Please send references you think should be added to this list to: P.Room@ctpm.uq.edu.au
Aikman, D. P. and Benjamin, L R. (1994). A model for plant and crop growth, allowing for competition for light by the use of potential and restricted projected crown zone areas. Annals of Botany 73, 185-194.
Baker, C. J. (1995). The development of a theoretical model for the windthrow of plants. Journal of Theoretical Biology 175, 355-372.
Berntson, G. M. (1996). Fractal geometry, scaling, and the description of plant root architecture. In: Plant Roots: The Hidden Half (Ed. by Waisel, Y., Eshel, A. and Kafkafi, U.), pp. 259-272. Marcel Dekker Inc., New York.
Blaise, F., Barczi, J. F., Jaeger, M., Dinouard, P. and de Reffye, P. (1996). Simulation of the growth of plants - modelling of metamorphosis and spatial interactions in the architecture and development of plants. In: Synthetic Worlds (Ed. by Kunii, T. L. and Luciani, L.), pp. in press. John Wiley & Sons, Chichester.
Boissard, P., Akkal, N., Valery, P., Lewis, P. and Meynard, J. M. (1995). 3D plant characterisation and modelling aimed at the remote control of winter wheat growth. In: Proceedings of the International Colloquium Photosynthesis and Remote Sensing Montpellier 1995 Aug 28-1995 Aug 30, (Ed. by Guyot, G.), pp. ? International Society for Photogrammetry and Remote Sensing, Montpellier.
Bouchon, J. and Houllier, F. (1995). Une brue histoire de la modélisation de la production des peuplements forestiers: place des méthodes architecturales. In: Architectures des Arbres Fruitiers et Forestiers (Ed. by Bouchon, J.), Les colloques, INRA,
Brown, T. N. and Kulasiri, D. (1994). Simulation of Pinus radiata root system structure for ecosystem management applications. Simulation 62, 42-57.
Cannell, M. G. R. and Dewar, R. C. (1994). Carbon allocation in trees: a review of concepts for modelling. Advances in Ecological Research 25, 59-104.
PARCINOPY PARticle traCINg in the canOPY v.0.9Chelle, M.0.9. 1996?
Chiba, N., Ohkawa, S., Muraoka, K. and Miura, M. (1994). Visual simulation of botanical trees based on virtual heliotropism and dormancy break. The Journal of Visualisation and Computer Animation 5, 3-15.
Chiba, N, Ohshida, K., Muraoka, K., Miura, M. and Saito, N. (1994). A growth model having the abilities of growth-regulations for simulating visual nature of botanical trees. Computers and Graphics 18, 469-479.
Chover, M., Quirós, R. and Vivó, R. (1994). Visualización de árboles mediante técnicas de desplazamiento y textura. In: IV Congresso Español de Informática Gráfica CEIG'94 Zaragoza 1996,
Costes, E. and Guédon, Y. (1996). Modelling the annual shoot structure of the apricot tree (cv Lambertin) in terms of axillary flowering and vegetative growth. Acta Horticulturae
Dauzat, J. (1994). Radiative transfer simulation on computer models of Elaeis guineensis. Oléagineux 49, 8-90.
de Reffye, P., Houllier, F., Blaise, F., Barthelemy, D., Dauzat, J. and Auclair, D. (1995). A model simulating above- and below-ground tree architecture with agroforestry applications. Agroforestry Systems 30, 175-197.
Devroye, L. and Kruszewski, P. (1996). The botanical beauty of random binary trees (An extended abstract). In press.
Fleischer, K. W. (1995).A multiple-mechanism developmental model for defining self-organising structures: Dissertation, California Institute of Technology
Fleischer, K. W. and Barr, A. H. (1994). A simulation testbed for the study of multicellular development: The multiple mechanisms of morphogenesis. In: Artificial Life (Ed. by Langton, C. G.), pp. 389-416. Addison-Wesley, Redwood City.
Fournier, C. (1995). Introduction des réponses écophysiologiques à la température dans un modèle de plante á la base de L-systèmes. Msc Thesis, Paris-Grignon, INRA.
Françon, J. and Lienhardt, P. (1994). Basic principles of topology-bsed methods for simulating metamorphoses of natural objects. In: Artificial Life and Virtual Reality (Ed. by Magnenat-Thalmann, N. and Thalmann, D.), John Wiley & Sons, Chichester.
Godin, C., Bellouti, S. and Costes, E. (1996). Restitution virtuelle de plantes réales: un nouvel outil pour l'aide à l'analyse des données botaniques et agronomiques. In: Proceedings of the 5th International Conference on Interface to Real and Virtual Worlds 20- 24 May 1996, Montpellier, in press.
Godin, C., Guedon, Y., Costes, E. and Caraglio, Y. (1996). Measuring and analysing plants with the AMAP software. Proceedings of the CSIRO Symposium on Computational Challenges in the Life Sciences, Melbourne February 1996, in press.
Guzy, M. R. 1995. A morphological-mechanistic plant model formalized in an object-oriented parametric L-system. USDA_ARS Salinity Lab, Riverside - in press.
Hammel, M. (1996).Simulation and animation of plant development using differential L-systems: PhD Thesis, University of Calgary.
Hammel, M. and Prusinkiewicz, P. (1996). Visualisation of developmental processes by extrusion in space-time. In: Proceedings of Graphics Interface '96, in press.
Hanan, J. S. (1995). Virtual plants - integrating architectural and physiological plant models. In: International Congress on Modelling and Simulation Newcastle, Australia 1995, pp. Vol 1, 44-50.
Hanan, J. and Room, P. (1997). Practical aspects of virtual plant research. In: Plants to ecosystems. Advances in Computational Life Sciences Vol. 1 (Ed. by Michalewicz, M.), CSIRO Publishing, Melbourne, 28-44.
Holton, M. (1994). Strands, gravity and botanical tree imagery. Computer Graphics Forum 13, 57-67.
Jacob, C. (1994). Genetic L-system programming. In: Parallel Problem Solving from Nature, Lecture Notes in Computer Science Vol. 866 Springer Verlag, Berlin.
Jacob, C. (1995).MathEvolvica - Simulated Evolution of Natural Development Programs. Erlangen: Universität, Erlangen-Nürenberg, 232 pp. (In German).
Jourdan, C., Rey, H. and Guédon, Y. (1996). Architectural analysis and modelling of the branching process of the young oil palm root system. Plant and Soil, in press.
Kaandorp, J. A. (1994). A formal description of radiate accretive growth. Journal of Theoretical Biology 166, 149-161.
Kaandorp, J. A. (1994). Fractal Modelling Growth and Form in Biology. Springer-Verlag, Berlin.
Kron, P. and Stewart, S. C. (1994). Variabilities in the expression of a rhizome architectural model in a natural population of Iris versicolor (Iridaceae). American Journal of Botany 81, 1128-1138.
Küppers, M. (1994). Canopy gaps: competitive light interception and economic space filling - a matter of whole-plant allocation. In: Exploitation of Environmental Heterogeneity by Plants: Ecophysiological Processes Above and Below Ground (Ed. by Caldwell, M. M. and Pearcy, R. W.), pp. 111-144. Academic Press, San Diego.
Kurth, W. (1994). Morphological models of plant growth: Possibilities and ecological relevance. Ecological Modelling 75, 299-308.
Kurth, W (1996). Stochastic sensitive growth grammars: A basis for morphological models of tree growth. Naturalia Monspeliensia, in press.
Kurth, W. and Lanwert, D. (1995). Biometrical foundations for a dynamical architectural model of spruce (Picea abies (L) Karst). Allgemeine Forst und Jagdzeitung 166, 177-184.
Lynch, J. and Nielsen, K. L. (1996). Simulation of root system architecture. In: Plant Roots: The Hidden Half (Ed. by Waisel, Y., Eshel, A. and Kafkafi, U.), pp. 247-257. Marcel Dekker Inc., New York.
Mëch, R. and Prusinkiewicz, P. (1996). Visual models of plants interacting with their environment. In: SIGGRAPH'96 , in press.
Nicoullaud, B., King, D. and Tardieu, F. (1994). Vertical distribution of maize roots in relation to permanent soil characteristics. Plant and Soil 159, 245-254.
Oborny, B. (1994). Growth rules in clonal plants and environmental predictability - a simulation study. Journal of Ecology 82,
Oborny, B. (1994). Spacer length in clonal plants and the efficiency of resource capture in heterogeneous environments: a Monte Carlo simulation. Folia Geobot. Phytotax. 29, 139-158.
Pankhurst, R. J. (1994). The representation of shape and form by computer. In: Shape and Form in Plants and Fungi (Ed. by Ingram, D. S. and Hudson, A.), pp. 153-168. Academic Press, London.
Pearcy, R. W. and Yang, W. (1996). A three-dimensional crown architecture model for assessment of light capture and carbon gain by understorey plants. Oecologia, in press.
Perttunen, J., Sievänen, R., Nikinmaa, E., Salminen, H., Saarenmaa, H. and Väkeva, J. (1996). LIGNUM: A tree model based on simple structural units. Annals of Botany 76, 87-98.
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Prusinkiewicz, P. W., Remphrey, W. R., Davidson, C. G. and Hammel, M. S. (1994). Modeling the architecture of expanding Fraxinus pennsylvanica shoots using L-systems. Canadian Journal of Botany 72, 701-714.
Prusinkiewicz, P., Hammel, M., Hanan, J. and Mech, R. (1997). Visual models of plant development. In: Handbook of Formal Languages Vol. 3 (Ed. by Rozenberg, G. and Salomaa, A.), Springer-Verlag, Berlin, 535-597.
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Soddell, F., Seviour, R., and Soddel, J. (1994). Using Lindenmayer Systems to Investigate How Filamentous Fungi May Produce Round Colonies. In R. Stocker, H. Jelinek, B. Durnota and T. Bossomaier, editors, Complex Systems: Mechanism of Adaptation, Volume 2, IOS Press, Amsterdam.
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