The effect of drought and intercropping on chicory nutrient uptake from below 2 m studied in a multiple tracer setup

Abstract

AbstractAimsWe tested if chicory acquires nutrients from soil layers down to 3.5 m depth and whether the deep nutrient uptake increases as a result of topsoil drought or topsoil resource competition. We also tested whether application of the trace elements Cs, Li, Rb, Sr, and Se, as tracers result in similar uptake rates.MethodsThe methodological tests were primarily carried out in a pilot experiment where the five tracers were applied to 1 m depth in lucerne and red beet grown in tube rhizotrons. The dynamics of deep nutrient uptake in chicory was studied in large 4 m deep rhizoboxes. A drought was imposed when roots had reached around 2 m depth.ResultsChicory acquired tracers applied to 3.5 m depth, but we found no compensatory tracer uptake with depth during drought. We found some indications of a compensatory tracer uptake from 2.3 and 2.9 m depth in intercropped chicory. Application of equimolar amounts of trace elements resulted in similar excess tracer concentrations within species.ConclusionChicory acquires nutrients from below 3 m but does not increase deep nutrient uptake as a response to limited topsoil nutrient availability.