Mapping the diversity of forest attributes: a design-based approach

Forest attributes such as volume or basal area are concentrated at tree locations and are absent elsewhere. It is, therefore, more meaningful to consider the amount of forest attributes at a prefixed spatial grain, within regular plots of prefixed size centered at the points of the study area. In th...

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Veröffentlicht in:	Canadian journal of forest research 2019-02, Vol.49 (2), p.190-197
Hauptverfasser:	Fattorini, L, Di Biase, R.M, Giuliarelli, D, Marcheselli, M, Pisani, C, Corona, P
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Asymptotic properties Biodiversity cartes de diversité Case studies case study cohérence basée sur la conception du plan d’expérience design-based consistency diversity maps Forest dynamics Forests interpolateur pondéré par l’inverse de la distance inverse distance weighting interpolator Mapping Methods simulation spatiale spatial simulation Vegetation mapping étude de cas
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container_title	Canadian journal of forest research
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creator	Fattorini, L Di Biase, R.M Giuliarelli, D Marcheselli, M Pisani, C Corona, P
description	Forest attributes such as volume or basal area are concentrated at tree locations and are absent elsewhere. It is, therefore, more meaningful to consider the amount of forest attributes at a prefixed spatial grain, within regular plots of prefixed size centered at the points of the study area. In this way, the diversity of attributes within plots also can be considered and quantified by suitable indexes, giving rise to a diversity surface defined on the continuum of points constituting the area. We analyze the estimation of diversity surfaces when a sample of plots is selected by a probabilistic sampling scheme and diversity within nonsampled plots is estimated using an inverse distance weighting interpolator. We discuss the design-based asymptotic properties of the resulting maps when the survey area remains fixed and the number of sampled points increases. Because diversity surfaces share suitable mathematical properties, if the schemes adopted to select sample points ensure an even coverage of the study areas avoiding large portions of non-sampled zones, it can be proven that the estimated maps approach the true maps.
doi_str_mv	10.1139/cjfr-2018-0204
format	Article
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It is, therefore, more meaningful to consider the amount of forest attributes at a prefixed spatial grain, within regular plots of prefixed size centered at the points of the study area. In this way, the diversity of attributes within plots also can be considered and quantified by suitable indexes, giving rise to a diversity surface defined on the continuum of points constituting the area. We analyze the estimation of diversity surfaces when a sample of plots is selected by a probabilistic sampling scheme and diversity within nonsampled plots is estimated using an inverse distance weighting interpolator. We discuss the design-based asymptotic properties of the resulting maps when the survey area remains fixed and the number of sampled points increases. 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subjects	Analysis Asymptotic properties Biodiversity cartes de diversité Case studies case study cohérence basée sur la conception du plan d’expérience design-based consistency diversity maps Forest dynamics Forests interpolateur pondéré par l’inverse de la distance inverse distance weighting interpolator Mapping Methods simulation spatiale spatial simulation Vegetation mapping étude de cas
title	Mapping the diversity of forest attributes: a design-based approach
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