Predicting wood fiber attributes using local-scale metrics from terrestrial LiDAR data: A case study of Newfoundland conifer species

Predicting wood fiber attributes using local-scale metrics from terrestrial LiDAR data: A case study of Newfoundland conifer species

•We develop new structural metrics from terrestrial LiDAR data.•We test the ability of these metrics to estimate wood fiber attributes.•We identify explanatory variables using model selection and multimodel inference.•Models estimate fibre attributes with R2 values up to 74%.•Influential variables w...

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Bibliographic Details
Published in:Forest ecology and management Vol. 347; pp. 116 - 129
Main Authors: Blanchette, Danny, Fournier, Richard A., Luther, Joan E., Côté, Jean-François
Format: Journal Article
Language:English
Published: Elsevier B.V 01-07-2015
Subjects:
Abies balsamea
AIC
Canopies
Competition
Density
Fibers
Forest management
Forestry
Forests
Mathematical models
Modeling
Multimodel inference
Picea mariana
Terrestrial LiDAR
Wood
Wood fiber attributes
Canada, Newfoundland and Labrador, Newfoundland
ANN
bF
ALS
CHM
CM
DBH
RMSE
Wood fiber attributes
PSP
DEM
Modeling
FT
Multimodel inference
bS
WFA
NRCan-CWFC
Forestry
Terrestrial LiDAR
TLS
AIC
DSM
TIFFS
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Summary:•We develop new structural metrics from terrestrial LiDAR data.•We test the ability of these metrics to estimate wood fiber attributes.•We identify explanatory variables using model selection and multimodel inference.•Models estimate fibre attributes with R2 values up to 74%.•Influential variables were species dependent. Knowledge of wood fiber attributes (WFA) is important for evaluating forest resources and optimizing efficiency in the forest industry. To improve our ability to estimate WFA in the forest, we analyzed the relationships between structural metrics derived from terrestrial laser scanner (TLS) data and four key attributes of industrial significance: wood density, fiber length, microfibril angle, and coarseness. We developed a suite of structural metrics that relate to four aspects of the forest: canopy structure, competition, vegetation density, and local topography. We modeled WFA for sites dominated by black spruce (Picea mariana) and balsam fir (Abies balsamea) trees. For black spruce sites, R2 values ranged from 63% to 72%. Structural metrics that relate to competition were the strongest explanatory variables. For balsam fir sites, R2 ranged from 37% to 63% using structural metrics that relate mostly to canopy structure. Our results demonstrate that local structural variables are useful explanatory variables for predicting WFA of the dominant coniferous species in Newfoundland.
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content type line 23
ISSN:0378-1127
1872-7042
DOI:10.1016/j.foreco.2015.03.013