Naveed, MAhmed, M. A.Benard, PBrown, L KGeorge, T SBengough, A. G.Roose, T.Koebernick, N.Hallett, P D2019-02-042019-02-042019-04Naveed, M, Ahmed, M A, Benard, P, Brown, L K, George, T S, Bengough, A G, Roose, T, Koebernick, N & Hallett, P D 2019, 'Surface tension, rheology and hydrophobicity of rhizodeposits and seed mucilage influence soil water retention and hysteresis', Plant and Soil, vol. 437, no. 1-2, pp. 65-81. https://doi.org/10.1007/s11104-019-03939-90032-079XMendeley: ee09c57a-9069-3c28-a717-f4e1762ec405ORCID: /0000-0001-7542-7832/work/162252201http://hdl.handle.net/2164/11863Open access via Springer Compact This work was funded by the Biotechnology and Biological Sciences Research Council (BBSRC) project ‘Rhizosphere by Design’ (BB/L026058/1, BB/J000868/1 and BB/J011460/1) with support from a Royal Society University Research Fellowship, EPSRC EP/M020355/1, BBSRC SARIC BB/P004180/1, NERC NE/L00237/1 and ERC Consolidator grant DIMR 646809. The James Hutton Institute receives funding from the Scottish Government.171133800engroot exudateseed exudatesurface tensionviscositycontact anglesoil water retentionhysteresisViscositySoil water retentionROOTSTABILITYSeed exudateContact angleFLOWPHOSPHOLIPID SURFACTANTSRHIZOSPHERE HYDRAULIC-PROPERTIESDYNAMICSRoot exudateSurface tensionMAIZEEXUDATIONHysteresisQH301 BiologyBiotechnology and Biological Sciences Research Council (BBSRC)BB/L026058/1BB/J000868/1BB/P004180/1BB/J011460/1European Research CouncilDIMR 646809QH301Journal article10.1007/s11104-019-03939-9http://www.mendeley.com/research/surface-tension-rheology-hydrophobicity-rhizodeposits-seed-mucilage-influence-soil-water-retention-h4371