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5. Evaluation of nonlinear equations for predicting diameter from tree height

Author

Bi, Huiquan, Fox, Julian C., Li, Yun, Lei, Yuancai, and Pang, Yong

Subjects
Biomathematics -- Research, Trees -- Physiological aspects, Dimensions -- Research, Equations -- Research, Plant physiology -- Research, Earth sciences
Abstract

With the emergence and advancement of airborne laser scanning technology over the past decade, individual tree height can be easily measured over a large area of forests with a comparable degree of accuracy to conventional ground-based methods. In laser scanning based large-scale forest inventories, the need to predict diameter from remotely sensed tree height calls for a systematic evaluation of equation forms as the first step towards a well-developed approach to developing diameter-height equations. This study evaluated more than 30 height-diameter equations in the forest biometrics literature to select candidates for deriving equation forms for diameter-height equations. The evaluation was based on four criteria: (i) the height-diameter function is inversable; (ii) the inverse function is continuous and monotonically increasing over a specified working range of total tree height; (iii) diameter at breast height is equal to zero when tree height equals breast height in the inverse function; and preferably, (iv) the inverse function has an inflection point that is consistent with biological expectations. A total of 12 candidate equation forms were derived, which included five two-parameter and seven three-parameter equations. The estimation properties and predictive performance of these 12 equation forms were further evaluated and compared through repeated sampling and fitting using data from 3581 trees destructively sampled for taper measurements from Pinus radiata D. Don plantations across New South Wales, Australia. Three equation forms, including the constrained Richards, Weibull, and the combined power and exponential function, displayed superior prediction accuracy and estimation properties and so were recommended as the primary equation forms for developing diameter-height equations. The remaining equation forms were marred by either lower prediction accuracy or poorer estimation properties or both. The three recommended equation forms should only serve as basic deterministic specifications upon which other tree and stand variables should be incorporated as predictors to further improve their predictive performance. Resume: Grace a l'emergence et au progres de la technologie de balayage laser aeroporte au cours de la derniere decennie, la hauteur des arbres individuels peut etre facilement mesuree sur une grande superficie de foret avec un degre d'exactitude comparable a celui des methodes classiques au sol. Dans les inventaires forestiers a grande echelle bases sur le balayage laser, la necessite de predire le diametre a partir de la hauteur de l'arbre obtenue par teledetection exige une evaluation systematique des formes d'equation comme premiere etape d'une approche bien structuree pour produire des equations diametre-hauteur. Cette etude a evalue plus de 30 equations hauteur-diametre trouvees dans la litterature sur la biometrie forestiere pour choisir celles qui pouvaient etre utilisees pour deriver les formes d'equation des equations diametre-hauteur. L'evaluation a ete basee sur quatre criteres: (i) la fonction hauteur-diametre est inversable; (ii) la fonction inverse est continue et croissante monotone sur une plage specifiee de la hauteur totale de l'arbre; (iii) le dhp est egal a zero lorsque la hauteur l'arbre est egale a la hauteur de poitrine dans la fonction inverse; et de preference, (iv) la fonction inverse a un point d'inflexion qui est conforme aux attentes biologiques. Au total, 12 formes candidates d'equation ont ete derivees incluant cinq equations a deux parametres et sept equations a trois parametres. En outre, les proprietes d'estimation et la performance predictive de ces 12 formes d'equation ont ete evaluees et comparees par un echantillonnage et un ajustement repetes en utilisant les donnees de 3581 arbres echantillonnes de facon destructive pour mesurer le defilement dans des plantations de Pinus radiata D. Don situees un peu partout dans l'Etat de la Nouvelle-Galles du Sud, en Australie. Trois formes d'equation, incluant la fonction de Richards avec contrainte, la fonction de Weibull et la fonction exponentielle et puissance combinee, avaient une exactitude de prediction et des proprietes d'estimation superieures. Elles ont donc ete recommandees comme formes primaires d'equation pour developper les equations diametre-hauteur. Les formes d'equation restantes etaient entachees soit par une moins grande exactitude de prediction ou de mauvaises proprietes d'estimation ou les deux. Les trois formes d'equation recommandees devraient servir seulement de specifications deterministes de base sur lesquelles d'autres variables d'arbre et de peuplement devraient etre incorporees en tant que predicteurs pour ameliorer encore davantage leur performance predictive. [Traduit par la Redaction], Introduction Diameter at breast height (DBH) and total tree height from ground to tip are the two most common measurements of tree size in forest mensuration. Although DBH can be [...]

Published
2012
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6. Native Forest Management in Papua New Guinea : Advances in Assessment, Modelling and Decision-making

Author

Fox, Julian C., Australian Centre for International Agricultural Research, Papua New Guinea Forest Research Institute, Fox, Julian C., Australian Centre for International Agricultural Research, and Papua New Guinea Forest Research Institute

Subjects
Forests and forestry--New Guinea
Abstract

This report reviews the historical context of forest management and the recent focus on tropical forest-based climate-change mitigation in PNG, and identifies challenges and priorities. Advances in the assessment of timber, carbon stocks and biodiversity, as well as in the quantitative understanding of forests through modelling, are described in order to provide a scientific basis for forest-management decision-making at both the community and the government level.

Published
2011

7. Native forest individual-tree modelling in Papua New Guinea

Author

Fox, Julian C., Vieilledent, Ghislain, and Keenan, Rodney J.

Subjects
Sylviculture, Écologie, F62 - Physiologie végétale - Croissance et développement, forêt tropicale, Mortalité, Espèce, K01 - Foresterie - Considérations générales, forêt primaire, Croissance, U10 - Informatique, mathématiques et statistiques, Modèle de simulation, K10 - Production forestière, Compétition végétale, Rendement des cultures, Modèle mathématique
Abstract

Quantitative study of the permanent sample plot (PSP) database can provide insights into growth, mortality and recruitment processes driving forest dynamics. Modelling the dynamics of forest growth and yield provides opportunities for optimising silvicultural systems and generating accurate growth and yield estimates, which are fundamental to sustainable forest management. This paper will outline model development based on analysis of a large native forest permanent sample plot database in Papua New Guinea. We quantify the competitive influences affecting individual tree growth and mortality, and build predictive models for growth and mortality based on a hierarchical Bayesian modelling methodology. This method allows the parameterisation of a global model with species-specific parameters; therefore, species-level growth and mortality traits are preserved in model predictions, even for rare species. We examine a range of spatial and non-spatial competition indexes for the data, and conclude that a simple non-spatial competition index (basal area of competing trees within 20 metres of the subject) adequately characterises competitive influences on growth and mortality. In future work, species-specific model parameters can be used as the basis of a forest simulation system (see http://twoe.org for developments) to improve the design and intensity of selectiveharvesting regimes at the community and the concession level.

Published
2011

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