Estimates of tree root water uptake from soil moisture profile dynamics

Abstract: <p><strong>Abstract.</strong> Root water uptake (RWU) as one important process in the terrestrial water cycle can help to better understand the interactions in the soil water plant system. We conducted a field study monitoring soil moisture profiles in the rhizosphere of beech trees at two sites with different soil conditions. We infer RWU from step-shaped, diurnal changes in soil moisture. While this approach is a feasible, easily implemented method during wet and mod… Show more

“…The rootwater algorithm (Jackisch and Mälicke, 2020) fits a model to the daily variations of SWC in a given soil layer to calculate root water uptake. In the original publication, the authors consider a model fit of NSE > 0.5 as indicative of most reliable RWU estimates (Jackisch et al, 2020).…”

“…The rootwater algorithm (Jackisch and Mälicke, 2020) fits a model to the daily variations of SWC in a given soil layer to calculate root water uptake. In the original publication, the authors consider a model fit of NSE > 0.5 as indicative of most reliable RWU estimates (Jackisch et al, 2020). Our RWU calculations did not always meet this criterion, with some values of NSE < 0.5 notably in early summer (before DoY 120 in 2017, or DoY 170 in 2018) and late summer (after DoY 220 in 2018) (Fig.3), meaning that processes other than root water uptake (i.e.…”

“…Bréda et al, 1995 in an oak site, Bréda et al, 2002 in an ash forest). It is however not systematic and, for instance, a regular, not increasing, and minimal contribution of soil layers below 170 cm depth was reported in a Beech forest along a mild summer in Germany (Jackisch et al, 2020).…”

“…In a methods comparison (Guderle and Hildebrandt, 2015), this approach using daily SWC oscillations proved to be the best regarding a combination of criteria: the quality of estimations and lesser induced error due to moisture sensor accuracy (the calibration error). Consequently, we focused on this method, and calculated RWU at our site from SWC measurements with the python package rootwater (Jackisch and Mälicke, 2020). This algorithm analyses daily fluctuations in SWC and takes into account possible hydraulic redistribution, a mechanism by which water is moved via the root system from moister to drier soil layers (Caldwell et al, 1998; Ishikawa and Bledsoe, 2000; Neumann and Cardon, 2012).…”

“…For selected days, a reference daily moisture profile was built, based on the SWC values at sunset/sunrise, and linear interpolations. The reference reflects “perfect” RWU over daytime and diffusion over night time (Jackisch et al, 2020). The theoretical step shape profile was then compared to the observed profile thanks to an evaluation of the Nash-Sutcliffe efficiency (NSE, Nash and Sutcliffe, 1970).…”

Contribution of deep soil layers to the transpiration of a temperate deciduous forest: quantification and implications for the modelling of productivity

“…The rootwater algorithm (Jackisch and Mälicke, 2020) fits a model to the daily variations of SWC in a given soil layer to calculate root water uptake. In the original publication, the authors consider a model fit of NSE > 0.5 as indicative of most reliable RWU estimates (Jackisch et al, 2020).…”

“…The rootwater algorithm (Jackisch and Mälicke, 2020) fits a model to the daily variations of SWC in a given soil layer to calculate root water uptake. In the original publication, the authors consider a model fit of NSE > 0.5 as indicative of most reliable RWU estimates (Jackisch et al, 2020). Our RWU calculations did not always meet this criterion, with some values of NSE < 0.5 notably in early summer (before DoY 120 in 2017, or DoY 170 in 2018) and late summer (after DoY 220 in 2018) (Fig.3), meaning that processes other than root water uptake (i.e.…”

“…Bréda et al, 1995 in an oak site, Bréda et al, 2002 in an ash forest). It is however not systematic and, for instance, a regular, not increasing, and minimal contribution of soil layers below 170 cm depth was reported in a Beech forest along a mild summer in Germany (Jackisch et al, 2020).…”

“…In a methods comparison (Guderle and Hildebrandt, 2015), this approach using daily SWC oscillations proved to be the best regarding a combination of criteria: the quality of estimations and lesser induced error due to moisture sensor accuracy (the calibration error). Consequently, we focused on this method, and calculated RWU at our site from SWC measurements with the python package rootwater (Jackisch and Mälicke, 2020). This algorithm analyses daily fluctuations in SWC and takes into account possible hydraulic redistribution, a mechanism by which water is moved via the root system from moister to drier soil layers (Caldwell et al, 1998; Ishikawa and Bledsoe, 2000; Neumann and Cardon, 2012).…”

“…For selected days, a reference daily moisture profile was built, based on the SWC values at sunset/sunrise, and linear interpolations. The reference reflects “perfect” RWU over daytime and diffusion over night time (Jackisch et al, 2020). The theoretical step shape profile was then compared to the observed profile thanks to an evaluation of the Nash-Sutcliffe efficiency (NSE, Nash and Sutcliffe, 1970).…”

Contribution of deep soil layers to the transpiration of a temperate deciduous forest: quantification and implications for the modelling of productivity

First Evidence of Correlation Between Evapotranspiration and Gravity at a Daily Time Scale From Two Vertically Spaced Superconducting Gravimeters

Embracing fine-root system complexity to improve the predictive understanding of ecosystem functioning