Stomatal response of an anisohydric grapevine cultivar to evaporative demand, available soil moisture and abscisic acid

Varietal differences in water relations of wine grapes

Martinez, Joelle

January 2019

Thesis (Ph.D.), Horticulture, Washington State UniversityWine grape varieties are classified by thei...

The manipulation of grapevine leaf gas exchange through irrigation management

Loveys, B.
Soar, C.
Stoll, M.
Mccarthy, M.
Dry, P.

January 2002

During the past ten years the Australian winegrape industry has experienced a period of massive expa...

Abscisic acid down-regulates hydraulic conductance of grapevine leaves in isohydric genotypes only

Coupel-Ledru, A.
Tyerman, S.
Masclef, D.
Lebon, E.
Christophe, A.
Edwards, E.
Simonneau, T.

January 2017

Published September 12, 2017.Plants evolved different strategies to cope with water stress. While is...

Stomatal behavior of different grapevine cultivars in response to soil water status and air water vapor pressure deficit

Jorge A. Prieto
Éric Lebon
Hernán Ojeda

March 2010

Aims: Genetic variability in grapevine cultivars may influence their strategy to cope with drought t...

Comparing hydraulics between two grapevine cultivars reveals differences in stomatal regulation under water stress and exogenous ABA applications

Dayer, S.
Scharwies, J.D.
Ramesh, S.A.
Sullivan, W.
Doerflinger, F.C.
Pagay, V.
Tyerman, S.D.

January 2020

Hydraulics of plants that have different strategies of stomatal regulation under water stress are re...

Differences in water-use-efficiency between two Vitis vinifera cultivars (Grenache and Tempranillo) explained by the combined response of stomata to hydraulic and chemical signals during water stress

Martorell, S.
Diaz-Espejo, A.
Tomàs, M.
Pou, A.
El Aou-ouad, H.
Escalona, J.M.
Vadell, J.
Ribas-Carbó, M.
Flexas, J.
Medrano, H.

January 2015

Knowledge about regulation of stomatal conductance is necessary to improve grapevine water use effic...

Transpiration efficiency of the grapevine cv. Semillon is tied to VPD in warm climates

Rogiers, Suzy Y. (R19086)
Greer, Dennis H.
Hutton, Ron J.
Clarke, Simon

January 2011

Water-use efficiency in grapevines is dependent on the aerial and below-ground environment of the pl...

Effect of irrigation management on the relationship between stomatal conductance and stem water potential on cv. Cabernet Sauvignon

Vargas Sebastian
Osorio Nicolas
González Alvaro
Ortega-Farías Samuel

February 2023

Water relations in vineyards have been largely studied; giving insides regarding the way grapevine i...

Grapevine varieties exhibiting differences in stomatal response to water deficit

Costa, Joaquim M.
Ortunõ, Maria F.
Lopes, C.M.
Chaves, M.M.

January 2012

Abstract. Knowledge on variety traits and physiological responses to stress is still scarce in Vitis...

Natural variation in stomatal dynamics drives divergence in heat stress tolerance and contributes to seasonal intrinsic water-use efficiency in Vitis vinifera (subsp. sativa and sylvestris)

Faralli, Michele
Bontempo, Luana
Bianchedi, Pier Luigi
Moser, Claudio
Bertamini, Massimo
Lawson, Tracy
Camin, Federica
Stefanini, Marco
Varotto, Claudio

January 2022

Stomata control CO2 uptake for photosynthesis and water loss through transpiration, thus playing a k...

Natural variation in stomatal dynamics drives divergence in heat stress tolerance and contributes to the seasonal intrinsic water-use efficiency in Vitis vinifera (subsp. sativa and sylvestris)

Faralli, Michele
Bontempo, Luana
Bianchedi, Pier Luigi
Moser, Claudio
Bertamini, Massimo
Lawson, Tracy
Camin, Federica
Stefanini, Marco
Varotto, Claudio

May 2022

Stomata control CO2 uptake for photosynthesis and water loss through transpiration, thus playing a k...

Speed of stomatal responses to fluctuating environmental conditions explains the lack of association between heat stress sensitivity and iWUE in field grown grapevine

Faralli, M.
Bontempo, L.
Bianchedi, PL.
Moser, C.
Bertamini, M.
Camin, F.
Stefanini, M.
Varotto, C.

January 2021

1. Hypothesis Stomata control CO2 uptake for photosynthesis and water loss through transpiration. P...

Influence of water stress on grapevines growing in the field: From leaf to whole-plant response

Winkel, T.
Rambal, S

January 1993

International audienceA comparative study of soil-plant water relations was conducted on three grape...

Hydric behaviour and gas exchange in different grapevine varieties (Vitis vinifera L.) from the Maule Valley (Chile)

Gutiérrez-Gamboa, Gastón
Pérez-Donoso, A. G.
Pou-Mir, A.
Cevedo-Opazo, C.
Valdés-Gómez, H.

March 2020

In the near future, stomatal behaviour will be crucial to counteract conditions arising from climate...

Stomatal responses in grapevine become increasingly more tolerant to low water potentials throughout the growing season

Herrera, Jose Carlos
Calderan, Alberto
Gambetta, Gregory A
Peterlunger, Enrico
Forneck, Astrid
Sivilotti, Paolo
Cochard, Herve
Hochberg, Uri

January 2022

: The leaf of deciduous species completes its life cycle in a few months. During leaf maturation, os...

Varietal differences in water relations of wine grapes

Martinez, Joelle

January 2019

Thesis (Ph.D.), Horticulture, Washington State UniversityWine grape varieties are classified by thei...

The manipulation of grapevine leaf gas exchange through irrigation management

Loveys, B.
Soar, C.
Stoll, M.
Mccarthy, M.
Dry, P.

January 2002

During the past ten years the Australian winegrape industry has experienced a period of massive expa...

Abscisic acid down-regulates hydraulic conductance of grapevine leaves in isohydric genotypes only

Coupel-Ledru, A.
Tyerman, S.
Masclef, D.
Lebon, E.
Christophe, A.
Edwards, E.
Simonneau, T.

January 2017

Published September 12, 2017.Plants evolved different strategies to cope with water stress. While is...

Stomatal behavior of different grapevine cultivars in response to soil water status and air water vapor pressure deficit

Jorge A. Prieto
Éric Lebon
Hernán Ojeda

March 2010

Aims: Genetic variability in grapevine cultivars may influence their strategy to cope with drought t...

Comparing hydraulics between two grapevine cultivars reveals differences in stomatal regulation under water stress and exogenous ABA applications

Dayer, S.
Scharwies, J.D.
Ramesh, S.A.
Sullivan, W.
Doerflinger, F.C.
Pagay, V.
Tyerman, S.D.

January 2020

Hydraulics of plants that have different strategies of stomatal regulation under water stress are re...

Differences in water-use-efficiency between two Vitis vinifera cultivars (Grenache and Tempranillo) explained by the combined response of stomata to hydraulic and chemical signals during water stress

Martorell, S.
Diaz-Espejo, A.
Tomàs, M.
Pou, A.
El Aou-ouad, H.
Escalona, J.M.
Vadell, J.
Ribas-Carbó, M.
Flexas, J.
Medrano, H.

January 2015

Knowledge about regulation of stomatal conductance is necessary to improve grapevine water use effic...

Transpiration efficiency of the grapevine cv. Semillon is tied to VPD in warm climates

Rogiers, Suzy Y. (R19086)
Greer, Dennis H.
Hutton, Ron J.
Clarke, Simon

January 2011

Water-use efficiency in grapevines is dependent on the aerial and below-ground environment of the pl...

Effect of irrigation management on the relationship between stomatal conductance and stem water potential on cv. Cabernet Sauvignon

Vargas Sebastian
Osorio Nicolas
González Alvaro
Ortega-Farías Samuel

February 2023

Water relations in vineyards have been largely studied; giving insides regarding the way grapevine i...

Grapevine varieties exhibiting differences in stomatal response to water deficit

Costa, Joaquim M.
Ortunõ, Maria F.
Lopes, C.M.
Chaves, M.M.

January 2012

Abstract. Knowledge on variety traits and physiological responses to stress is still scarce in Vitis...

Natural variation in stomatal dynamics drives divergence in heat stress tolerance and contributes to seasonal intrinsic water-use efficiency in Vitis vinifera (subsp. sativa and sylvestris)

Faralli, Michele
Bontempo, Luana
Bianchedi, Pier Luigi
Moser, Claudio
Bertamini, Massimo
Lawson, Tracy
Camin, Federica
Stefanini, Marco
Varotto, Claudio

January 2022

Stomata control CO2 uptake for photosynthesis and water loss through transpiration, thus playing a k...

Natural variation in stomatal dynamics drives divergence in heat stress tolerance and contributes to the seasonal intrinsic water-use efficiency in Vitis vinifera (subsp. sativa and sylvestris)

Faralli, Michele
Bontempo, Luana
Bianchedi, Pier Luigi
Moser, Claudio
Bertamini, Massimo
Lawson, Tracy
Camin, Federica
Stefanini, Marco
Varotto, Claudio

May 2022

Stomata control CO2 uptake for photosynthesis and water loss through transpiration, thus playing a k...

Speed of stomatal responses to fluctuating environmental conditions explains the lack of association between heat stress sensitivity and iWUE in field grown grapevine

Faralli, M.
Bontempo, L.
Bianchedi, PL.
Moser, C.
Bertamini, M.
Camin, F.
Stefanini, M.
Varotto, C.

January 2021

1. Hypothesis Stomata control CO2 uptake for photosynthesis and water loss through transpiration. P...

Influence of water stress on grapevines growing in the field: From leaf to whole-plant response

Winkel, T.
Rambal, S

January 1993

International audienceA comparative study of soil-plant water relations was conducted on three grape...

Hydric behaviour and gas exchange in different grapevine varieties (Vitis vinifera L.) from the Maule Valley (Chile)

Gutiérrez-Gamboa, Gastón
Pérez-Donoso, A. G.
Pou-Mir, A.
Cevedo-Opazo, C.
Valdés-Gómez, H.

March 2020

In the near future, stomatal behaviour will be crucial to counteract conditions arising from climate...

Stomatal responses in grapevine become increasingly more tolerant to low water potentials throughout the growing season

Herrera, Jose Carlos
Calderan, Alberto
Gambetta, Gregory A
Peterlunger, Enrico
Forneck, Astrid
Sivilotti, Paolo
Cochard, Herve
Hochberg, Uri

January 2022

: The leaf of deciduous species completes its life cycle in a few months. During leaf maturation, os...

Varietal differences in water relations of wine grapes

Martinez, Joelle

January 2019

Thesis (Ph.D.), Horticulture, Washington State UniversityWine grape varieties are classified by thei...

The manipulation of grapevine leaf gas exchange through irrigation management

Loveys, B.
Soar, C.
Stoll, M.
Mccarthy, M.
Dry, P.

January 2002

During the past ten years the Australian winegrape industry has experienced a period of massive expa...

Abscisic acid down-regulates hydraulic conductance of grapevine leaves in isohydric genotypes only

Coupel-Ledru, A.
Tyerman, S.
Masclef, D.
Lebon, E.
Christophe, A.
Edwards, E.
Simonneau, T.

January 2017

Published September 12, 2017.Plants evolved different strategies to cope with water stress. While is...

Stomatal response of an anisohydric grapevine cultivar to evaporative demand, available soil moisture and abscisic acid

Abstract

Extracted data

Stomatal response of an anisohydric grapevine cultivar to evaporative demand, available soil moisture and abscisic acid

Abstract

Extracted data

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