A generic approach to spatial individual-based modelling and simulation of plant communities

Autor/innen

  • Oscar García University of Northern British Columbia, Prince George, BC, Canada

Schlagwörter:

individual-tree, spatially explicit, growth, competition, asymmetry, R, siplab

Abstract

A general framework is proposed for the formulation and simulation of spatially explicit individual-based models of plant communities. A software implementation, siplab, was developed using the R statistical programming language. The scheme is a synthesis that encompasses many approaches from the literature, making possible to compare and combine their different components. Relationships between plant growth and various competition or assimilation indices are discussed, together with the choice of state variables and statistical issues in growth equations. Modelling is extended to deal with environmental heterogeneity, specified as a given resource distribution in the plane. Plants exert competitive pressure over resources at each point, represented by size- and distance-dependent functions that emulate or generalize similar concepts used in existing models. The partitioning of resources where these functions overlap is parametrized in a way that includes the one-sided fully asymmetric allocation of tessellation models, as well as a continuum of symmetric and asymmetric resource sharing alternatives. Finally, the plant resource uptake is integrated over space, with an optional size- and distance-dependent plant response or efficiency weighting. The framework and software permit conducting simulation studies where results are less dependent on any specific model structure.

Autor/innen-Biografie

  • Oscar García, University of Northern British Columbia, Prince George, BC, Canada
    Oscar Garca is a Professor and Endowed Chair in Forest Growth and Yield at the University of Northern British Columbia, Canada. He received a professional forester degree (Ingeniero Forestal) and an M.Sc. in Mathematical Statistics & Operations Research from the University of Chile, and a Ph.D. in Forest Resources from the University of Georgia, USA. Between 1976 and 1992 he worked in New Zealand for the Forest Research Institute, developing forest management planning decision-support systems and being responsible for much of their plantation growth modeling program. Later, he led a Government / Industry cooperative eucalypt modeling project in Chile, and conducted forest planning research in Spain for the Galician Government. He occupied the Chair of Forest Mensuration at the Universidad Austral de Chile, and held Guest Professor positions at the ENGREF in France, KVL in Denmark, and the Universidad Politecnica de Madrid in Spain.

Veröffentlicht

2014-03-30

Ausgabe

Rubrik

Programming and Software Development

Zitationsvorschlag

A generic approach to spatial individual-based modelling and simulation of plant communities. (2014). Mathematical and Computational Forestry & Natural-Resource Sciences (MCFNS), 6(1), 36-47 (12). https://tmp.mcfns.com/index.php/Journal/article/view/6_36

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