The Variation Driven by Differences between Species and between Sites in Allometric Biomass Models
Dutcă, Ioan (2019) The Variation Driven by Differences between Species and between Sites in Allometric Biomass Models. Forest Ecology and Management (10). ISSN 1999-4907
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Abstract
Background and Objectives: It is commonly assumed that allometric biomass models are species-specific and site-specific. However, the magnitude of species and site dependency in these models is not well-known. This study aims to investigate the variation in allometric models (i.e., aboveground biomass predicted by diameter at breast height and tree height) that has originated from the differences between tree species and between sites, thereby contributing to a better understanding of species and site-specificity issue in these models. Materials and Methods: The study is based on two large biomass datasets of 4921 and 5199 trees, from Eurasia and Canada. Using a nested ANOVA model on relative aboveground biomass residuals (with species and site as random effects), the proportion of variance explained by species or site was assessed by means of Variance Partition Coefficient (VPC). Results: The proportion of variance explained by species (VPCspecies = 42.56%, SE = 6.10% for Dataset 1 and VPCspecies = 47.54%, SE = 6.07% for Dataset 2) was larger than that explained by site (VPCsite = 20.08%, SE = 3.35% for Dataset 1 and VPCsite = 8.27%, SE = 1.38% for Dataset 2). The proportion of variance explained by site decreased by 24%–44% and the proportion of variance explained by species changed only slightly, when height is included in the allometric biomass models (i.e., models based on diameter at breast height alone, compared to models based on diameter at breast height and tree height). Conclusions: Allometric biomass models were more species-specific than they were site-specific. Therefore, the species (i.e., differences between species) seems to be a more important driver of variability in allometric models compared to site (i.e., differences between sites). Including height in allometric biomass models helped reduce the dependency of these models, on sites only.
Item Type: | Article |
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Keywords: | iomass, allometric model, species, site, location, random effects, transferability, generic allometric model, variance, specificity |
Depositing User: | RED Unit Admin |
Date Deposited: | 12 Nov 2019 11:48 |
Last Modified: | 11 Jul 2022 07:50 |
URI: | https://bnu.repository.guildhe.ac.uk/id/eprint/17901 |
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