Godin, C., Sinoquet, H., Costes, E., Traas, J., 2006. Des plantes virtuelles pour comprendre les plantes réelles. Dossier Pour la Science, 52 : 76-81.
Fabre JH, 1876. La plante. Leçons à mon fils sur la botanique. Toulouse: Privat (reedité en 2000). 321 pp.
Hallé F (Editor) 1999. Eloge de la plante. Pour une nouvelle biologie. Editions du Seuil, Paris (FRA), Paris.
de Reffye P., Houllier F.1997 Modelling plant growth and architecture: some recent advances and applications to agronomy and forestry Current Science 73: 984-992.
Prusinkiewicz P. 2004. Art and science for life: designing and growing virtual plants with L-systems. Acta Horticulturae: 15-28
Publications récentes de l'UMR AMAP (http://amap.cirad.fr/) sur les approches architecturales, les outils et modèles dynamiques de croissance de plantes et leur utilisation en agronomie.
Barthélémy, D., Caraglio, Y., 2007. Plant Architecture: A Dynamic, Multilevel and Comprehensive Approach to Plant Form, Structure and Ontogeny. Annals of Botany, 99 (3) : 375-407.
Barczi, J.-F., Rey, H., Caraglio, Y., de Reffye, P., Barthélémy, D., Dong, Q., Fourcaud, T., 2008. AMAPsim: an integrative whole-plant architecture simulator based on botanical knowledge. Annals of Botany, 101 (8) : 1125-1138.
Ma, Y. T., Wen, M. P., Guo, Y., Li, B. G., Cournède, P. H., de Reffye, P., 2008. Parameter optimization and field validation of the functional-structural model GREENLAB for Maize at different population densities. Annals of Botany, 101 (8) : 1185-1194.
Rey, H., Dauzat, J., Barczi, J.-F., Dosio, G., Chenu, K., Lecoeur, J., 2008. Using a 3-D virtual Sunflower to simulate light capture at organ, plant and plot levels: contribution of organ interception, impact of heliotropism and analysis of genotypic differences. Annals of Botany, 101 (8) : 1139-1151.
Fourcaud, T., Zhang, X. P., Stokes, A., Lambers, H., Koerner, C., 2008. Plant growth modelling and applications: the increasing importance of plant architecture in growth models. Annals of Botany, 101 (8) : 1053-1063.
Référence proposée par Nicolas Munier-Jolain, dont le travail présenté est inspiré.
Chave, J. 1999. Study of structural, successional and spatial patterns in tropical rain forests using TROLL, a spatially explicit forest model. Ecological Modelling, 124: 233-254.
Publications récentes de l'UMR EGC, INRA de Grignon
Fournier C, Andrieu B. 1998. A 3D architectural and process-based model of maize development. Annals of Botany 81: 233-50
Fournier F, Andrieu B. 1999. ADEL-maize: an L-system based model for the integration of growth processes from the organ to the canopy. Application to regulation of morphogenesis by light availibility. Agronomie 19: 313-27
Fournier C, Andrieu B, Ljutovac S, Saint-Jean S. 2003. ADEL-wheat: a 3D architectural model of wheat development. In Plant Growth Modeling and Applications, ed. B-G Hu, M Jaeger, pp. 54-63. Beijing, CHN Tsinghua University Press - Springer Verlag
Robert C, Fournier C, Andrieu B, Ney B. 2008. Coupling a 3D virtual wheat plant model with a Septoria tritici epidemic model (Septo3D): a new approach to investigate plant-pathogen interactions linked to canopy architecture. Functional Plant Biology 35: 997-1013
Bertheloot J, Andrieu B, Fournier C, Martre P. 2008. A process-based model to simulate nitrogen distribution in wheat (Triticum aestivum) during grain filling. Functional Plant Biology 35: 781-96
Publications récentes de l'UMR Développement et amélioration des plantes (DAP), INRA Montpellier
