L. R. Band, S. Úbeda-tomás, R. J. Dyson, A. M. Middleton, T. C. Hodgman et al., Growth-induced the National Academy of Sciences, USA, vol.109, pp.7577-7582, 2012.

T. I. Baskin, On the constancy of cell division rate in the root meristem, Plant Molecular Biology, vol.43, pp.545-554, 2000.

T. I. Baskin, Patterns of root growth acclimation: constant processes, changing boundaries, WIREs Developmental Biology, vol.2, pp.65-73, 2013.

R. Bastien, D. Legland, M. Martin, L. Fregosi, A. Peaucelle et al., KymoRod: a method for automated kinematic analysis of rod-shaped plant organs, The Plant Journal, vol.88, pp.468-475, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01417736

P. Basu, A. Pal, J. P. Lynch, and K. M. Brown, A novel image-analysis technique for kinematic study of growth and curvature, Plant Physiology, vol.145, pp.305-316, 2007.

G. T. Beemster and T. I. Baskin, Analysis of cell division and elongation underlying the developmental acceleration of root growth in Arabidopsis thaliana, Plant Physiology, vol.116, pp.1515-1526, 1998.

G. T. Beemster and T. I. Baskin, STUNTED PLANT 1 mediates effects of cytokinin, but not of auxin, on cell division and expansion in the root of Arabidopsis, Plant Physiology, vol.124, pp.1718-1727, 2000.

G. T. Beemster, D. Vusser, K. , D. Tavernier, E. et al., Variation in growth rate between Arabidopsis ecotypes is correlated with cell division and A-type cyclin-dependent kinase activity, Plant Physiology, vol.129, pp.854-864, 2002.

F. Bizet, A. G. Bengough, I. Hummel, M. B. Bogeat-triboulot, and L. X. Dupuy, 3D deformation field in growing plant roots reveals both mechanical and biological responses to axial mechanical forces, Journal of Experimental Botany, vol.67, pp.5605-5614, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01557565

F. Bizet, L. X. Dupuy, A. G. Bengough, A. Peaucelle, I. Hummel et al., Non-invasive protocol for kinematic monitoring of root growth under infrared light, Bio-Protocol, vol.7, p.2390, 2017.

F. Bizet, I. Hummel, and M. B. Bogeat-triboulot, Length and activity of the root apical meristem revealed in vivo by infrared imaging, Journal of Experimental Botany, vol.66, pp.1387-1395, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01269004

A. Chavarría-krauser, K. A. Nagel, K. Palme, U. Schurr, A. Walter et al., Spatio-temporal quantification of differential growth processes in root growth zones based on a novel combination of image sequence processing and refined concepts describing curvature production, New Phytologist, vol.177, pp.811-821, 2008.

D. De-vos, K. Vissenberg, J. Broeckhove, and G. T. Beemster, Putting theory to the test: which regulatory mechanisms can drive realistic growth of a root?, PLoS Computational Biology, vol.10, 2014.

C. Dunand, M. Crèvecoeur, and C. Penel, Distribution of superoxide and hydrogen peroxide in Arabidopsis root and their influence on root development: possible interaction with peroxidases, New Phytologist, vol.174, pp.332-341, 2007.

R. O. Erickson, Modeling of plant growth, Annual Review of Plant Physiology, vol.27, pp.407-434, 1976.

F. Fiorani and G. T. Beemster, Quantitative analyses of cell division in plants, Plant Molecular Biology, vol.60, pp.963-979, 2006.

A. Gázquez and G. Beemster, What determines organ size differences between species? A meta-analysis of the cellular basis, New Phytologist, vol.215, pp.299-308, 2017.

Y. Geng, R. Wu, C. W. Wee, F. Xie, X. Wei et al., A spatio-temporal understanding of growth regulation during the salt stress response in Arabidopsis, The Plant Cell, vol.25, pp.2132-2154, 2013.

D. Hukin, C. Doering-saad, C. R. Thomas, and J. Pritchard, Sensitivity of cell hydraulic conductivity to mercury is coincident with symplasmic isolation and expression of plasmalemma aquaporin genes in growing maize roots, Planta, vol.215, pp.1047-1056, 2002.

A. Ivakov, A. Flis, F. Apelt, M. Fünfgeld, U. Scherer et al., Cellulose synthesis and cell expansion are regulated by different mechanisms in growing arabidopsis hypocotyls, The Plant Cell, vol.29, pp.1305-1315, 2017.

M. G. Ivanchenko, D. Den-os, G. B. Monshausen, J. G. Dubrovsky, A. Bednárová et al., Auxin increases the hydrogen peroxide (H 2 O 2 ) concentration in tomato (Solanum lycopersicum) root tips while inhibiting root growth, Annals of Botany, vol.112, pp.1107-1116, 2013.

V. B. Ivanov, A. E. Dobrochaev, and T. I. Baskin, What the distribution of cell lengths in the root meristem does and does not reveal about cell division, Journal of Plant Growth Regulation, vol.21, pp.60-67, 2002.

A. Iwamoto, E. Kondo, H. Fujihashi, and M. Sugiyama, Kinematic study of root elongation in Arabidopsis thaliana with a novel image-analysis program, Journal of Plant Research, vol.126, pp.187-192, 2013.

J. Z. Kiss, J. L. Mullen, M. J. Correll, and R. P. Hangarter, Phytochromes A and B mediate red-light-induced positive phototropism in roots, Plant Physiology, vol.131, pp.1411-1417, 2003.

P. M. Kopittke, K. L. Moore, and E. Lombi, Identification of the primary lesion of toxic aluminum in plant roots, Plant Physiology, vol.167, pp.1402-1411, 2015.

P. M. Kopittke and P. Wang, Kinetics of metal toxicity in plant roots and its effects on root morphology, Plant and Soil, vol.419, pp.269-279, 2017.

Y. Liu, N. W. Lai, K. Gao, F. J. Chen, L. X. Yuan et al., , 2013.

T. J. Mulkey, M. L. Evans, and K. M. Kuzmanoff, The kinetics of abscisic acid action on root growth and gravitropism, Planta, vol.157, pp.150-157, 1983.

L. Pagès,

L. Pagès, V. Serra, X. Draye, C. Doussan, and A. Pierret, , 2010.

C. Plomion, C. Bastien, and M. Bogeat-triboulot, Forest tree genomics: 10 achievements from the past 10 years and future prospects, Annals of Forest Science, vol.73, pp.1-77, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01330031

A. Rahman, A. Bannigan, W. Sulaman, P. Pechter, E. B. Blancaflor et al., Auxin, actin and growth of the Arabidopsis thaliana primary root, The Plant Journal, vol.50, pp.514-528, 2007.

M. Royer, D. Cohen, A. N. Vendramin, V. Scalabrin, S. Cattonaro et al., The build-up of osmotic stress responses within the growing root apex using kinematics and RNAsequencing, Journal of Experimental Botany, vol.67, pp.5961-5973, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01499076

M. M. Sacks, W. K. Silk, and P. Burman,

J. Schindelin, I. Arganda-carreras, and E. Frise, Fiji: an opensource platform for biological-image analysis, Nature Methods, vol.9, pp.676-682, 2012.

R. E. Sharp, V. Poroyko, L. G. Hejlek, W. G. Spollen, G. K. Springer et al., Root growth maintenance during water deficits: physiology to functional genomics, Journal of Experimental Botany, vol.55, pp.2343-2351, 2004.

R. E. Sharp, W. K. Silk, and T. C. Hsiao, Growth of the maize primary root at low water potentials: I. Spatial distribution of expansive growth, Plant Physiology, vol.87, pp.50-57, 1988.

M. C. Shelden, U. Roessner, R. E. Sharp, M. Tester, and A. Bacic, , 2013.

W. K. Silk, Steady form from changing cells, International Journal of Plant Science, vol.153, pp.49-58, 1992.

W. K. Silk and M. Bogeat-triboulot, Deposition rates in growing tissue: implications for physiology, molecular biology, and response to environmental variation, Plant and Soil, vol.374, pp.1-17, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01268538

W. K. Silk and R. O. Erickson, Kinematics of plant growth, Journal of Theoretical Biology, vol.76, pp.481-501, 1979.

R. Swarup, P. Perry, D. Hagenbeek, D. Van-der-straeten, G. T. Beemster et al., Ethylene upregulates auxin biosynthesis in Arabidopsis seedlings to enhance inhibition of root cell elongation, The Plant Cell, vol.19, pp.2186-2196, 2007.

P. Thévenaz, M. Unser, C. M. Van-der-weele, H. S. Jiang, K. K. Palaniappan et al., A new algorithm for computational image analysis of deformable motion at high spatial and temporal resolution applied to root growth, Microscopy Research and Technique, vol.70, pp.1138-1148, 2003.

A. Walter, W. K. Silk, and U. Schurr, Environmental effects on spatial and temporal patterns of leaf and root growth, Annual Review of Plant Biology, vol.60, pp.279-304, 2009.

A. Walter, H. Spies, S. Terjung, R. Küsters, N. Kirchgessner et al.,

, Spatio-temporal dynamics of expansion growth in roots: automatic quantification of diurnal course and temperature response by digital image sequence processing, Journal of Experimental Botany, vol.53, pp.689-698

G. West, D. Inzé, and G. T. Beemster, Cell cycle modulation in the response of the primary root of Arabidopsis to salt stress, Plant Physiology, vol.135, pp.1050-1058, 2004.

A. Wiese, M. M. Christ, O. Virnich, U. Schurr, and A. Walter, Spatiotemporal leaf growth patterns of Arabidopsis thaliana and evidence for sugar control of the diel leaf growth cycle, New Phytologist, vol.174, pp.752-761, 2007.

N. Wuyts, A. G. Bengough, T. J. Roberts, C. Du, M. F. Bransby et al., Automated motion estimation of root responses to sucrose in two Arabidopsis thaliana genotypes using confocal microscopy, Planta, vol.234, pp.769-784, 2011.

W. Xu, L. Jia, W. Shi, J. Liang, F. Zhou et al., Abscisic acid accumulation modulates auxin transport in the root tip to enhance proton secretion for maintaining root growth under moderate water stress, New Phytologist, vol.197, pp.139-150, 2013.

X. Yang, G. Dong, K. Palaniappan, G. Mi, and T. I. Baskin, Temperaturecompensated cell production rate and elongation zone length in the root of Arabidopsis thaliana: temperature compensation in root growth, Plant, Cell & Environment, vol.40, pp.264-276, 2017.

R. S. Zalesny and J. A. Zalesny, Selecting Populus with different adventitious root types for environmental benefits, fiber, and energy, pp.359-384, 2009.