E. A. Bray, Molecular and Physiological Responses to Water-Deficit Stress, Advances in Molecular Breeding toward Drought and Salt Tolerant Crops

M. A. Jenks, P. M. Hasegawa, and S. M. Jain, , pp.121-140, 2007.

M. Collins, R. Knutti, J. Arblaster, J. L. Dufresne, T. Fichefet et al., Long-Term Climate Change: Projections, Commitments and Irreversibility, Working Group 1 Contribution to the IPCC Fifth Assessment Report-Climate Change: The Physical Science Basis

T. F. Stocker, D. Qin, G. K. Plattner, M. M. Tignor, S. K. Allen et al., , pp.1029-1136, 2013.

M. M. Chaves, J. S. Pereira, J. Maroco, M. L. Rodrigues, C. P. Ricardo et al., How Plants Cope with Water Stress in the Field? Photosynthesis and Growth, Ann. Bot, vol.89, pp.907-916, 2002.

S. Basu, V. Ramegowda, A. Kumar, and A. Pereira, Plant Adaptation to Drought Stress, 1554.

V. De-micco and G. Aronne, Morpho-Anatomical Traits for Plant Adaptation to Drought. In Plant Responses to Drought Stress; Aroca, R., Ed.; From Morphological to Molecular Features, pp.37-61, 2012.

F. Tardieu, Any Trait or Trait-Related Allele Can Confer Drought Tolerance: Just Design the Right Drought Scenario, J. Exp. Bot, vol.63, pp.25-31, 2012.

H. Claeys and D. Inze, The Agony of Choice: How Plants Balance Growth and Survival under Water-Limiting Conditions, Plant Physiol, vol.162, pp.1768-1779, 2013.

F. Tardieu, R. K. Varshney, and R. Tuberosa, Improving Crop Performance under Drought-Cross Fertilization of Disciplines, J. Exp. Bot, vol.68, pp.1393-1398, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01602772

F. Tardieu, M. Reymond, P. Hamard, C. Granier, and B. Muller, Spatial Distributions of Expansion Rate, Cell Division Rate and Cell Size in Maize Leaves: A Synthesis of the Effects of Soil Water Status, Evaporative Demand and Temperature, J. Exp. Bot, vol.51, pp.1505-1514, 2000.

M. Reymond, B. Muller, A. Leonardi, A. Charcosset, and F. Tardieu, Combining Quantitative Trait Loci Analysis and an Ecophysiological Model to Analyze the Genetic Variability of the Responses of Maize Leaf Growth to Temperature and Water Deficit, Plant Physiol, vol.131, pp.664-675, 2003.

L. Aguirrezabal, S. Bouchier-combaud, A. Radziejwoski, M. Dauzat, S. J. Cookson et al., Plasticity to Soil Water Deficit in Arabidopsis thaliana: Dissection of Leaf Development into Underlying Growth Dynamic and Cellular Variables Reveals Invisible Phenotypes, Plant Cell Environ, vol.29, pp.2216-2227, 2006.

J. Lecoeur, J. Wery, O. Turc, and F. Tardieu, Expansion of Pea Leaves Subjected to Short Water Deficit: Cell Number and Cell Size are Sensitive to Stress at Different Periods of Leaf Development, J. Exp. Bot, vol.46, pp.1093-1101, 1995.

A. Skirycz and D. Inze, More from Less: Plant Growth under Limited Water, Curr. Opin. Biotechnol, vol.21, pp.197-203, 2010.

F. Tardieu, C. Granier, and B. Muller, Water Deficit and Growth. Co-Ordinating Processes without an Orchestrator?, Curr. Opin. Plant Biol, vol.14, pp.283-289, 2011.

V. Avramova, H. Abdelgawad, Z. F. Zhang, B. Fotschki, R. Casadevall et al., Drought Induces Distinct Growth Response, Protection, and Recovery Mechanisms in the Maize Leaf Growth Zone, Plant Physiol, vol.169, pp.1382-1396, 2015.

V. Avramova, H. Abdelgawad, I. Vasileva, A. S. Petrova, A. Holek et al., High Antioxidant Activity Facilitates Maintenance of Cell Division in Leaves of Drought Tolerant Maize Hybrids. Front, Plant Sci, vol.8, 2017.

C. Granier and F. Tardieu, Water Deficit and Spatial Pattern of Leaf Development. Variability in Responses can be Simulated Using a Simple Model of Leaf Development, Plant Physiol, vol.119, pp.609-620, 1999.

W. Verelst, E. Bertolini, S. De-bodt, K. Vandepoele, M. Demeulenaere et al., Molecular and Physiological Analysis of Growth-Limiting Drought Stress in Brachypodium distachyon Leaves, Mol. Plant, vol.6, pp.311-322, 2013.

H. Nelissen, X. H. Sun, B. Rymen, Y. Jikumaru, M. Kojima et al., The Reduction in Maize Leaf Growth under Mild Drought Affects the Transition between Cell Division and Cell Expansion and cannot be Restored by Elevated Gibberellic Acid Levels, Plant Biotechnol. J, vol.16, pp.615-627, 2018.

K. Baerenfaller, C. Massonnet, S. Walsh, S. Baginsky, P. Bühlmann et al., Systems-Based Analysis of Arabidopsis Leaf Growth Reveals Adaptation to Water Deficit, Mol. Syst. Biol, vol.8, p.606, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01190637

A. Dambreville, M. Griolet, G. Rolland, M. Dauzat, A. Bediee et al., Phenotyping Oilseed Rape Growth-Related Traits and Their Responses to Water Deficit: The Disturbing Pot Size Effect, Funct. Plant Biol, vol.44, pp.35-45, 2017.
URL : https://hal.archives-ouvertes.fr/hal-02627132

H. Poorter, U. Niinemets, L. Poorter, I. J. Wright, and R. Villar, Causes and Consequences of Variation in Leaf Mass per Area (LMA): A Meta-Analysis, New Phytol, vol.182, pp.565-588, 2009.

S. Tisne, I. Schmalenbach, M. Reymond, M. Dauzat, M. Pervent et al., Keep on Growing under Drought: Genetic and Developmental Bases of the Response of Rosette Area using a Recombinant Inbred Line Population, Plant Cell Environ, vol.33, pp.1875-1887, 2010.

D. Vile, M. Pervent, M. Belluau, F. Vasseur, J. Bresson et al., Arabidopsis Growth under Prolonged High Temperature and Water Deficit: Independent or Interactive Effects? Plant Cell Environ, vol.35, pp.702-718, 2012.

O. Bouchabke, F. Chang, M. Simon, R. Voisin, G. Pelletier et al., Natural Variation in Arabidopsis thaliana as a Tool for Highlighting Differential Drought Responses, PLoS ONE, vol.3, p.1705, 2008.

G. Koch, G. Rolland, M. Dauzat, A. Bediee, V. Baldazzi et al., Are Compound Leaves More Complex Than Simple Ones? A Multi-Scale Analysis, Ann. Bot, vol.122, pp.1173-1185, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02629296

J. B. Passioura, Soil Conditions and Plant Growth, Plant Cell Environ, vol.25, pp.311-318, 2002.

N. D. Marron, J. M. Delay, E. Petit, G. Dreyer, F. M. Kahlem et al., Physiological Traits of two Populus × euramericana Clones, Luisa Avanzo and Dorskamp, during a Water Stress and Re-Watering Cycle, Tree Physiol, vol.22, pp.849-858, 2002.

N. Marron, E. Dreyer, E. Boudouresque, D. Delay, J. M. Petit et al., Impact of Successive Drought and Re-Watering Cycles on Growth and Specific Leaf Area of two Populus X canadensis (Moench) Clones: 'Dorskamp' and 'Luisa_Avanzo', Tree Physiol, vol.23, pp.1225-1235, 2003.

T. M. Yegappan, D. M. Paton, C. T. Gates, and W. J. Muller, Water Stress in Sunflower (Helianthus Annuus l.). Effects on Leaf Cells and Leaf Area, Ann. Bot, vol.49, pp.63-68, 1982.

B. Muller, F. Pantin, M. Genard, O. Turc, S. Freixes et al., Water Deficits Uncouple Growth from Photosynthesis, Increase C Content, and Modify the Relationships between C and Growth in Sink Organs, J. Exp. Bot, vol.62, pp.1715-1729, 2011.

N. Wuyts, C. Massonnet, M. Dauzat, and C. Granier, Structural Assessment of the Impact of Environmental Constraints on Arabidopsis Leaf Growth: A 3D Approach, Plant Cell Environ, vol.35, pp.1631-1646, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01268201

I. Hummel, F. Pantin, R. Sulpice, M. Piques, G. Rolland et al., Arabidopsis Plants Acclimate to Water Deficit at Low Cost Through Changes of Carbon Usage: An Integrated Perspective Using Growth, Metabolite, Enzyme, and Gene Expression Analysis, Plant Physiol, vol.154, pp.357-372, 2010.

D. J. Nicholson, Biological Atomism and Cell Theory, Stud. Hist. Philos. Sci. Part C Stud. Hist. Philos. Biol. Biomed. Sci, vol.41, pp.202-211, 2010.

C. Massonnet, S. Tisne, A. Radziejwoski, D. Vile, L. De-veylder et al., New Insights into the Control of Endoreduplication: Endoreduplication could be Driven by Organ Growth in Arabidopsis Leaves, Plant Physiol, vol.157, pp.2044-2055, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01019362

U. Heckenberger, U. Roggatz, and U. Schurr, Effect of Drought Stress on the Cytological Status in Ricinus communis, J. Exp. Bot, vol.49, pp.181-189, 1998.

P. Clauw, F. Coppens, A. Korte, D. Herman, B. Slabbinck et al., Leaf Growth Response to Mild Drought: Natural Variation in Arabidopsis Sheds Light on Trait Architecture, Plant Cell, vol.28, pp.2417-2434, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01602195

A. Skirycz, K. Vandenbroucke, P. Clauw, K. Maleux, B. De-meyer et al., Survival and Growth of Arabidopsis Plants Given Limited Water are not Equal, Nat. Biotechnol, vol.29, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01607043

S. Tisne, Y. Serrand, L. Bach, E. Gilbault, R. Ben-ameur et al., Phenoscope: An Automated Large-Scale Phenotyping Platform Offering High Spatial Homogeneity, Plant J, vol.74, pp.534-544, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01004455

N. Brichet, C. Fournier, O. Turc, O. Strauss, S. Artzet et al., A Robot-Assisted Imaging Pipeline for Tracking the Growths of Maize Ear and Silks in a High-Throughput Phenotyping Platform, Plant Methods, vol.13, p.96, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01631186

H. Nelissen, B. Rymen, F. Coppens, S. Dhondt, F. Fiorani et al., Kinematic Analysis of Cell Division in Leaves of Mono-And Dicotyledonous Species: A Basis for Understanding Growth and Developing Refined Molecular Sampling Strategies, Plant Organogenesis

D. Smet and I. Ed, , vol.959, pp.247-264, 2013.

C. Granier and F. Tardieu, Spatial and Temporal Analyses of Expansion and Cell Cyle in Sunflower Leaves. A Common Pattern of Development for All Zones of a Leaf and Different Leaves of a Plant, Plant Physiol, vol.116, pp.991-1001, 1998.

U. Schuppler, P. H. He, P. C. John, and R. Munns, Effect of Water Stress on Cell Division and Cell-Division-Cycle 2-Like Cell Cycle Kinase Activity in Wheat Leaves, Plant Physiol, vol.117, pp.667-678, 1998.

J. P. Reicheld, T. Vernoux, F. Lardon, M. Van-montagu, and D. Inze, Specific Checkpoints Regulate Plant Cell Cycle Progression in Response to Oxidative Stress, Plant J, vol.17, pp.647-656, 1999.

P. A. Nurse, Long Twentieth Century of the Cell Cycle and Beyond, Cell, vol.100, pp.71-78, 2000.

C. Granier, L. Aguirrezabal, K. Chenu, S. J. Cookson, M. Dauzat et al., PHENOPSIS, an Automated Platform for Reproducible Phenotyping of Plant Responses to Soil Water Deficit in Arabidopsis thaliana Permitted the Identification of an Accession with Low Sensitivity to Soil Water Deficit, New Phytol, vol.169, pp.623-635, 2006.

G. T. Beemster, L. De-veylder, S. Vercruysse, G. West, D. Rombaut et al., Genome-Wide Analysis of Gene Expression Profiles Associated with Cell Cycle Transitions in Growing Organs of Arabidopsis, Plant Physiol, vol.138, pp.734-743, 2005.

Y. Katagiri, J. Hasegawa, U. Fujikura, R. Hoshino, S. Matsunaga et al., The Coordination of Ploidy and Cell Size Differs Between Cell Layers in Leaves, vol.143, pp.1120-1125, 2016.

B. Edgar, N. Zielke, and C. Gutierrez, Endocycles: A Recurrent Evolutionary Innovation for Post-Mitotic Cell Growth, Nat. Rev. Mol. Cell Biol, vol.15, pp.197-210, 2014.

S. Polyn, A. Willems, and L. De-veylder, Cell Cycle Entry, Maintenance, and Exit during Plant Development, Curr. Opin. Plant Biol, vol.23, pp.1-7, 2015.

M. L. Kagan, N. Novoplansky, and T. Sachs, Variable Cell Lineages form the Functional Pea Epidermis, Ann. Bot, vol.69, pp.303-312, 1992.