Abstract
The stem diameter distribution, stem form and quality information must be measured as accurately as possible to optimize cutting. For a detailed measurement of the stands, we developed and demonstrated the use of a multisource single-tree inventory (MS-STI). The two major bottlenecks in the current airborne laser scanning (ALS)-based single-tree-level inventory, tree detection and tree species recognition, are avoided in MS-STI. In addition to airborne 3D data, such as ALS, MS-STI requires an existing tree map with tree species information as the input information. In operational forest management, tree mapping would be carried out after or during the first thinning. It should be highlighted that the tree map is a challenging prerequisite, but that the recent development in mobile 2D and 3D laser scanning indicates that the solution is within reach. In our study, the tested input tree map was produced by terrestrial laser scanning (TLS) and by using a Global Navigation Satellite System. Predictors for tree quality attributes were extracted from ALS data or digital stereo imagery (DSI) and used in the nearest-neighbor estimation approach. Stem distribution was compiled by summing the predicted single-tree measures. The accuracy of the MS-STI was validated using harvester data (timber assortments) and field measures (stem diameter, tree height). RMSEs for tree height, diameter, saw log volume and pulpwood volume varied from 4.2% to 5.3%, from 10.9% to 19.9%, from 28.7% to 43.5% and from 125.1% to 134.3%, respectively. Stand-level saw log recoveries differed from −2.2% to 1.3% from the harvester measurements, as the respective differences in pulpwood recovery were between −3.0% and 10.6%. We conclude that MS-STI improves the predictions of stem-diameter distributions and provides accurate estimates for tree quality variables if an accurate tree map is available.
Highlights
Detailed and up-to-date information is a necessity for implementing sustainable forest resource management practices
In addition to the airborne laser scanning (ALS) data, multisource single-tree inventory (MS-single-tree inventory (STI)) requires an existing tree map with tree species information as the input information. With this information as input, it is possible to avoid the challenging steps of tree detection and tree species recognition
In addition to the ALS or other detailed airborne 3D data, MS-STI requires an existing tree map with tree species information as the input information. With this information as the input, it is possible to avoid the challenging steps of tree detection and tree species recognition
Summary
Detailed and up-to-date information is a necessity for implementing sustainable forest resource management practices. This includes attribute knowledge of forest resources with an exact spatial location. In operational forest inventories aiming for detailed stand or a sub-stand level information, a two-stage procedure using ALS data and field plots, i.e., an area-based approach (ABA, [1]), has become common. While the total timber volume is obtained at high accuracy with ABA, the information about the tree species, size distribution and number of trees has limited reliability (e.g., [4]) This means that stem-quality attributes required by the forest industry, such as species-specific timber assortments, cannot be obtained [3,4,5,6]. Single-tree-level information would be required to solve the abovementioned limitations
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