References¶
- Albasha R, Fournier C, Pradal C, Chelle M, Prieto J, Louarn G, Simonneau T, Lebon E. 2019.
- HydroShoot: a functional-structural plant model for simulating hydraulic structure, gas and energy exchange dynamics of complex plant canopies under water deficit - application to grapevine (Vitisvinifera L.) in silico Plants, diz007, https://doi.org/10.1093/insilicoplants/diz007
- Evers J, Vos J, Yin X, Romero P, van der Putten P, Struik P. 2010.
- Simulation of wheat growth and development based on organ-level photosynthesis and assimilate allocation. Journal of Experimental Botany 61: 2203–2216
- Farquhar G, von Caemmerer S, Berry J. 1980.
- A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149: 78–90.
- Leuning R. 1995.
- A critical appraisal of a combined stomatal-photosynthesis model for C3 plants. Plant, Cell and Environment 18: 339–355.
- Nobel P. 2005.
- Temperature and energy budgets. In Nobel S, eds. Physicochemical and Environmental Plant Physiology. Elsevier Academic Press.
- Prieto J, Louarn G, Perez Peña J, Ojeda H, Simonneau T, Lebon E. 2012.
- A leaf gas exchange model that accounts for intra-canopy variability by considering leaf nitrogen content and local acclimation to radiation in grapevine (Vitis vinifera L.) Plant, Cell and Environment 35: 1313–1328.
- Tyree M, Sperry J. 1989.
- Vulnerability of xylem to cavitation and embolism. Annual review of plant physiology and plant molecular biology 40: 19–38.
- Tyree M, Zimmermann M. 2002.
- Xylem structure and the ascent of sap, Springer Series in Wood Science.
- Yin X, Struik P. 2009.
- C3 and C4 photosynthesis models: An overview from the perspective of crop modelling. NJAS - Wageningen Journal of Life Sciences 57: 27–38.