Further Reading

Barthélémy D and Caraglio Y (2007) Plant architecture: A dynamic, multilevel and comprehensive approach of plant form, structure and ontogeny. Annals of Botany 99(3): 375-407 (invited paper).

Barthelemy D, Caraglio y, and Costes E (1997) Architecture, gradients morphogeneteques et age physiologique chez les vegetaux. In: Bouchon J, Reffye de P, and Barthelemy D (eds.) Modélisation et Simulation de L'architecture des Vegetaux, pp. 81-136. Paris: INRA (Sciences updat, Editions).

Blaise F, Barczi J, Jaeger M, Dinouard P, and de Reffye P (1998) Simulation of the growth of plants - Modeling of metamorphosis and spatial interactions in the architecture and development of plants. In: Kuni TL and Luciani A (eds.) Cyberworlds, vol. 6, pp. 81-109. Tokyo: Springer.

Bouchon J, de Reffye P, and Barthelemy D (1997) Modélisation et Simulation de l'architecture des Vegetaux, 435pp. Paris: INRA Editeur (Sciences Update).

Cournede PH, Kang MZ, Mathieu A, et al. (2006) Structural factorization of plants to compute their functional and architectural growth. Simulation - Transaction of the Society for Modeling and Simulation International 82(7): 427-438.

Cruziat P (1995) La circulation de l'eau dans les plantes. PHM Revue Horticole, October 1995, no. 363.

de Reffye P, Edelin C, Francon J, Jaeger M, and Puech C (1988) Plant models faithful to botanical structure and development. In: SIGGRAPH'88, Atlanta, USA, 1-15 August 1988. Computer Graphics: SIGGRAPH'88 Conference Proceedings, vol. 22(4), pp. 151-158.

de Reffye P and Houllier F (1997) Modelling plant growth and architecture: Some recent advances and applications to agronomy and forestry. Current Science 73(11): 984-992.

Deussen O and Lintermann B (2005) Digital Design of Nature: Computer Generated Plants and Organics, 225pp. Heidelberg: Springer.

Halle F and Oldemann RAA (1970) Essai Sur l'Architecture et la Dynamique de Croissance des Arbres Tropicaux. Paris: Masson.

Halle F, Oldeman RAA, and Tomlinson PB (1978) Tropical Trees and Forests, 441pp. Heidelberg: Springer.

Heuvelink E (1995) Dry matter partitioning in a tomato plant: One common assimilate pool? Journal of Experimental Botany 46: 1025-1033.

Heuvelink E (1995) Dry matter production in a tomato crop: Measurements and simulation. Annals of Botany 75: 369-379.

Heuvelink E (1996) Tomato Growth and Yield: Quantitative Analysis and Synthesis. PhD Thesis, Wageningen University.

Heuvelink E (1999) Evaluation of a dynamic simulation model for tomato crop growth and development. Annals of Botany 83: 413-422.

Hu BG and Jaeger M (eds.) (2003), Plant Growth Modeling and Applications -Proceedings PMA03, 435pp. Beijing: Tsinghua University Press.

Marcelis LFM, Heuvelink E, and Goudriaan J (1998) Modelling biomass production and yield of horticultural crops: A review. Scientia Horticulturae 74: 83-111.

Nicolini E (1997) Approche morphologique du développement du hetre (Fagus sylvatica L.), 185pp. PhD Thesis, University Montpellier, France.

Prusinkiewicz P and Lindenmayer A (1990) The Algorithmic Beauty of

Plants, 228pp. New York: Springer. Sievanen R, Nikinmaa E, Nygren P, et al. (2000) Components of functional-structural tree models. Annals of Forestry Science 57: 399-412.

Vos J, Marcelis LFM, Visser PHBd, Struik PC, and Evers JB (eds.) (2007), Wageningen UR Frontis Series, Vol. 22: Functional-Structural Plant Modelling in Crop Production, 269pp. Heidelberg: Springer.

Was this article helpful?

0 0
Solar Power

Solar Power

Start Saving On Your Electricity Bills Using The Power of the Sun And Other Natural Resources!

Get My Free Ebook

Post a comment