Modelling the impact of heterogeneous rootzone water distribution on the regulation of transpiration by hormone transport and/or hydraulic pressures

[1]  Jan Vanderborght,et al.  Root Water Uptake: From Three‐Dimensional Biophysical Processes to Macroscopic Modeling Approaches , 2013 .

[2]  Stéphane Herbette,et al.  Water stress-induced xylem hydraulic failure is a causal factor of tree mortality in beech and poplar. , 2013, Annals of botany.

[3]  J. Alarcón,et al.  Long-distance abscisic acid signalling under different vertical soil moisture gradients depends on bulk root water potential and average soil water content in the root zone. , 2013, Plant, cell & environment.

[4]  E. Grill,et al.  Hydraulic signals in long-distance signaling. , 2013, Current opinion in plant biology.

[5]  B. Muller,et al.  Coming of leaf age: control of growth by hydraulics and metabolics during leaf ontogeny. , 2012, The New phytologist.

[6]  Jan Vanderborght,et al.  A simple three-dimensional macroscopic root water uptake model based on the hydraulic architecture approach , 2012 .

[7]  B. Steffen,et al.  Effect of Root Water and Solute Uptake on Apparent Soil Dispersivity: A Simulation Study , 2012 .

[8]  I. Dodd,et al.  Contrasting physiological effects of partial root zone drying in field-grown grapevine (Vitis vinifera L. cv. Monastrell) according to total soil water availability , 2012, Journal of experimental botany.

[9]  I. Dodd,et al.  Root-to-shoot signalling when soil moisture is heterogeneous: increasing the proportion of root biomass in drying soil inhibits leaf growth and increases leaf abscisic acid concentration. , 2011, Plant, cell & environment.

[10]  Jianhua Zhang,et al.  Modulation of the root-sourced ABA signal along its way to the shoot in Vitis riparia x Vitis labrusca under water deficit. , 2011, Journal of experimental botany.

[11]  T. Brodribb,et al.  Passive Origins of Stomatal Control in Vascular Plants , 2011, Science.

[12]  Hervé Cochard,et al.  An overview of models of stomatal conductance at the leaf level. , 2010, Plant, cell & environment.

[13]  W. R. Whalley,et al.  Root water potential integrates discrete soil physical properties to influence ABA signalling during partial rootzone drying. , 2010, Journal of experimental botany.

[14]  Pol Coppin,et al.  Determining the water status of Satsuma mandarin trees [Citrus Unshiu Marcovitch] using spectral indices and by combining hyperspectral and physiological data , 2010 .

[15]  Bernd Körfgen,et al.  Implementation of a Microscopic Soil–Root Hydraulic Conductivity Drop Function in a Three‐Dimensional Soil–Root Architecture Water Transfer Model , 2009 .

[16]  W. Davies,et al.  Partial phenotypic reversion of ABA-deficient flacca tomato (Solanum lycopersicum) scions by a wild-type rootstock: normalizing shoot ethylene relations promotes leaf area but does not diminish whole plant transpiration rate , 2009, Journal of experimental botany.

[17]  Ian C Dodd,et al.  Rhizosphere manipulations to maximize 'crop per drop' during deficit irrigation. , 2009, Journal of experimental botany.

[18]  Jeffrey W. Whitev Crop Systems Dynamics: An Ecophysiological Simulation Model for Genotype-by-Environment Interactions, Xinyou Yin, H.H. Van Laar. Wageningen Academic Publishers, Wageningen, The Netherlands (2005). 168 pp., US$52 (Softback), ISBN: 13 978-90-76998-55-8 , 2008 .

[19]  William J. Davies,et al.  Accounting for sap flow from different parts of the root system improves the prediction of xylem ABA concentration in plants grown with heterogeneous soil moisture , 2008, Journal of experimental botany.

[20]  W. Davies,et al.  Abscisic acid signalling when soil moisture is heterogeneous: decreased photoperiod sap flow from drying roots limits abscisic acid export to the shoots. , 2008, Plant, cell & environment.

[21]  Jan Vanderborght,et al.  Use of a Three‐Dimensional Detailed Modeling Approach for Predicting Root Water Uptake , 2008 .

[22]  M. Andersen,et al.  Measurement and modelling of ABA signalling in potato (Solanum tuberosum L.) during partial root-zone drying , 2008 .

[23]  Ernst Steudle,et al.  A hydraulic signal in root-to-shoot signalling of water shortage. , 2007, The Plant journal : for cell and molecular biology.

[24]  G. Farquhar,et al.  Hydraulically based stomatal oscillations and stomatal patchiness in Gossypium hirsutum. , 2006, Functional plant biology : FPB.

[25]  W. Davies,et al.  Alternation of wet and dry sides during partial rootzone drying irrigation alters root-to-shoot signalling of abscisic acid. , 2006, Functional plant biology : FPB.

[26]  Loïc Pagès,et al.  Water Uptake by Plant Roots: II – Modelling of Water Transfer in the Soil Root-system with Explicit Account of Flow within the Root System – Comparison with Experiments , 2006, Plant and Soil.

[27]  M. Andersen,et al.  A review of drought adaptation in crop plants: changes in vegetative and reproductive physiology induced by ABA-based chemical signals , 2005 .

[28]  T. Buckley,et al.  The control of stomata by water balance. , 2005, The New phytologist.

[29]  B. Bravdo PHYSIOLOGICAL MECHANISMS INVOLVED IN THE PRODUCTION OF NON-HYDRAULIC ROOT SIGNALS BY PARTIAL ROOTZONE DRYING - A REVIEW , 2005 .

[30]  Xinyou Yin,et al.  Crop Systems Dynamics: An Ecophysiological Simulation Model for Genotype-By-Environment Interactions , 2005 .

[31]  Shaozhong Kang,et al.  Controlled alternate partial root-zone irrigation: its physiological consequences and impact on water use efficiency. , 2004, Journal of experimental botany.

[32]  N. Holbrook,et al.  Stomatal control in tomato with ABA-deficient roots: response of grafted plants to soil drying. , 2002, Journal of experimental botany.

[33]  J. Zwiazek,et al.  Root water flow and leaf stomatal conductance in aspen (Populus tremuloides) seedlings treated with abscisic acid , 2001, Planta.

[34]  P. Dry,et al.  Hormonal changes induced by partial rootzone drying of irrigated grapevine. , 2000, Journal of experimental botany.

[35]  J. Kiss Plant Physiology. Lincoln Taiz , Eduardo Zeiger , 1999 .

[36]  F. Tardieu,et al.  Accumulation rate of ABA in detached maize roots correlates with root water potential regardless of age and branching order , 1998 .

[37]  J. Hopmans,et al.  Transient three-dimensional modeling of soil water and solute transport with simultaneous root growth, root water and nutrient uptake , 1998, Plant and Soil.

[38]  François Tardieu,et al.  Variability among species of stomatal control under fluctuating soil water status and evaporative demand: modelling isohydric and anisohydric behaviours , 1998 .

[39]  Claude Doussan,et al.  Modelling of the Hydraulic Architecture of Root Systems: An Integrated Approach to Water Absorption—Distribution of Axial and Radial Conductances in Maize , 1998 .

[40]  W. J. Davies,et al.  Xylem Sap pH Increase: A Drought Signal Received at the Apoplastic Face of the Guard Cell That Involves the Suppression of Saturable Abscisic Acid Uptake by the Epidermal Symplast , 1997, Plant physiology.

[41]  J. Hopmans,et al.  Simultaneous modeling of transient three-dimensional root growth and soil water flow , 1994, Plant and Soil.

[42]  John Grace,et al.  Does Xylem Sap ABA Control the Stomatal Behaviour of Water-Stressed Sycamore (Acer pseudoplatanus L.) Seedlings? , 1993 .

[43]  William J. Davies,et al.  Integration of hydraulic and chemical signalling in the control of stomatal conductance and water status of droughted plants , 1993 .

[44]  Ulrich Schurr,et al.  Stomatal response to drying soil in relation to changes in the xylem sap composition of Helianthus annuus. II.Stomatal sensitivity to abscisic acid imported from the xylem sap , 1992 .

[45]  W. Hartung,et al.  Long Distance Transport of Abscisic Acid in NaCI-Treated Intact Plants of Lupinus albus , 1990 .

[46]  R. Carsel,et al.  Developing joint probability distributions of soil water retention characteristics , 1988 .

[47]  J. Wilson A review of evidence on the control of shoot: root ratio , 1988 .

[48]  Fred J. Molz,et al.  Models of water transport in the soil‐plant system: A review , 1981 .

[49]  Van Genuchten,et al.  A closed-form equation for predicting the hydraulic conductivity of unsaturated soils , 1980 .

[50]  W. Hartung,et al.  Abscisic acid in root cultures of Phaseolus coccineus L. , 1980 .

[51]  I. R. Cowan,et al.  Oscillations in stomatal conductance: the influence of environmental gain. , 1974, Plant physiology.

[52]  L. A. Richards Capillary conduction of liquids through porous mediums , 1931 .

[53]  P. Franks,et al.  Anisohydric but isohydrodynamic: seasonally constant plant water potential gradient explained by a stomatal control mechanism incorporating variable plant hydraulic conductance. , 2007, Plant, cell & environment.

[54]  Mieke Uyttendaele,et al.  Wageningen Academic Publishers , 2005 .

[55]  E. Grill,et al.  Abscisic acid signalling , 2004 .

[56]  M. H. Wong,et al.  How Do Roots Control Xylem Sap ABA Concentration in Response to Soil Drying , 1997 .

[57]  William J. Davies,et al.  Root Signals and the Regulation of Growth and Development of Plants in Drying Soil , 1991 .

[58]  C. B. Tanner,et al.  Oscillations in Apparent Hydraulic Conductance of Cotton Plants , 1985 .

[59]  K. H. Hartge,et al.  Feddes, R. A., Kowalik, P. I. und Zaradny, H.: simulation of field water use and crop yield. Pudoc (Centre for agricultural publishing and documentation) Wageningen, Niederlande, 195 Seiten, 13 Abbildungen, Paperback. Preis: hfl 30,– , 1980 .