team-8/hydroshoot/doc/refs.rst

==========
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.