Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development

Characterising root branching in response to water availability

Morris, Emily Caroline

December 2019

Soil is a complex environment for roots to navigate, in part due to the heterogeneous spread of wate...

Photosynthesis and Stomatal Behaviour

Lawson, Tracy
von Caemmerer, Susanne
Baroli, Irene Mabel

January 2011

In order for plants to use water efficiently, stomata must ensure an appropriate balance between CO2...

Declining soil-root hydraulic conductance drives stomatal closure of tomato under drought

Abdalla, Mohanned
Carminati, Andrea
Cai, Gaochao
Javaux, Mathieu
Ahmed, Mutez

April 2021

The fundamental question as to what triggers stomatal closure during soil drying remains contentious...

Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development.

Christopher Hepworth
Carla Turner
Marcela Guimaraes Landim
Duncan Cameron
Julie E Gray

Root development is influenced by nutrient and water availabilities. Plants are able to adjust many ...

Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development

Hepworth, C.
Turner, C.
Landim, M.G.
Cameron, D.
Gray, J.E.

June 2016

Root development is influenced by nutrient and water availabilities. Plants are able to adjust many ...

Soil hydraulic constraints on transpiration

Carminati, Andrea
Javaux, Mathieu
EGU General Assembly 2019

January 2019

Plants are continuously subject to changes in climate and soil conditions and their ability to promp...

Root hairs enable high transpiration rates in drying soils

Carminati, A
Passioura, JB
Zarebanadkouki, M
Ahmed, MA
Ryan, PR
Watt, M
Delhaize, E

November 2017

Do root hairs help roots take up water from the soil? Despite the well-documented role of root hairs...

Root Water Uptake and Ideotypes of the Root System: Whole-Plant Controls Matter

Tardieu, Francois
Draye, Xavier
Javaux, Mathieu

January 2017

Simulations of plant water uptake in soil science are based on the interplay between soil and root p...

Stomatal closure during water deficit is controlled by below-ground hydraulics

Abdalla, Mohanned
Ahmed, Mutez Ali
Cai, Gaochao
Wankmüller, Fabian
Schwartz, Nimrod
Litig, Or
Javaux, Mathieu
Carminati, Andrea

January 2021

• Background and Aims Stomatal closure allows plants to promptly respond to water shortage. Although...

Hydraulically versus Hormonally Controlled Root Water Uptake from Partially Wet Root Zones

Vanderborght, Jan
Huber, Katrin
Javaux, Mathieu
Vereecken, Harry
ASA, CSSSA and SSSA international annual meetings

January 2014

Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...

Common and specific responses to availability of mineral nutrients and water

Kudoyarova, Guzel R.
Dodd, Ian C.
Veselov, Dmitry S.
Rothwell, Shane A.
Veselov, Stanislav Yu.

April 2015

Changes in resource (mineral nutrients and water) availability, due to their heterogeneous distribut...

Genetic manipulation of stomatal density influences stomatal size, plant growth and tolerance to restricted water supply across a growth carbon dioxide gradient

Doheny-Adams, T.
Hunt, L.
Franks, P. J.
Beerling, D. J.
Gray, J. E.

February 2012

To investigate the impact of manipulating stomatal density, a collection of Arabidopsis epidermal pa...

Hydraulically Versus Hormonally Controlled Root Water Uptake from Partially Wet Root Zones.

Vanderborght, Jan
Huber, Katrin
Javaux, Mathieu
Vereecken, Harry

January 2014

Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...

Impacts of soil conductivity loss on plant transpiration regulation under drought

Cecere, Andrea
Henrion, Maud
Javaux, Mathieu
Young Soil Scientists Day

January 2022

Between 60 and 90% of terrestrial precipitations go back to the atmosphere through plant transpirati...

Stomatal closure of Pelargonium x hortorum in response to soil water deficit is associated with decreased leaf water potential only under rapid soil drying

Boyle, Richard K. A.
McAinsh, Martin
Dodd, Ian C.

January 2016

Soil water deficits applied at different rates and for different durations can decrease both stomata...

Characterising root branching in response to water availability

Morris, Emily Caroline

December 2019

Soil is a complex environment for roots to navigate, in part due to the heterogeneous spread of wate...

Photosynthesis and Stomatal Behaviour

Lawson, Tracy
von Caemmerer, Susanne
Baroli, Irene Mabel

January 2011

In order for plants to use water efficiently, stomata must ensure an appropriate balance between CO2...

Declining soil-root hydraulic conductance drives stomatal closure of tomato under drought

Abdalla, Mohanned
Carminati, Andrea
Cai, Gaochao
Javaux, Mathieu
Ahmed, Mutez

April 2021

The fundamental question as to what triggers stomatal closure during soil drying remains contentious...

Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development.

Christopher Hepworth
Carla Turner
Marcela Guimaraes Landim
Duncan Cameron
Julie E Gray

Root development is influenced by nutrient and water availabilities. Plants are able to adjust many ...

Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development

Hepworth, C.
Turner, C.
Landim, M.G.
Cameron, D.
Gray, J.E.

June 2016

Root development is influenced by nutrient and water availabilities. Plants are able to adjust many ...

Soil hydraulic constraints on transpiration

Carminati, Andrea
Javaux, Mathieu
EGU General Assembly 2019

January 2019

Plants are continuously subject to changes in climate and soil conditions and their ability to promp...

Root hairs enable high transpiration rates in drying soils

Carminati, A
Passioura, JB
Zarebanadkouki, M
Ahmed, MA
Ryan, PR
Watt, M
Delhaize, E

November 2017

Do root hairs help roots take up water from the soil? Despite the well-documented role of root hairs...

Root Water Uptake and Ideotypes of the Root System: Whole-Plant Controls Matter

Tardieu, Francois
Draye, Xavier
Javaux, Mathieu

January 2017

Simulations of plant water uptake in soil science are based on the interplay between soil and root p...

Stomatal closure during water deficit is controlled by below-ground hydraulics

Abdalla, Mohanned
Ahmed, Mutez Ali
Cai, Gaochao
Wankmüller, Fabian
Schwartz, Nimrod
Litig, Or
Javaux, Mathieu
Carminati, Andrea

January 2021

• Background and Aims Stomatal closure allows plants to promptly respond to water shortage. Although...

Hydraulically versus Hormonally Controlled Root Water Uptake from Partially Wet Root Zones

Vanderborght, Jan
Huber, Katrin
Javaux, Mathieu
Vereecken, Harry
ASA, CSSSA and SSSA international annual meetings

January 2014

Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...

Common and specific responses to availability of mineral nutrients and water

Kudoyarova, Guzel R.
Dodd, Ian C.
Veselov, Dmitry S.
Rothwell, Shane A.
Veselov, Stanislav Yu.

April 2015

Changes in resource (mineral nutrients and water) availability, due to their heterogeneous distribut...

Genetic manipulation of stomatal density influences stomatal size, plant growth and tolerance to restricted water supply across a growth carbon dioxide gradient

Doheny-Adams, T.
Hunt, L.
Franks, P. J.
Beerling, D. J.
Gray, J. E.

February 2012

To investigate the impact of manipulating stomatal density, a collection of Arabidopsis epidermal pa...

Hydraulically Versus Hormonally Controlled Root Water Uptake from Partially Wet Root Zones.

Vanderborght, Jan
Huber, Katrin
Javaux, Mathieu
Vereecken, Harry

January 2014

Drip irrigation may lead to non-uniform distributions of water in the root zone. Models that simulat...

Impacts of soil conductivity loss on plant transpiration regulation under drought

Cecere, Andrea
Henrion, Maud
Javaux, Mathieu
Young Soil Scientists Day

January 2022

Between 60 and 90% of terrestrial precipitations go back to the atmosphere through plant transpirati...

Stomatal closure of Pelargonium x hortorum in response to soil water deficit is associated with decreased leaf water potential only under rapid soil drying

Boyle, Richard K. A.
McAinsh, Martin
Dodd, Ian C.

January 2016

Soil water deficits applied at different rates and for different durations can decrease both stomata...

Characterising root branching in response to water availability

Morris, Emily Caroline

December 2019

Soil is a complex environment for roots to navigate, in part due to the heterogeneous spread of wate...

Photosynthesis and Stomatal Behaviour

Lawson, Tracy
von Caemmerer, Susanne
Baroli, Irene Mabel

January 2011

In order for plants to use water efficiently, stomata must ensure an appropriate balance between CO2...

Declining soil-root hydraulic conductance drives stomatal closure of tomato under drought

Abdalla, Mohanned
Carminati, Andrea
Cai, Gaochao
Javaux, Mathieu
Ahmed, Mutez

April 2021

The fundamental question as to what triggers stomatal closure during soil drying remains contentious...

Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development

Abstract

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Balancing Water Uptake and Loss through the Coordinated Regulation of Stomatal and Root Development

Abstract

Extracted data

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