Litcius/Paper detail

Effects of silicon amendments on grapevine, soil and wine

Paul Schabl, Christoph Gabler, Erhard Kührer, Walter W. Wenzel

2020Plant Soil and Environment22 citationsDOIOpen Access PDF

Abstract

Replacing Bordeaux broth and synthetic fungicides by less invasive approaches of fungal disease control remains a challenge for both conventional and organic viticulture. Silicon (Si) application has been proposed as a viable alternative for the control of pathogens and other stresses in agriculture. In a three-year field trial, we tested the effect of foliar and soil application of colloidal silicon on its availability in vineyard soil and pants, the performance and quality of yield, and finally, the control of powdery mildew for grapevine cv. GrĂźner Veltliner. Soil application of colloidal silicon increased plant-available Si, but only foliar application increased the total silicon concentrations in leaves, yield, and cluster weight. Moreover, the wine produced from the silica-treated grapes were ranked better in sensory evaluations. Our findings provide evidence for the potential of at least partially replacing conventional fungicides, rendering viticulture more sustainable in terms of soil protection and biodiversity. Silicon applications are low in costs and comply with the principles of organic wine production.

Topics & Concepts

WineEnvironmental scienceSiliconAgronomyViticultureHorticultureBiologyChemistryFood scienceOrganic chemistrySilicon Effects in AgricultureAluminum toxicity and tolerance in plants and animalsGeochemistry and Elemental Analysis