|Drought‐inhibition of photosynthesis in C3 plants: stomatal and non‐stomatal limitations revisited|
J Flexas, H Medrano
Annals of botany 89 (2), 183-189, 2002
|Regulation of Photosynthesis of C3 Plants in Response to Progressive Drought: Stomatal Conductance as a Reference Parameter|
H Medrano, JM Escalona, J Bota, J Gulías, J Flexas
Annals of botany 89 (7), 895-905, 2002
|Mesophyll conductance to CO2: current knowledge and future prospects|
J Flexas, M Ribas‐Carbo, A DIAZ‐ESPEJO, J GalmES, HOL Medrano
Plant, cell & environment 31 (5), 602-621, 2008
|Keeping a positive carbon balance under adverse conditions: responses of photosynthesis and respiration to water stress|
J Flexas, J Bota, J Galmes, H Medrano, M Ribas‐Carbó
Physiologia Plantarum 127 (3), 343-352, 2006
|Effects of drought on photosynthesis in grapevines under field conditions: an evaluation of stomatal and mesophyll limitations|
J Flexas, J Bota, JM Escalona, B Sampol, H Medrano
Functional Plant Biology 29 (4), 461-471, 2002
|Rapid variations of mesophyll conductance in response to changes in CO2 concentration around leaves|
J Flexas, A DIAZ‐ESPEJO, J Galmes, R Kaldenhoff, H Medrano, ...
Plant, Cell & Environment 30 (10), 1284-1298, 2007
|Mesophyll diffusion conductance to CO2: an unappreciated central player in photosynthesis|
J Flexas, MM Barbour, O Brendel, HM Cabrera, M Carriquí, A Diaz-Espejo, ...
Plant Science 193, 70-84, 2012
|Photosynthetic limitations in response to water stress and recovery in Mediterranean plants with different growth forms|
J Galmés, H Medrano, J Flexas
New phytologist 175 (1), 81-93, 2007
|Is photosynthesis limited by decreased Rubisco activity and RuBP content under progressive water stress?|
J Bota, H Medrano, J Flexas
New phytologist 162 (3), 671-681, 2004
|Tobacco aquaporin NtAQP1 is involved in mesophyll conductance to CO2in vivo|
J Flexas, M Ribas‐Carbó, DT Hanson, J Bota, B Otto, J Cifre, N McDowell, ...
The Plant Journal 48 (3), 427-439, 2006
|Decreased Rubisco activity during water stress is not induced by decreased relative water content but related to conditions of low stomatal conductance and chloroplast CO2 …|
J Flexas, M Ribas‐Carbó, J Bota, J Galmés, M Henkle, ...
New Phytologist 172 (1), 73-82, 2006
|Stomatal and non-stomatal limitations of photosynthesis under water stress in field-grown grapevines|
JM Escalona, J Flexas, H Medrano
Functional Plant Biology 27 (1), 87-87, 2000
|Water stress induces different levels of photosynthesis and electron transport rate regulation in grapevines|
J Flexas, JM Escalona, H Medrano
Plant, Cell & Environment 22 (1), 39-48, 1999
|Physiological tools for irrigation scheduling in grapevine (Vitis vinifera L.): An open gate to improve water-use efficiency?|
J Cifre, J Bota, JM Escalona, H Medrano, J Flexas
Agriculture, Ecosystems & Environment 106 (2-3), 159-170, 2005
|Drought-induced changes in development and function of grapevine (Vitis spp.) organs and in their hydraulic and non-hydraulic interactions at the whole-plant level: a …|
C Lovisolo, I Perrone, A Carra, A Ferrandino, J Flexas, H Medrano, ...
Functional plant biology 37 (2), 98-116, 2010
|UAVs challenge to assess water stress for sustainable agriculture|
J Gago, C Douthe, RE Coopman, PP Gallego, M Ribas-Carbo, J Flexas, ...
Agricultural water management 153, 9-19, 2015
|Water relations and stomatal characteristics of Mediterranean plants with different growth forms and leaf habits: responses to water stress and recovery|
J Galmés, J Flexas, R Savé, H Medrano
Plant and Soil 290 (1-2), 139-155, 2007
|Effects of water stress on respiration in soybean leaves|
M Ribas-Carbo, NL Taylor, L Giles, S Busquets, PM Finnegan, DA Day, ...
Plant Physiology 139 (1), 466-473, 2005
|Prospects for crop production under drought: research priorities and future directions|
MAJ Parry, J Flexas, H Medrano
Annals of Applied Biology 147 (3), 211-226, 2005
|Rubisco specificity factor tends to be larger in plant species from drier habitats and in species with persistent leaves|
J Galmes, J Flexas, AJ Keys, J Cifre, RAC Mitchell, PJ Madgwick, ...
Plant, Cell & Environment 28 (5), 571-579, 2005