Abstract
Recent advances in remote sensing technology provide sufficient spatial detail to achieve species-level classification over large vegetative ecosystems. In deciduous-dominated forests, however, as tree species diversity and forest structural diversity increase, the frequency of spectral overlap between species also increases and our ability to classify tree species significantly decreases. This study proposes an operational workflow of individual tree-based species classification for a temperate, mixed deciduous forest using three-seasonal WorldView images, involving three steps of individual tree crown (ITC) delineation, non-forest gap elimination, and object-based classification. The process of species classification started with ITC delineation using the spectral angle segmentation algorithm, followed by object-based random forest classifications. A total of 672 trees was located along three triangular transects for training and validation. For single-season images, the late-spring, mid-summer, and early-fall images achieve the overall accuracies of 0.46, 0.42, and 0.35, respectively. Combining the spectral information of the early-spring, mid-summer, and early-fall images increases the overall accuracy of classification to 0.79. However, further adding the late-fall image to separate deciduous and coniferous trees as an extra step was not successful. Compared to traditional four-band (Blue, Green, Red, Near-Infrared) images, the four additional bands of WorldView images (i.e., Coastal, Yellow, Red Edge, and Near-Infrared2) contribute to the species classification greatly (OA: 0.79 vs. 0.53). This study gains insights into the contribution of the additional spectral bands and multi-seasonal images to distinguishing species with seemingly high degrees of spectral overlap.
Highlights
As forest inventory development evolves from stand-level, polygon-based attribute interpretation and classification towards a more individual tree-based, raster type product, the need for developing automated individual-tree segmentation and classification tools is paramount
We propose an operational workflow of individual tree-based species classification using three-seasonal WorldView images, involving three steps - individual tree crown (ITC) delineation, non-forest gap elimination, and object-based classification
All subsequent ITC maps (Sites 1, 2, and 3) were created using this scale parameter followed by object-based species classification (Figure 8)
Summary
As forest inventory development evolves from stand-level, polygon-based attribute interpretation and classification towards a more individual tree-based, raster type product, the need for developing automated individual-tree segmentation and classification tools is paramount. While other remote sensing products like LiDAR can help with structural attributes (i.e., height, volumes, and densities) of forest inventories, individual tree species remains one of the most important forest attributes for tactical forest management [1,2,3]. Knowing what species are present is important in determining which forest products can be recovered from a given stand. Knowing how those trees are distributed within a stand can inform forest managers about the type of management to employ, which can in turn have significant impacts on profitability [2]. Whether the goal is to manage the forest for economic gain, biodiversity needs, or both, the ability to automatically classify individual tree species in a forest ecosystem is extremely valuable
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