|Future scenarios for plant phenotyping|
F Fiorani, U Schurr
Annual review of plant biology 64, 267-291, 2013
|Nitric oxide represses the Arabidopsis floral transition|
Y He, RH Tang, Y Hao, RD Stevens, CW Cook, SM Ahn, L Jing, Z Yang, ...
Science 305 (5692), 1968-1971, 2004
|Cell cycle: the key to plant growth control?|
GTS Beemster, F Fiorani, D Inzé
Trends in plant science 8 (4), 154-158, 2003
|Characterization of transformed Arabidopsis with altered alternative oxidase levels and analysis of effects on reactive oxygen species in tissue|
AL Umbach, F Fiorani, JN Siedow
Plant physiology 139 (4), 1806-1820, 2005
|The alternative oxidase of plant mitochondria is involved in the acclimation of shoot growth at low temperature. A study of Arabidopsis AOX1a transgenic plants|
F Fiorani, AL Umbach, JN Siedow
Plant physiology 139 (4), 1795-1805, 2005
|GROWSCREEN-Rhizo is a novel phenotyping robot enabling simultaneous measurements of root and shoot growth for plants grown in soil-filled rhizotrons|
KA Nagel, A Putz, F Gilmer, K Heinz, A Fischbach, J Pfeifer, M Faget, ...
Functional Plant Biology 39 (11), 891-904, 2012
|Cold nights impair leaf growth and cell cycle progression in maize through transcriptional changes of cell cycle genes|
B Rymen, F Fiorani, F Kartal, K Vandepoele, D Inzé, GTS Beemster
Plant physiology 143 (3), 1429-1438, 2007
|The art of growing plants for experimental purposes: a practical guide for the plant biologist|
H Poorter, F Fiorani, M Stitt, U Schurr, A Finck, Y Gibon, B Usadel, ...
Functional Plant Biology 39 (11), 821-838, 2012
|Pampered inside, pestered outside? Differences and similarities between plants growing in controlled conditions and in the field|
H Poorter, F Fiorani, R Pieruschka, T Wojciechowski, WH van der Putten, ...
New Phytologist 212 (4), 838-855, 2016
|Probing the reproducibility of leaf growth and molecular phenotypes: a comparison of three Arabidopsis accessions cultivated in ten laboratories|
C Massonnet, D Vile, J Fabre, MA Hannah, C Caldana, J Lisec, ...
Plant physiology 152 (4), 2142-2157, 2010
|A method to construct dose–response curves for a wide range of environmental factors and plant traits by means of a meta-analysis of phenotypic data|
H Poorter, Ü Niinemets, A Walter, F Fiorani, U Schurr
Journal of Experimental Botany 61 (8), 2043-2055, 2010
|Imaging plants dynamics in heterogenic environments|
F Fiorani, U Rascher, S Jahnke, U Schurr
Current Opinion in Biotechnology, 2012
|Non-invasive approaches for phenotyping of enhanced performance traits in bean|
U Rascher, S Blossfeld, F Fiorani, S Jahnke, M Jansen, AJ Kuhn, ...
Functional Plant Biology 38 (12), 968-983, 2011
|Towards recommendations for metadata and data handling in plant phenotyping|
P Krajewski, D Chen, H Ćwiek, ADJ van Dijk, F Fiorani, P Kersey, ...
Journal of Experimental Botany 66 (18), 5417-5427, 2015
|Can meristematic activity determine variation in leaf size and elongation rate among four Poa species? A kinematic study|
F Fiorani, GTS Beemster, L Bultynck, H Lambers
Plant physiology 124 (2), 845-856, 2000
|Measures for interoperability of phenotypic data: minimum information requirements and formatting|
H Ćwiek-Kupczyńska, T Altmann, D Arend, E Arnaud, D Chen, G Cornut, ...
Plant Methods 12 (1), 44, 2016
|Quantitative analyses of cell division in plants|
F Fiorani, GTS Beemster
Plant molecular biology 60 (6), 963-979, 2006
|Regulation of alternative oxidase activity in six wild monocotyledonous species. An in vivo study at the whole root level|
FF Millenaar, MA Gonzalez-Meler, F Fiorani, R Welschen, M Ribas-Carbo, ...
Plant Physiology 126 (1), 376-387, 2001
|Pore size regulates operating stomatal conductance, while stomatal densities drive the partitioning of conductance between leaf sides|
D Fanourakis, H Giday, R Milla, R Pieruschka, KH Kjaer, M Bolger, ...
Annals of botany 115 (4), 555-565, 2015
|Screening for drought tolerance of maize hybrids by multi-scale analysis of root and shoot traits at the seedling stage|
V Avramova, KA Nagel, H AbdElgawad, D Bustos, M DuPlessis, F Fiorani, ...
Journal of Experimental Botany 67 (8), 2453-2466, 2016