Abstract
ABSTRACT Pinus palustris Mill. ecosystem is considered one of the most threatened of North America. In this context, studies on biomass quantification are fundamental for forest management plans. Thus, the objective of this study was to develop a set of allometric equations to predict total P. palustris stump-biomass. Biomass data were collected at different locations in the southeastern United States. A total of 119 allometric equations were fitted from the combination of explanatory variables: diameter at breast height (DBH), height (H), age (I), basal area (G), number of trees per hectare (N), site index (S) and quadratic diameter (Dq). One of the models that presented the lowest residual standard error (Sy.x) and root mean square error (RMSE) was ln(W) = -0.9978+0.7082.(H)+0.1009.ln(H.DBH)-0.5310.(N)-0.0003.ln(Dq). Therefore, the insertion of dendrometric variables characteristic of forest stands has great efficacy in biomass prediction for trees from different sites.
Highlights
Longleaf pine (Pinus palustris Mill.) ecosystem is considered one of the most threatened in North America
The objective of this study was to develop a set of allometric equations to predict total P. palustris stump-biomass
A total of 119 allometric equations were fitted from the combination of explanatory variables: diameter at breast height (DBH), height (H), age (I), basal area (G), number of trees per hectare (N), site index (S) and quadratic diameter (Dq)
Summary
Longleaf pine (Pinus palustris Mill.) ecosystem is considered one of the most threatened in North America. According to Gonzalez-Benecke et al (2014b), biomass models are usually based on the stem diameter with bark at breast height (DBH), or DBH and total tree height (H) as independent variables. Such models are restricted to specific stands and geographic locations. The objective was to develop a set of allometric equations to predict Pinus palustris above-stump biomass These models can be applied to longleaf pine trees from a wide variety of ages and stands
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