Nonequilibrium water dynamics in the rhizosphere: How mucilage affects water flow in soils

Kroener, Eva; Zarebanadkouki, Mohsen; Kaestner, Anders; Carminati, Andrea

doi:10.1002/2013wr014756

Cited by 100 publications

(139 citation statements)

References 35 publications

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“…Chia seed exudate has been widely used in other studies as a model root exudate (Ahmed et al 2014;Kroener et al 2014). It was extracted based on Naveed et al (2017) and Ahmed et al (2014) by mixing 100 g distilled water with 10 g chia seeds using a magnetic stirrer for 2 min at 50°C, followed by cooling to room temperature (20°C) and 4 h standing.…”

Section: Extraction Of Chia (Salvia Hispanica) Seed Exudatementioning

confidence: 99%

Plant exudates improve the mechanical conditions for root penetration through compacted soils

et al. 2017

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Background and aim Plant exudates greatly affect the physical behaviour of soil, but measurements of the impact of exudates on compression characteristics are missing. Our aim is to provide these data and explore how plant exudates may enhance the restructuring of compacted soils following cycles of wetting and drying. Methods Two soils were amended with Chia (Salvia hispanica) seed exudate at 5 concentrations, compacted in cores to 200 kPa stress (equivalent to tractor stress), equilibrated to −50 kPa matric potential, and then compacted to 600 kPa (equivalent to axial root stress) followed by 3 cycles of wetting and drying and recompression to 600 kPa at −50 kPa matric potential. Penetration resistance (PR), compression index (C C ) and pore characteristics were measured at various steps.

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Section: Extraction Of Chia (Salvia Hispanica) Seed Exudatementioning

confidence: 99%

Plant exudates improve the mechanical conditions for root penetration through compacted soils

et al. 2017

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“…The fourth would be related to organic carbon released by plant roots in the form of polymeric gel (the so-called root exudation, mucilage, or rhizodeposition) which were reported to decrease the mobility of clay colloids and enhance water retention around the roots (e.g. Grayston et al 1997;Traoré et al 2000;Kroener et al 2014;Tian et al 2015;Ghezzehei and Albalasmeh 2015). Recent work by Bengough (2012) shows that some of these root exudations exhibit hydrophobic or hydrophilic behavior, depending on the soil water content, causing the hysteretic-like behavior.…”

Section: R a F Tmentioning

confidence: 99%

Effects of grass roots on soil-water retention curve and permeability function

2017

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The effects of Vetiver grass (Chrysopogon zizanioides) roots on the soil-water retention curves (SWRCs), permeability (k) function, and saturated permeability, ksat, have been investigated on clayey sand (SC) and low-plasticity silt (ML). For ML soil, when the root biomass per soil volume was lower than 6.5 kg/m3, the saturated permeability increased, the air-entry suction decreased slightly, and the SWRC became steeper with increasing root contents, probably due to the formation of cracks caused by wetting and drying cycles during the plant growing period. Nevertheless, roots appeared to decrease the saturated permeability and increase the air-entry suction of ML soil, after reaching this threshold with a root content of about 6.5 kg/m3 as roots occupied the macropores and tended to suppress cracks and swelling. For SC soil for all root contents, only a slight variation of the saturated permeability with root content could be observed for the upper bounds on saturated permeability. However, the lower bounds on saturated permeability appeared to decrease as root content increased. It has also been shown that for a suction range beyond 30 kPa, the influence of roots on permeability appeared to be less significant.

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“…Young [1995] came to a similar conclusion after measuring a higher water content in the rhizosphere of wheat compared to the adjacent bulk soil. Recently, Ahmed et al [2014] and Kroener et al [2014] showed that mucilage exuded by chia seeds increases the water content of a sandy soil at any water potential if the system is in hydraulic equilibrium.…”

Section: Introductionmentioning

confidence: 99%