User menu

Nighttime evaporative demand induces plasticity in leaf and root hydraulic traits

Bibliographic reference Claverie, Elodie ; Schoppach, Rémy ; Sadok, Walid. Nighttime evaporative demand induces plasticity in leaf and root hydraulic traits. In: Physiologia Plantarum, Vol. 158, no.4, p. 402-413 (2016)
Permanent URL http://hdl.handle.net/2078.1/183877
  1. Abràmoff, Biophotonics Intern., 11, 36 (2004)
  2. BARBOUR MARGARET M., BUCKLEY THOMAS N., The stomatal response to evaporative demand persists at night in Ricinus communis plants with high nocturnal conductance, 10.1111/j.1365-3040.2007.01658.x
  3. Barrs HD, Weatherley PE, A Re-Examination of the Relative Turgidity Technique for Estimating Water Deficits in Leaves, 10.1071/bi9620413
  4. Belimov Andrey A., Dodd Ian C., Safronova Vera I., Malkov Nikita V., Davies William J., Tikhonovich Igor A., The cadmium-tolerant pea (Pisum sativum L.) mutant SGECdt is more sensitive to mercury: assessing plant water relations, 10.1093/jxb/eru536
  5. Blonder Benjamin, Enquist Brian J., Inferring climate from angiosperm leaf venation networks, 10.1111/nph.12780
  6. Boyce C. K., Brodribb T. J., Feild T. S., Zwieniecki M. A., Angiosperm leaf vein evolution was physiologically and environmentally transformative, 10.1098/rspb.2008.1919
  7. Caird M. A., Richards J. H., Donovan L. A., Nighttime Stomatal Conductance and Transpiration in C3 and C4 Plants, 10.1104/pp.106.092940
  8. CARINS MURPHY MADELINE R., JORDAN GREGORY J., BRODRIBB TIMOTHY J., Differential leaf expansion can enable hydraulic acclimation to sun and shade : Leaf expansion can enable hydraulic acclimation, 10.1111/j.1365-3040.2012.02498.x
  9. CARINS MURPHY MADELINE R., JORDAN GREGORY J., BRODRIBB TIMOTHY J., Acclimation to humidity modifies the link between leaf size and the density of veins and stomata : VPD alters the link between leaf size and anatomy, 10.1111/pce.12136
  10. CHRISTMAN MAIRGARETH A., RICHARDS JAMES H., MCKAY JOHN K., STAHL ELI A., JUENGER THOMAS E., DONOVAN LISA A., Genetic variation inArabidopsis thalianafor night-time leaf conductance, 10.1111/j.1365-3040.2008.01833.x
  11. Devi M. Jyostna, Taliercio Earl W., Sinclair Thomas R., Leaf expansion of soybean subjected to high and low atmospheric vapour pressure deficits, 10.1093/jxb/eru520
  12. Eamus Derek, Boulain Nicolas, Cleverly James, Breshears David D., Global change-type drought-induced tree mortality: vapor pressure deficit is more important than temperature per se in causing decline in tree health, 10.1002/ece3.664
  13. Fleury D., Jefferies S., Kuchel H., Langridge P., Genetic and genomic tools to improve drought tolerance in wheat, 10.1093/jxb/erq152
  14. Guan Dahai, Al-Kaisi Mahdi M., Zhang Yushi, Duan Liusheng, Tan Weiming, Zhang Mingcai, Li Zhaohu, Tillage practices affect biomass and grain yield through regulating root growth, root-bleeding sap and nutrients uptake in summer maize, 10.1016/j.fcr.2013.12.015
  15. Henry Amelia, Cal Andrew J., Batoto Tristram C., Torres Rolando O., Serraj Rachid, Root attributes affecting water uptake of rice (Oryza sativa) under drought, 10.1093/jxb/ers150
  16. Hooke Roger LeB., Martín-Duque José F., Land transformation by humans: A review, 10.1130/gsat151a.1
  17. Kholová, Funct Plant Biol, 43, 423 (2016)
  18. Lawson T., James W., Weyers J., A surrogate measure of stomatal aperture, 10.1093/jxb/49.325.1397
  19. Lobell D. B., Roberts M. J., Schlenker W., Braun N., Little B. B., Rejesus R. M., Hammer G. L., Greater Sensitivity to Drought Accompanies Maize Yield Increase in the U.S. Midwest, 10.1126/science.1251423
  20. Mott, Plant Cell Environ, 33, 1084 (2010)
  21. Ogle Kiona, Lucas Richard W., Bentley Lisa Patrick, Cable Jessica M., Barron-Gafford Greg A., Griffith Alden, Ignace Danielle, Jenerette G. Darrel, Tyler Anna, Huxman Travis E., Loik Michael E., Smith Stanley D., Tissue David T., Differential daytime and night-time stomatal behavior in plants from North American deserts, 10.1111/j.1469-8137.2012.04068.x
  22. Quintero Jose M., Fournier Jose M., Ramos Jose, Benlloch Manuel, K+ status and ABA affect both exudation rate and hydraulic conductivity in sunflower roots, 10.1034/j.1399-3054.1998.1020216.x
  23. Rawson, Funct Plant Biol, 15, 397 (1988)
  24. de Dios Víctor Resco, Roy Jacques, Ferrio Juan Pedro, Alday Josu G., Landais Damien, Milcu Alexandru, Gessler Arthur, Processes driving nocturnal transpiration and implications for estimating land evapotranspiration, 10.1038/srep10975
  25. Reynolds M., Dreccer F., Trethowan R., Drought-adaptive traits derived from wheat wild relatives and landraces, 10.1093/jxb/erl250
  26. Rosado Bruno H.P., Oliveira Rafael S., Joly Carlos A., Aidar Marcos P.M., Burgess Stephen S.O., Diversity in nighttime transpiration behavior of woody species of the Atlantic Rain Forest, Brazil, 10.1016/j.agrformet.2012.02.002
  27. SADOK WALID, NAUDIN PHILIPPE, BOUSSUGE BENOIT, MULLER BERTRAND, WELCKER CLAUDE, TARDIEU FRANCOIS, Leaf growth rate per unit thermal time follows QTL-dependent daily patterns in hundreds of maize lines under naturally fluctuating conditions, 10.1111/j.1365-3040.2006.01611.x
  28. Schlesinger William H., Jasechko Scott, Transpiration in the global water cycle, 10.1016/j.agrformet.2014.01.011
  29. Schoppach Rémy, Sadok Walid, Transpiration sensitivities to evaporative demand and leaf areas vary with night and day warming regimes among wheat genotypes, 10.1071/fp13028
  30. Schoppach R�my, Claverie Elodie, Sadok Walid, Genotype-dependent influence of night-time vapour pressure deficit on night-time transpiration and daytime gas exchange in wheat, 10.1071/fp14067
  31. Schoppach Rémy, Wauthelet Diego, Jeanguenin Linda, Sadok Walid, Conservative water use under high evaporative demand associated with smaller root metaxylem and limited trans-membrane water transport in wheat, 10.1071/fp13211
  32. Schoppach Rémy, Taylor Julian D, Majerus Elisabeth, Claverie Elodie, Baumann Ute, Suchecki Radoslaw, Fleury Delphine, Sadok Walid, High resolution mapping of traits related to whole-plant transpiration under increasing evaporative demand in wheat, 10.1093/jxb/erw125
  33. SMITH S., WEYERS J. D. B., BERRY W. G., Variation in stomatal characteristics over the lower surface of Commelina communis leaves, 10.1111/j.1365-3040.1989.tb01234.x
  34. Snyder K. A., Night-time conductance in C3 and C4 species: do plants lose water at night?, 10.1093/jxb/erg082
  35. Watt Michelle, Magee Linda J., McCully Margaret E., Types, structure and potential for axial water flow in the deepest roots of field-grown cereals, 10.1111/j.1469-8137.2007.02358.x
  36. Welcker C., Sadok W., Dignat G., Renault M., Salvi S., Charcosset A., Tardieu F., A Common Genetic Determinism for Sensitivities to Soil Water Deficit and Evaporative Demand: Meta-Analysis of Quantitative Trait Loci and Introgression Lines of Maize, 10.1104/pp.111.176479
  37. ZADOKS J. C., CHANG T. T., KONZAK C. F., A decimal code for the growth stages of cereals, 10.1111/j.1365-3180.1974.tb01084.x