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Unsupervised algorithms to detect single trees in a mixed-species and multilayered Mediterranean forest using LiDAR data

2021; NRC Research Press; Volume: 51; Issue: 12 Linguagem: Inglês

10.1139/cjfr-2020-0510

1208-6037

Cesar Alvites, Giovanni Santopuoli, Mauro Maesano, Gherardo Chirici, Federico Valerio Moresi, Roberto Tognetti, Marco Marchetti, Bruno Lasserre,

Forest Ecology and Biodiversity Studies

Accurate measurement of forest growing stock is a prerequisite for implementing climate-smart forestry strategies. This study deals with the use of airborne laser scanning data to assess carbon stock at the tree level. It aims to demonstrate that the combined use of two unsupervised techniques will improve the accuracy of estimation supporting sustainable forest management. Based on the heterogeneity of tree height and point cloud density, we classified 31 forest stands into four complexity categories. The point cloud of each stand was further divided into three horizontal layers, improving the accuracy of tree detection at tree level for which we calculated volume and carbon stock. The average accuracy of tree detection was 0.48. The accuracy was higher for forest stands with lower tree density and higher frequency of large trees, as well as a dense point cloud (0.65). The prediction of carbon stock was higher with a bias ranging from –0.3% to 1.5% and a root mean square error ranging from 0.14% to 1.48%.