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Metsätieteen aikakauskirja Dissertationes Forestales Suo - Mires and Peat
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Full text of this article is only available in PDF format.

Gaby Deckmyn (email), Bostjan Mali, Hojka Kraigher, Niko Torelli, Maarten Op de Beeck, Reinhart Ceulemans

Using the process-based stand model ANAFORE including Bayesian optimisation to predict wood quality and quantity and their uncertainty in Slovenian beech

Deckmyn G., Mali B., Kraigher H., Torelli N., Op de Beeck M., Ceulemans R. (2009). Using the process-based stand model ANAFORE including Bayesian optimisation to predict wood quality and quantity and their uncertainty in Slovenian beech. Silva Fennica vol. 43 no. 3 article id 204. https://doi.org/10.14214/sf.204

Abstract

The purpose of this study was to expand an existing semi-mechanistic forest model, ANAFORE (ANAlysing Forest Ecosystems), to allow for the prediction of log quality and the accompanying uncertainty as influenced by climate and management. The forest stand is described as consisting of trees of different cohorts, either of the same or of different species (deciduous or coniferous). In addition to photosynthesis, transpiration, total growth and yield, the model simulates the daily evolution in vessel biomass and radius, parenchyma and branch development. From these data early and latewood biomass, wood tissue composition, knot formation and density are calculated. The new version presented here, includes the description of log quality, including red heart formation of beeches. A Bayesian optimisation routine for the species parameters was added to the stand model. From a given range of input parameters (prior), the model calculates an optimised range for the parameters (posterior) based on given output data, as well as an uncertainty on the predicted values. A case study was performed for Slovenian beech forests to illustrate the main model functioning and more in particular the simulation of the wood quality. The results indicate that the ANAFORE model is a useful tool for analyzing wood quality development and forest ecosystem functioning in response to management, climate and stand characteristics. However, the Bayesian optimization showed that the remaining uncertainty on the input parameters for the chosen stand was very large, due to the large number of input parameters in comparison to the limited stand data.

Keywords
forest management; wood quality; Bayesian calibration; beech; forest model; mechanistic; red heart

Author Info
  • Deckmyn, Research Group Plant and Vegetation Ecology, University of Antwerpen, Universiteitsplein 1, 2610 Antwerpen, Belgium E-mail gaby.deckmyn@ua.ac.be (email)
  • Mali, Slovenian Forestry Institute, Vecna pot 2, 1000 Ljubljana, Slovenia E-mail bm@nn.si
  • Kraigher, Slovenian Forestry Institute, Vecna pot 2, 1000 Ljubljana, Slovenia E-mail hk@nn.si
  • Torelli, Slovenian Forestry Institute, Vecna pot 2, 1000 Ljubljana, Slovenia E-mail nt@nn.si
  • Op de Beeck, Research Group Plant and Vegetation Ecology, University of Antwerpen, Universiteitsplein 1, 2610 Antwerpen, Belgium E-mail modb@nn.be
  • Ceulemans, Research Group Plant and Vegetation Ecology, University of Antwerpen, Universiteitsplein 1, 2610 Antwerpen, Belgium E-mail rc@nn.be

Received 23 June 2008 Accepted 24 June 2009 Published 31 December 2009

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Available at https://doi.org/10.14214/sf.204 | Download PDF

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