Access the full text.
Sign up today, get DeepDyve free for 14 days.
(2003)
system with explicit account of flow within the root system—Comparison with experiments, Plant Soil
S. Shabala, R. Lew (2002)
Turgor Regulation in Osmotically Stressed Arabidopsis Epidermal Root Cells. Direct Support for the Role of Inorganic Ion Uptake as Revealed by Concurrent Flux and Cell Turgor Measurements1Plant Physiology, 129
S. Tyerman, C. Niemietz, H. Bramley (2002)
Plant aquaporins: multifunctional water and solute channels with expanding roles.Plant, cell & environment, 25 2
H. Richter (1997)
Water relations of plants in the field: some comments on the measurement of selected parametersJournal of Experimental Botany, 48
E. Hose, E. Steudle, W. Hartung (2000)
Abscisic acid and hydraulic conductivity of maize roots: a study using cell- and root-pressure probesPlanta, 211
K. Sene, T. Marsh, A. Hachache (1999)
An assessment of the difficulties in quantifying the surface water resources of LebanonHydrological Sciences Journal-journal Des Sciences Hydrologiques, 44
I.V. Gracheva, A. Karimov, H. Turral, F. Miryusupov (2009)
An assessment of the potential and impacts of winter water banking in the Sokh aquifer, Central AsiaHydrogeology Journal, 17
F. Lopez, A. Bousser, I. Sissoëff, M. Gaspar, Bertrand Lachaise, J. Hoarau, A. Mahé (2003)
Diurnal regulation of water transport and aquaporin gene expression in maize roots: contribution of PIP2 proteins.Plant & cell physiology, 44 12
H. Cochard, L. Coll, X. Roux, T. Améglio (2002)
Unraveling the effects of plant hydraulics on stomatal closure during water stress in walnut.Plant physiology, 128 1
C. Doussan, G. Vercambre, L. Pagè (1998)
Modelling of the Hydraulic Architecture of Root Systems: An Integrated Approach to Water Absorption—Distribution of Axial and Radial Conductances in MaizeAnnals of Botany, 81
T. Sinclair (2005)
Theoretical Analysis of Soil and Plant Traits Influencing Daily Plant Water Flux on Drying SoilsAgronomy Journal, 97
P. Steduto, T. Hsiao, D. Raes, E. Fereres (2009)
AquaCrop-The FAO Crop Model to Simulate Yield Response to Water: I. Concepts and Underlying PrinciplesAgronomy Journal, 101
F. Somma, J. Hopmans, V. Clausnitzer (1998)
Transient three-dimensional modeling of soil water and solute transport with simultaneous root growth, root water and nutrient uptakePlant and Soil, 202
Junko Sakurai-Ishikawa, Mari Murai-Hatano, H. Hayashi, A. Ahamed, Keiko Fukushi, Tadashi Matsumoto, Y. Kitagawa (2011)
Transpiration from shoots triggers diurnal changes in root aquaporin expression.Plant, cell & environment, 34 7
J. Kholová, C. Hash, A. Kakkera, M. Kočová, V. Vadez (2009)
Constitutive water-conserving mechanisms are correlated with the terminal drought tolerance of pearl millet [Pennisetum glaucum (L.) R. Br.]Journal of Experimental Botany, 61
K. Chenu, S. Chapman, G. Hammer, G. McLean, H. Salah, F. Tardieu (2008)
Short-term responses of leaf growth rate to water deficit scale up to whole-plant and crop levels: an integrated modelling approach in maize.Plant, cell & environment, 31 3
F. Benincasa, A. Falchi, G. Fasano (1990)
Measurement of evapotranspiration., 46
Q. Lier, K. Metselaar, J. Dam (2006)
Root Water Extraction and Limiting Soil Hydraulic Conditions Estimated by Numerical SimulationVadose Zone Journal, 5
Michael Janott, S. Gayler, A. Gessler, M. Javaux, C. Klier, E. Priesack (2011)
A one-dimensional model of water flow in soil-plant systems based on plant architecturePlant and Soil, 341
A. Christmann, E. Weiler, E. Steudle, E. Grill (2007)
A hydraulic signal in root-to-shoot signalling of water shortage.The Plant journal : for cell and molecular biology, 52 1
C. Doussan, L. Pagès, G. Vercambre (1998)
MODELLING OF THE HYDRAULIC ARCHITECTURE OF ROOT SYSTEMS : AN INTEGRATED APPROACH TO WATER ABSORPTION : MODEL DESCRIPTIONAnnals of Botany, 81
W. Gardner, C. Ehlig (1963)
The influence of soil water on transpiration by plantsJournal of Geophysical Research, 68
Z. Khodarahmpour, Jahad Hamidi (2012)
Study of yield and yield components of corn (Zea mays L.) inbred lines to drought stressAfrican Journal of Biotechnology, 11
R. Fisher, M. Williams, Raquel Vale, A. Costa, P. Meir (2006)
Evidence from Amazonian forests is consistent with isohydric control of leaf water potential.Plant, cell & environment, 29 2
Van Genuchten, M. Th. (1980)
A closed-form equation for predicting the hydraulic conductivity of unsaturated soilsSoil Science Society of America Journal, 44
F. Sterck, F. Schieving (2011)
Modelling functional trait acclimation for trees of different height in a forest light gradient: emergent patterns driven by carbon gain maximization.Tree physiology, 31 9
C. Driscoll, N. Johnson, G. Likens, M. Feller (1988)
Effects of acidic deposition on the chemistry of headwater streams: A comparison between Hubbard Brook, New Hampshire, and Jamieson Creek, British ColumbiaWater Resources Research, 24
P. White, T. George, J. Hammond, E. James (2014)
Improving crop mineral nutritionPlant and Soil, 384
K. Brooksbank, D. White, E. Veneklaas, J. Carter (2011)
Hydraulic redistribution in Eucalyptus kochii subsp. borealis with variable access to fresh groundwaterTrees, 25
G. Bonan, S. Levis, S. Sitch, M. Vertenstein, K. Oleson (2003)
A dynamic global vegetation model for use with climate models: concepts and description of simulated vegetation dynamicsGlobal Change Biology, 9
Gaëlle Damour, T. Simonneau, H. Cochard, L. Urban (2010)
An overview of models of stomatal conductance at the leaf level.Plant, cell & environment, 33 9
W. Gardner, R. Nieman (1964)
Lower Limit of Water Availability to PlantsScience, 143
V. Dunbabin, A. Diggle, Z. Rengel, Robert Hugten (2002)
Modelling the interactions between water and nutrient uptake and root growthPlant and Soil, 239
D. Leitner, F. Meunier, G. Bodner, M. Javaux, A. Schnepf (2014)
Impact of contrasted maize root traits at flowering on water stress tolerance - A simulation studyField Crops Research, 165
F. Hupet, M. Vanclooster (2002)
Intraseasonal dynamics of soil moisture variability within a small agricultural maize cropped fieldJournal of Hydrology, 261
F. Tardieu, T. Simonneau (1998)
Variability among species of stomatal control under fluctuating soil water status and evaporative demand: modelling isohydric and anisohydric behavioursJournal of Experimental Botany, 49
A. Carminati, D. Vetterlein (2013)
Plasticity of rhizosphere hydraulic properties as a key for efficient utilization of scarce resources.Annals of botany, 112 2
R. Allen, L. Pereira, D. Raes, Martin Smith (1998)
Crop evapotranspiration : guidelines for computing crop water requirements
T. Schröder, Lei Tang, M. Javaux, J. Vanderborght, B. Körfgen, H. Vereecken (2009)
A grid refinement approach for a three‐dimensional soil‐root water transfer modelWater Resources Research, 45
J. Domec, M. Pruyn (2008)
Bole girdling affects metabolic properties and root, trunk and branch hydraulics of young ponderosa pine trees.Tree physiology, 28 10
V. Couvreur, J. Vanderborght, M. Javaux (2012)
A simple three-dimensional macroscopic root water uptake model based on the hydraulic architecture approachHydrology and Earth System Sciences, 16
T. Fourcaud, Xiaopeng Zhang, A. Stokes, H. Lambers, C. Körner (2007)
Plant growth modelling and applications: the increasing importance of plant architecture in growth models.Annals of botany, 101 8
B. Ewers, R. Oren, J. Sperry (2000)
Influence of nutrient versus water supply on hydraulic architecture and water balance in Pinus taedaPlant Cell and Environment, 23
C. Doussan, A. Pierret, E. Garrigues, L. Pagès (2006)
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 ExperimentsPlant and Soil, 283
P. Franks, P. Drake, R. Froend (2007)
Anisohydric but isohydrodynamic: seasonally constant plant water potential gradient explained by a stomatal control mechanism incorporating variable plant hydraulic conductance.Plant, cell & environment, 30 1
J. Frensch, E. Steudle (1989)
Axial and Radial Hydraulic Resistance to Roots of Maize (Zea mays L.).Plant physiology, 91 2
J. Frensch, T. Hsiao (1994)
Transient Responses of Cell Turgor and Growth of Maize Roots as Affected by Changes in Water Potential, 104
K. Huber, J. Vanderborght, M. Javaux, N. Schröder, I. Dodd, H. Vereecken (2014)
Modelling the impact of heterogeneous rootzone water distribution on the regulation of transpiration by hormone transport and/or hydraulic pressuresPlant and Soil, 384
N. Loewenstein, S. Pallardy (1998)
Drought tolerance, xylem sap abscisic acid and stomatal conductance during soil drying: a comparison of young plants of four temperate deciduous angiosperms.Tree physiology, 18 7
T. Dawson (1996)
Determining water use by trees and forests from isotopic, energy balance and transpiration analyses: the roles of tree size and hydraulic lift.Tree physiology, 16 1_2
S. McAdam, T. Brodribb (2014)
Separating Active and Passive Influences on Stomatal Control of Transpiration[OPEN]Plant Physiology, 164
K. Kolb, J. Sperry (1999)
Transport constraints on water use by the Great Basin shrub, Artemisia tridentataPlant Cell and Environment, 22
R. Feddes, P. Kowalik, Krystina Kolinska-Malinka, H. Zaradny (1976)
Simulation of field water uptake by plants using a soil water dependent root extraction functionJournal of Hydrology, 31
A. Carminati, D. Vetterlein, U. Weller, H. Vogel, S. Oswald (2009)
When Roots Lose ContactVadose Zone Journal, 8
G. Hammer, M. Cooper, F. Tardieu, S. Welch, B. Walsh, F. Eeuwijk, S. Chapman, D. Podlich (2006)
Models for navigating biological complexity in breeding improved crop plants.Trends in plant science, 11 12
R. Carsel, R. Parrish (1988)
Developing joint probability distributions of soil water retention characteristicsWater Resources Research, 24
W. Gardner (1965)
Dynamic Aspects of Soil-Water Availability to PlantsAnnual Review of Plant Biology, 16
N. McDowell, W. Pockman, C. Allen, D. Breshears, N. Cobb, T. Kolb, J. Plaut, J. Sperry, A. West, David Williams, E. Yépez (2008)
Mechanisms of plant survival and mortality during drought: why do some plants survive while others succumb to drought?The New phytologist, 178 4
D. Barrowclough, Carol Peterson, E. Steudle (2000)
Radial hydraulic conductivity along developing onion roots.Journal of experimental botany, 51 344
J. Sperry, F. Adler, G. Campbell, J. Comstock (1998)
Limitation of plant water use by rhizosphere and xylem conductance: results from a modelPlant Cell and Environment, 21
Laure Beff, T. Günther, B. Vandoorne, V. Couvreur, M. Javaux (2012)
Three-dimensional monitoring of soil water content in a maize field using Electrical Resistivity TomographyHydrology and Earth System Sciences, 17
(1970)
Ecophysiologie du ma€ ıs
F. Tardieu (1988)
Analysis of the spatial variability of maize root densityPlant and Soil, 107
(2002)
whole maize plant—Model description and parameterisation, Ecol
R. Feddes, P. Kowalik, H. Zaradny (1978)
Simulation of field water use and crop yield
U. Schmidhalter (1997)
The gradient between pre-dawn rhizoplane and bulk soil matric potentials, and its relation to the pre-dawn root and leaf water potentials of four speciesPlant Cell and Environment, 20
M. Caldwell, J. Richards (1989)
Hydraulic lift: water efflux from upper roots improves effectiveness of water uptake by deep rootsOecologia, 79
F. Tardieu, S. Pellerin (1990)
Trajectory of the nodal roots of maize in fields with low mechanical constraintsPlant and Soil, 124
G. Lobet, V. Couvreur, F. Meunier, M. Javaux, X. Draye (2014)
Plant Water Uptake in Drying Soils1Plant Physiology, 164
R. Schoppach, W. Sadok (2012)
Differential sensitivities of transpiration to evaporative demand and soil water deficit among wheat elite cultivars indicate different strategies for drought toleranceEnvironmental and Experimental Botany, 84
M. Javaux, T. Schröder, J. Vanderborght, H. Vereecken (2008)
Use of a Three‐Dimensional Detailed Modeling Approach for Predicting Root Water UptakeVadose Zone Journal, 7
N. Jarvis (1989)
A simple empirical model of root water uptakeJournal of Hydrology, 107
I. Dodd, G. Egea, C. Watts, W. Whalley (2010)
Root water potential integrates discrete soil physical properties to influence ABA signalling during partial rootzone drying.Journal of experimental botany, 61 13
F. Tardieu (2012)
Any trait or trait-related allele can confer drought tolerance: just design the right drought scenario.Journal of experimental botany, 63 1
C. Caldeira, Mickael Bosio, B. Parent, Linda Jeanguenin, F. Chaumont, F. Tardieu (2014)
A Hydraulic Model Is Compatible with Rapid Changes in Leaf Elongation under Fluctuating Evaporative Demand and Soil Water Status1[C][W][OPEN]Plant Physiology, 164
J. Drouet, L. Pagès (2003)
GRAAL: a model of GRowth, Architecture and carbon ALlocation during the vegetative phase of the whole maize plant: Model description and parameterisationEcological Modelling, 165
Christophe Maurel, M. Chrispeels (2001)
Aquaporins. A molecular entry into plant water relations.Plant physiology, 125 1
N. Loewenstein, S. Pallardy (1998)
Drought tolerance, xylem sap abscisic acid and stomatal conductance during soil drying: a comparison of canopy trees of three temperate deciduous angiosperms.Tree physiology, 18 7
V. Couvreur, J. Vanderborght, Laure Beff, M. Javaux (2014)
Horizontal soil water potential heterogeneity simplifying approaches for crop water dynamics modelsHydrology and Earth System Sciences, 18
N. Schröder, N. Lazarovitch, J. Vanderborght, H. Vereecken, M. Javaux (2013)
Linking transpiration reduction to rhizosphere salinity using a 3D coupled soil-plant modelPlant and Soil, 377
(1996)
Hydraulic Ram Pumps
M. Javaux, V. Couvreur, J. Vanderborght, H. Vereecken (2013)
Root Water Uptake: From Three‐Dimensional Biophysical Processes to Macroscopic Modeling ApproachesVadose Zone Journal, 12
A. McElrone, Justin Bichler, W. Pockman, R. Addington, C. Linder, R. Jackson (2007)
Aquaporin-mediated changes in hydraulic conductivity of deep tree roots accessed via caves.Plant, cell & environment, 30 11
F. Veihmeyer, A. Hendrickson
SOIL-MOISTURE CONDITIONS IN RELATION TO PLANT GROWTH.Plant physiology, 2 1
K. Shackel (2011)
A Plant-based Approach to Deficit Irrigation in Trees and VinesHortscience, 46
F. Chaumont, M. Moshelion, M. Daniels (2005)
Regulation of plant aquaporin activityBiology of the Cell, 97
François Tardieu, William Davies (1992)
Stomatal response to abscisic Acid is a function of current plant water status.Plant physiology, 98 2
M. Siqueira, G. Katul, A. Porporato (2008)
Onset of water stress, hysteresis in plant conductance, and hydraulic lift: Scaling soil water dynamics from millimeters to metersWater Resources Research, 44
A. Tuzet, A. Perrier, R. Leuning (2003)
A coupled model of stomatal conductance, photosynthesis and transpirationPlant Cell and Environment, 26
C. Maurel, J. Reizer, J. Schroeder, M. Chrispeels (1993)
The vacuolar membrane protein gamma‐TIP creates water specific channels in Xenopus oocytes.The EMBO Journal, 12
L. Pagès, G. Vercambre, J. Drouet, F. Lecompte, C. Collet, J. Bot (2004)
Root Typ: a generic model to depict and analyse the root system architecturePlant and Soil, 258
W. Cramer, A. Bondeau, F. Woodward, I. Prentice, R. Betts, V. Brovkin, P. Cox, Veronica Fisher, J. Foley, A. Friend, C. Kucharik, M. Lomas, N. Ramankutty, S. Sitch, Benjamin Smith, A. White, C. Young-Molling (2001)
Global response of terrestrial ecosystem structure and function to CO2 and climate change: results from six dynamic global vegetation modelsGlobal Change Biology, 7
J. Wesseling (1991)
Meerjarige simulatie van grondwaterstroming voor verschillende bodemprofielen, grondwatertrappen en gewassen met het model SWATRE
(2014)
erance—A simulation study, Field Crops
(2001)
water dynamics models, Hydrol
V. Novák, J. Havrila (2006)
Method to estimate the critical soil water content of limited availability for plantsBiologia, 61
Soil water availability for plant transpiration is a key concept in agronomy. The objective of this study is to revisit this concept and discuss how it may be affected by processes locally influencing root hydraulic properties. A physical limitation to soil water availability in terms of maximal flow rate available to plant leaves ( Qavail) is defined. It is expressed for isohydric plants, in terms of plant‐centered variables and properties (the equivalent soil water potential sensed by the plant, ψs eq; the root system equivalent conductance, Krs; and a threshold leaf water potential, ψleaf lim). The resulting limitation to plant transpiration is compared to commonly used empirical stress functions. Similarities suggest that the slope of empirical functions might correspond to the ratio of Krs to the plant potential transpiration rate. The sensitivity of Qavail to local changes of root hydraulic conductances in response to soil matric potential is investigated using model simulations. A decrease of radial conductances when the soil dries induces earlier water stress, but allows maintaining higher night plant water potentials and higher Qavail during the last week of a simulated 1 month drought. In opposition, an increase of radial conductances during soil drying provokes an increase of hydraulic redistribution and Qavail at short term. This study offers a first insight on the effect of dynamic local root hydraulic properties on soil water availability. By better understanding complex interactions between hydraulic processes involved in soil‐plant hydrodynamics, better prospects on how root hydraulic traits mitigate plant water stress might be achieved.
Water Resources Research – Wiley
Published: Jan 1, 2014
Keywords: ; ; ;
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.