The article presenting PHENOPSIS published in 2006 in New Phytologist (https://doi.org/10.1111/j.1469-8137.2005.01609.x) has been cited 384 times (October 2023) and 47 articles have since appeared in international journals with data from PHENOPSIS.
Articles published with data from experiments in PHENOPSIS :
47- Nguyen NNT, Lamotte O, Alsulaiman M*, Ruffel S, Krouk G, Dang TMN, Aimé S, Berthomieu P, Dubos C, Wendehenne D, Vile D, and Gosti F. 2023. Reduction in PLANT DEFENSIN 1 results in increased resistance to pathogens and zinc toxicity. Journal of Experimental Botany. https://doi.org/10.1093/jxb/erad228
46- Westgeest, A. J., Dauzat, M., Simonneau, T., & Pantin, F. (2023). Leaf starch metabolism sets the phase of stomatal rhythm. The Plant Cell, 35(9), 3444-3469.
45- Bergès SE, Vasseur F, Bediée A, Rolland G, Masclef D, Dauzat M, van Munster M, Vile D (2020) Natural variation of Arabidopsis thaliana responses to Cauliflower mosaic virus infection upon water deficit. PLOS Pathogens 16: e1008557. doi:10.1371/journal.ppat.1008557.
44- Koch G, Rolland G, Dauzat M, Bediee A, Baldazzi V, Bertin N, Guédon Y, Granier C (2019) Leaf Production and Expansion: A Generalized Response to Drought Stresses from Cells to Whole Leaf Biomass—A Case Study in the Tomato Compound Leaf. Plants 8: 409. doi:10.3390/plants8100409.
43- Sartori K, Vasseur F, Violle C, Baron E, Gerard M, Rowe N, Ayala-Garay OJ, Christophe A, Jalón LGd, Masclef D, Harscouet E, Granado MdR, Chassagneux A, Kazakou E, Vile D (2019) Leaf economics and slow-fast adaptation across the geographic range of Arabidopsis thaliana. Scientific Reports 9: 10758. doi:10.1038/s41598-019-46878-2.
42- Vasseur F, Exposito-Alonso M, Ayala-Garay OJ, Wang G, Enquist BJ, Vile D, Violle C, Weigel D (2018) Adaptive diversification of growth allometry in the plant Arabidopsis thaliana. Proceedings of the National Academy of Sciences 115: 3416-3421. doi:10.1073/pnas.1709141115
41- Koch G, Rolland G, Dauzat M, Bédiée A, Baldazzi V, Bertin N, Guédon Y and Granier C (2018) Are compound leaves more complex than simple ones? A multi-scale analysis. Annals of Botany. DOI: 10.1093/aob/mcy116
40- Bergès S., Vile D., Vazquez-Rovere C., Blanc S., Yvon M., Bédiée A., Rolland G., Dauzat M., van Munster M. (2018) Interactions Between Drought and Plant Genotype Change Epidemiological Traits of Cauliflower mosaic virus. Frontiers in Plant Sciences, 9: 703-
39- Dubois M., Selden K., Bediée A., Rolland G., Baumberger N., Noir S., Bach L., Lamy G., Granier C. and Genschik P. (2018) SIAMESE-RELATED1 is regulated posttranslationally and takes part in drought-induced growth reduction. Plant Physiology, 176: 2834-2850.
38- Rymaszewski, W., Dauzat, M., Bédiée, A., Rolland, G., Luchaire, N., Granier, C., Hennig, J. and Vile, D. (2018). Measurement of Arabidopsis thaliana Plant Traits Using the PHENOPSIS Phenotyping Platform. Bio-protocol 8(4): e2739. DOI: 10.21769/BioProtoc.2739.
37- Rymaszewski W., Vile D., Bediee A., Dauzat M., Luchaire N., Kamrowska D., Granier C., Hennig J. (2017) Stress-related gene expression reflects morphophysiological responses to water deficit. Plant Physiology, 174: 1913–1930.
36- Dambreville A., Griolet M., Rolland G., Dauzat M., Bédiée A., Balsera C., Muller B., Vile D., Granier C. (2017) Phenotyping oilseed rape growth-related traits and their responses to water deficit: the disturbing pot size effect. Functional Plant Biology. 44, 35–45.
35- Bac-Molenaar, J. A., Granier, C., Keurentjes, J. J. B., Vreugdenhil, D. (2016) Genome wide association mapping of time-dependent growth responses to moderate drought stress in Arabidopsis. Plant, Cell and Environment, 39 (1), 88-102.
34- Lievre, M., Granier, C., Guédon, Y. (2016) Identifying developmental phases in the Arabidopsis thaliana rosette using integrative segmentation models. New Phytologist, 210 (4), 1466-1478
33- Bac-Molenaar, J. A., Vreugdenhil, D., Granier, C., Keurentjes, J. J. B. (2015) Genome-wide association mapping of growth dynamics detects time-specific and general quantitative trait loci. Journal of Experimental Botany, 66 (18), 5567-5580.
32- Baerenfaller, K., Massonnet, C., Hennig, L., Russenberger, D., Sulpice, R., Walsh, S., Stitt, M., Granier, C., Gruissem, W. (2015) A long photoperiod relaxes energy management in Arabidopsis leaf six. Current Plant Biology, 2, 34-45
31- Bresson, J., Vasseur, F., Dauzat, M., Koch, G., Granier, C., Vile, D. (2015) Quantifying spatial heterogeneity of chlorophyll fluorescence during plant growth and in response to water stress. Plant Methods, 11 (1), 23
30- Blonder B, Vasseur F, Violle C, Shipley B, Enquist B, Vile D (2015) Testing models for the origin of the leaf economics spectrum with leaf and whole-plant traits in Arabidopsis thaliana. AoB Plants 7. 10.1093/aobpla/plv049
29- Dapp, M., Reinders, J., Bediee, A., Balsera, C., Bucher, E., Theiler, G., Granier, C., Paszkowski, J. (2015) Heterosis and inbreeding depression of epigenetic Arabidopsis hybrids. Nature Plants, 1.
28- Massonnet, C., Dauzat, M., Bédiée, A., Vile, D., Granier, C. (2015) Individual leaf area of early flowering Arabidopsis genotypes is more affected by drought than late flowering ones: a multi-scale analysis in 35 genetically modified lines. American Journal of Plant Sciences, 6 (7), 955-971.
27- Schmalenbach Inga, Zhang Lei, Reymond Matthieu, Jimenez-Gomez Jose M (2014) The relationship between flowering time and growth responses to drought in the Arabidopsis Landsberg erecta x Antwerp-1 population. Frontiers in Plant Science. 5-609.DOI=10.3389/fpls.2014.00609
26- Vasseur, F., Bontpart, T., Dauzat, M., Granier, C., Vile, D. (2014) Multivariate genetic analysis of plant responses to water deficit and high temperature revealed contrasting adaptive strategies. Journal of Experimental Botany, 65 (22), 6457-6469.
25- Pantin, F., Fanciullino, A.-L., Massonnet, C., Dauzat, M., Simonneau, T., Muller, B. (2013). Buffering growth variations against water deficits through timely carbon usage. Frontiers in Plant Science, 4. DOI : 10.3389/fpls.2013.00483
24- Pascal et al. (2013) The Arabidopsis cer26 mutant, like the cer2 mutant, is specifically affected in the very long chain fatty acid elongation process. Plant J 73: 733-46.
23- Bresson J. et al. (2013) The PGPR strain Phyllobacterium brassicacearum STM196 induces a reproductive delay and physiological changes that result in improved drought tolerance in Arabidopsis. New Phytol.,200(2): 558-569.
22- Lièvre M, Wuyts N, Cookson SJ, Bresson J, Dapp M, Vasseur F, Massonnet C, Tisne S, Bettembourg M, Balsera C, Bédiée A, Bouvery F, Dauzat M, Rolland G, Vile D and Granier C (2013) Phenotyping the kinematics of leaf development in flowering plants: recommendations and pitfalls. WIREs Dev Biol 2: 809-821.
21- Wuyts N, Massonnet C, Dauzat M & Granier C (2012) Structural assessment of the impact of environmental constraints on Arabidopsis leaf growth: a 3D approach. Plant Cell and Environment 35(9):1631-1646
20- Vile D., Pervent M., Belluau M., Vasseur F., Bresson J., Muller B., Granier C. & Simonneau T. (2012) Arabidopsis growth under prolonged high temperature and water deficit: independent or interactive effects? Plant Cell and Environment 35(4): 702-718.
19- Vasseur F, Violle C, Enquist B.J., Granier C & Vile D (2012) A common genetic basis to the origin of the leaf economics spectrum and metabolic scaling allometry. Ecology Letters 15(10):1149-1157.
18- Baerenfaller K., Massonnet C., Walsh S., Baginsky S., Bühlmann P.., Hennig L., Hirsch-Hoffmann M., Howell K.A., Kahlau S., Radziejwoski A., Russenberger D., Rutishauser D., Small I., Stekhoven D., Sulpice R., Svozil1 J., Wuyts N., Stitt M., Hilson P., Granier C. & Wilhelm G. (2012) "Systems-based analysis of Arabidopsis leaf growth reveals adaptation to water deficit" Molecular Systems Biology. 8:606
17- Pantin F. (2011) Control of leaf expansion: a developmental switch from metabolics to hydraulics. Plant Physiol. 156(2):803-815
16- Massonnet C, Tisné S, Radziejwoski A, Vile D, de Veylder L, Dauzat M & Granier C (2011) New Insights into the Control of Endoreduplication: Endoreduplication Is Driven by Organ Growth in Arabidopsis Leaves. Plant Physiology 157: 2044-2055.
15- Tisné S, Barbier F & Granier C (2011) The ERECTA gene controls spatial and temporal patterns of epidermal cell number and size in successive developing leaves of Arabidopsis thaliana. Annals of Botany 108: 159-168.
14- Fabre J, Dauzat M, Nègre V, Wuyts N, Tireau A, Gennari E, Neveu P, Tisné S, Massonnet C, Hummel I & Granier C (2011) PHENOPSIS DB: an Information System for Arabidopsis thaliana phenotypic data in an environmental context. BMC Plant Biology 11
13- Bourdenx et al. (2011) Overexpression of Arabidopsis CER1 promotes wax VLC-alkane biosynthesis and influences plant response to biotic and abiotic stresses. Plant Physiol 156: 29-45.
12- Massonnet C, Vile D, Fabre J, Hannah MA, Caldana C, Lisec J, Beemster GTS, Meyer RC, Messerli G, Gronlund JT, Perkovic J, Wigmore E, May S, Bevan MW, Meyer C, Rubio-Díaz S, Weigel D, Micol JL, Buchanan-Wollaston V, Fiorani F, Walsh S, Rinn R, Gruissem W, Hilson P, Hennig L, Willmitzer L & Granier C (2010) Probing the reproducibility of leaf growth and molecular phenotypes: a comparison of three Arabidopsis accessions cultivated in ten laboratories Plant Physiology 152, 2142-2157.
11- Wuyts N, Palauqui JC, Conejero G, Verdeil JL, Granier C & Massonnet C (2010) High-contrast three-dimensional imaging of the Arabidopsis leaf enables the analysis of cell dimensions in the epidermis and mesophyll. Plant Methods, 6: 17
10- Tisné S, Schmalenbach I, Reymond R, Dauzat M, Pervent M, Vile D & Granier C (2010) Keep on growing under drought: genetic and developmental bases of the response of rosette area using a recombinant inbred line population. Plant Cell & Environment 33: 1875-1887.
9- Hummel I, et al (2010) Arabidopsis thaliana plants acclimate to water deficit at low cost through changes of C usage; an integrated perspective using growth, metabolite, enzyme and gene expression analysis. Plant Physiol. 154(1):357-372.
8- Aubert et al. (2010) RD20, a Stress-Inducible Caleosin, Participates in Stomatal Control, Transpiration and Drought Tolerance in Arabidopsis thaliana. Plant Cell Physiol 51: 1975-87.
7- Ghandilyan A, Barboza L, Tisné S, Granier C, Reymond M, Koornneef M, Schat H & Aarts MGM. (2009) Genetic analysis identifies quantitative trait loci controlling rosette mineral concentrations in Arabidopsis thaliana under drought. New Phytologist 184: 180-192.
6- Granier C., Tardieu F. (2009) Multi-scale phenotyping of leaf expansion in response to environmental changes: the whole is more than the sum of parts. Plant Cell & Environment 32, 1175-1184.
5- Tisné S., Reymond M., Vile D., Fabre J., Dauzat M., Koornneef M. & Granier C. (2008) Combined genetic and modeling approaches reveal that epidermal cell area and number in leaves are controlled by leaf and plant developmental processes in Arabidopsis. Plant Physiology 148, 1117-1127.
4- Lechner L, Pereyra-Irujo G A, Granier C & Aguirrezabal LAN (2008) Rewatering plants after a long water-deficit treatment reveals that leaf epidermal cells retain their ability to expand after the leaf has apparently reached its final size. Annals of Botany 101: 1007-1015.
3- Cookson SJ, Radziejwoski A, Granier C (2006) Cell and leaf size plasticity in Arabidopsis: what is the role of endoreduplication? Plant, Cell and Environment, 29: 1273-1283
2- Aguirrezabal L, Bouchier-Combaud S, Radziejwoski A, Dauzat M, Cookson SJ & Granier C (2006) Plasticity to soil water deficit in Arabidopsis thaliana: dissection of leaf development into underlying growth dynamic and cellular variables reveals invisible phenotypes. Plant, Cell and Environment 29: 2216-2227.
1- Granier C, Aguirrezabal L, Chenu K, Cookson SJ, Dauzat M, Hamard P, Thioux JJ, Rolland G, Bouchier-Combaud S, Lebaudy A, Muller B, Simonneau T & Tardieu F (2006) 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 Phytologist, 169 (3): 623-635. https://doi.org/10.1111/j.1469-8137.2005.01609.x
