Operational implementation of a LiDAR inventory in boreal Ontario

An existing Light Detection and Ranging (LiDAR) data set captured on the Romeo Malette Forest near Timmins, Ontario, was used to explore and demonstrate the feasibility of such data to enrich existing strategic forest-level resource inventory data. Despite suboptimal calibration data, stand inventor...

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Bibliographic Details
Published in:Forestry chronicle 2011-08, Vol.87 (4), p.512-528
Main Authors: Woods, Murray, Pitt, Doug, Penner, Margaret, Lim, Kevin, Nesbitt, Dave, Etheridge, Dave, Treitz, Paul
Format: Article
Language:English
Subjects:
aboveground biomass
basal area
data collection
forest management
forests
lidar
planning
prediction
trees
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Summary:An existing Light Detection and Ranging (LiDAR) data set captured on the Romeo Malette Forest near Timmins, Ontario, was used to explore and demonstrate the feasibility of such data to enrich existing strategic forest-level resource inventory data. Despite suboptimal calibration data, stand inventory variables such as top height, average height, basal area, gross total volume, gross merchantable volume, and above-ground biomass were estimated from 136 calibration plots and validated on 138 independent plots, with root mean square errors generally less than 20% of mean values. Stand densities (trees per ha) were estimated with less precision (30%). These relationships were used as regression estimators to predict the suite of variables for each 400 m2 tile on the 630 000-ha forest, with predictions capable of being aggregated in any user-defined manner—for a stand, block, or forest—with appropriate estimates of statistical precision. This pilot study demonstrated that LiDAR data may satisfy growing needs for inventory data to scale operational/tactical, through strategic needs, as well as provide spatial detail for planning and the optimization of forest management activities.
ISSN:0015-7546
1499-9315
DOI:10.5558/tfc2011-050