Table 4.
Overview of the different methods to quantify soil nutrient and water uptake by plant roots.
| Root activity traits | System | Focus | Method | Assessment of niche differentiation | Short description | Reference examples |
|---|---|---|---|---|---|---|
| Nutrient uptake traits | ||||||
| Nutrient uptake kinetics (k m, I max) | Ex situ or in situ (but excavated roots) | Physiological | Tracer or measurement of nutrient depletion in solution | Yes but only indirectly | Concentration‐dependent nutrient uptake of excavated roots from an incubation solution. Uptake rate is based on fine‐root biomass, length or surface area. Natural environment of the roots (soil as a system of solid, aqueous and gaseous spaces) is changed (aqueous solution) during the assessment of uptake, mycorrhizal hyphae are destroyed | Kreuzwieser et al. (2000); Gessler et al. (2005); Lucash et al. (2007) |
| Short‐term net uptake rates | In situ | Ecophysiological/ecological | Tracer in natural soil | Yes | Relative tracer enrichment in plant biomass (comparison among species or functional groups). Tracer uptake from the natural soil. The uptake rate is based on plant biomass, root length or ground surface area. Processes in the soil (i.e. tracer adsorption to soil particles, tracer diffusion) and the root (transport rates) are integrated, but therefore cannot be disentangled | McKane et al. (2002); Kahmen et al. (2006); Ashton et al. (2010); Jesch et al. (2018) |
| Long‐term net uptake rates | In situ | Ecophysiological/ecological | Tracer in natural soil | Yes | Relative tracer enrichment in plant biomass (comparison among species or functional groups). Tracer uptake from the natural soil. Processes in the soil (i.e. tracer adsorption to soil particles, tracer diffusion) and the root (transport rates) are integrated and therefore cannot be disentangled | Chapin & Van Cleve (2000); Fotelli et al. (2004) |
| Water‐uptake traits | ||||||
| Short‐term uptake | In situ | Ecophysiological/ecological | Tracer in natural soil | Yes | Relative tracer enrichment in plant biomass (comparison between species or functional groups). Tracer uptake from the natural soil. The uptake rate is based on plant biomass or ground surface area. Allows the distinction of water uptake from different soil layers (when multiple tracers are applied) but uptake rates cannot be easily determined | Grossiord et al. (2014); Bachmann et al. (2015) |