Stochastic modelling of tree architecture and biomass allocation: application to teak (Tectona grandis L. f.), a tree species with polycyclic growth and leaf neoformation | Zendy

Kodjo Tondjo | Zendy; Loïc Brancheriau | Zendy; Sylvie Sabatier | Zendy; Adzo Dzifa Kokutsè | Zendy; Kouami Kokou | Zendy; Marc Jaeger | Zendy; Philippe de Reffye | Zendy; Thierry Fourcaud | Zendy

Open Access

Stochastic modelling of tree architecture and biomass allocation: application to teak (Tectona grandis L. f.), a tree species with polycyclic growth and leaf neoformation

Author(s) -

Kodjo Tondjo,

Loïc Brancheriau,

Sylvie Sabatier,

Adzo Dzifa Kokutsè,

Kouami Kokou,

Marc Jaeger,

Philippe de Reffye,

Thierry Fourcaud

Publication year - 2018

Publication title -

annals of botany

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.567

H-Index - 176

eISSN - 1095-8290

pISSN - 0305-7364

DOI - 10.1093/aob/mcy040

Subject(s) - tectona , biology , biomass partitioning , biomass (ecology) , tree (set theory) , ecology , mathematics , botany , mathematical analysis

For a given genotype, the observed variability of tree forms results from the stochasticity of meristem functioning and from changing and heterogeneous environmental factors affecting biomass formation and allocation. In response to climate change, trees adapt their architecture by adjusting growth processes such as pre- and neoformation, as well as polycyclic growth. This is the case for the teak tree. The aim of this work was to adapt the plant model, GreenLab, in order to take into consideration both these processes using existing data on this tree species.

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