Abstract
In this study, the potential of multispectral airborne laser scanner (ALS) data to model and predict some forest characteristics was explored. Four complementary characteristics were considered, namely, aboveground biomass per hectare, Gini coefficient of the diameters at breast height, Shannon diversity index of the tree species, and the number of trees per hectare. Multispectral ALS data were acquired with an Optech Titan sensor, which consists of three scanners, called channels, working in three wavelengths (532 nm, 1064 nm, and 1550 nm). Standard ALS data acquired with a Leica ALS70 system were used as a reference. The study area is located in Southern Norway, in a forest composed of Scots pine, Norway spruce, and broadleaf species. ALS metrics were extracted for each plot from both elevation and intensity values of the ALS points acquired with both sensors, and for all three channels of the ALS multispectral sensor. Regression models were constructed using different combinations of metrics. The results showed that all four characteristics can be accurately predicted with both sensors (the best R2 being greater than 0.8), but the models based on the multispectral ALS data provide more accurate results. There were differences regarding the contribution of the three channels of the multispectral ALS. The models based on the data of the 532 nm channel seemed to be the least accurate.
Highlights
Airborne laser scanner (ALS) data are recognized as the best remote sensing data to model forest structural characteristics [1,2]
We focused on four characteristics, namely aboveground biomass (AGB) per hectare, the Gini coefficient of the diameter at breast height, the Shannon diversity index of the tree species, and the number of trees per hectare
The largest correlation for Shannon diversity index (SDI) is with the mean intensity value of channel 1 (1550 nm; R2 = 0.31), while for number of trees per hectare (Nha) the largest correlation was observed for the mean intensity value of channel 2 (1064 nm; R2 = 0.39)
Summary
Airborne laser scanner (ALS) data are recognized as the best remote sensing data to model forest structural characteristics [1,2]. In forestry, the main use is for the prediction of forest volume or other forest characteristics [6], while in the ecology community many studies are related to animal habitat assessment [7,8,9]. ALS data are widely used for the prediction of species diversity indices, like the Shannon and Simpson species diversity indices [10]. Considerable effort has been devoted to develop multi/hyperspectral ALS sensors [12,13,14,15].
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