How the rhizosphere may favor water availability to roots

Andrea Carminati, Christoph L. Schneider, Ahmad B. Moradi, Mohsen Zarebanadkouki, Doris Vetterlein, Hans Jörg Vogel, Anke Hildebrandt, Ulrich Weller, Lennart Schüler, Sascha E. Oswald

Research output: Contribution to journalArticlepeer-review

84 Scopus citations

Abstract

Recent studies have shown that rhizosphere hydraulic properties may differ from those of the bulk soil. Specifically, mucilage at the root-soil interface may increase the rhizosphere water holding capacity and hydraulic conductivity during drying. The goal of this study was to point out the implications of such altered rhizosphere hydraulic properties for soil-plant water relations. We addressed this problem through modeling based on a steady-rate approach. We calculated the water flow toward a single root assuming that the rhizosphere and bulk soil were two concentric cylinders having different hydraulic properties. Based on our previous experimental results, we assumed that the rhizosphere had higher water holding capacity and unsaturated conductivity than the bulk soil. The results showed that the water potential gradients in the rhizosphere were much smaller than in the bulk soil. The consequence is that the rhizosphere attenuated and delayed the drop in water potential in the vicinity of the root surface when the soil dried. This led to increased water availability to plants, as well as to higher effective conductivity under unsaturated conditions. The reasons were two: (i) thanks to the high unsaturated conductivity of the rhizosphere, the radius of water uptake was extended from the root to the rhizosphere surface; and (ii) thanks to the high soil water capacity of the rhizosphere, the water depletion in the bulk soil was compensated by water depletion in the rhizosphere. We conclude that under the assumed conditions, the rhizosphere works as an optimal hydraulic conductor and as a reservoir of water that can be taken up when water in the bulk soil becomes limiting.

Original languageEnglish
Pages (from-to)988-998
Number of pages11
JournalVadose Zone Journal
Volume10
Issue number3
DOIs
StatePublished - Aug 2011
Externally publishedYes

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