BETWEEN TISSUE AND SUBSTRATE SILICON CONCENTRATION OF GREENHOUSE PRODUCED ORNAMENTAL SUNFLOWERS

Abstract

The beneficial effects of the “nonessential” plant nutrient, silicon (Si), are well documented for several agricultural crops. Soilless growth media used in greenhouse production provides only limited amounts of available Si to container grown plants compared to plants grown in mineral-derived soils. Si supplementation is documented to increase resistance to biotic and abiotic stresses in greenhouse crops, which accumulate Si in their tissues. However, optimum Si fertilization rates and acceptable Si levels in tissues and substrate have not been established for floriculture greenhouse production. For this study ornamental sunflower (Helianthus annuus L. ‘Ring of Fire’) was used to investigate the relationship between substrate Si and accumulation of Si in the tissues of plants grown in a peat-based media. Weekly substrate drenches of potassium silicate (KSiO3), substrate incorporation of KSiO3 hydrous powder, or rice husk ash were used as Si supplements. Overall, leaf, stem, and flower Si concentrations of Si-supplemented plants increased compared to nonsupplemented controls. A positive correlation was observed between substrate Si concentration and leaf Si concentration for all three Si sources used in this study. Therefore, leaf tissue is the most appropriate tissue to sample in order to determine the availability of Si in a substrate and could be used to establish acceptable Si levels for soilless greenhouse floriculture.