The Multi-scale Marked Area-interaction Point Process: A Model for the Spatial Pattern of Trees |
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Authors: | NICOLAS PICARD,AVNER BAR-HEN,FRÉ DÉ RIC MORTIER, JOË L CHAD UF |
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Affiliation: | Department of Environments and Societies, CIRAD; MAP5, University of RenéDescartes–Paris 5; Department of Biological Systems, CIRAD; Department of Applied Mathematics and Informatics, INRA |
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Abstract: | Abstract. The spatial pattern of trees in forests often combines different types of structure (regularity, clustering or randomness) at different scales. Taking species or size into account leads to marked patterns. The question addressed is to model such multi-scale marked patterns using a single process. Within the category of Markov processes, the area-interaction process has the advantage of being locally stable, whether it is attractive or repulsive. This process was originally defined as a one-scale non-marked process. We propose an extension as a multi-scale marked process. Three examples are presented to show the adequacy of this process to model tree patterns: 1. A pine pattern showing anisotropic regularity and clustering at different scales. 2. A bivariate (adult/juvenile) kimboto pattern in French Guiana, showing regularity for one type, clustering for the other and repulsion between the two. 3. A marked pattern in Gabon where the mark is tree diameter. |
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Keywords: | area-interaction process forest inclusion–exclusion formula marked point process Markov point process Metropolis algorithm multivariate point process |
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