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    Ding Xiangyuan, Chen Erxue, Zhao Lei, Liu Qingwang, Fan Yaxiong, Zhao Junpeng, Xu Kunpeng. Comparison and evaluation of several methods for estimating the average density of total forest volume in forest farm[J]. Journal of Beijing Forestry University, 2023, 45(2): 11-23. DOI: 10.12171/j.1000-1522.20220303
    Citation: Ding Xiangyuan, Chen Erxue, Zhao Lei, Liu Qingwang, Fan Yaxiong, Zhao Junpeng, Xu Kunpeng. Comparison and evaluation of several methods for estimating the average density of total forest volume in forest farm[J]. Journal of Beijing Forestry University, 2023, 45(2): 11-23. DOI: 10.12171/j.1000-1522.20220303

    Comparison and evaluation of several methods for estimating the average density of total forest volume in forest farm

    •   Objective  Taking the overall forest resources of forest farms or counties as the object of investigation, timely and accurately investigating and monitoring of the mean stock volume density(MSVD)will play an important supporting role in the macro management of forest resources, the evaluation of ecological protection value, the measurement of forest carbon reserves, and the performance evaluation of the tenure of leading cadres by the superior departments (such as cities and provinces). It has become an important research direction at home and abroad using remote sensing data, such as satellites and unmanned aerial vehicles, combining with less sampling plot to effectively estimate the overall parameters. At present, there is no comparative validation of several estimation methods for mean stock volume based on multi-source data in domestic. In order to promote the application of remote sensing technology in the forest resource survey, there is an urgent need to compare and evaluate the methods for estimating overall parameters of forest farms or counties.
        Method  The main plantation tree species of Wangyedian Forest Farm in Inner Mongolia of northern China were taken as the research object. Based on the sampling UAV LiDAR (herringbone system distribution), Sentinel-2A data (full coverage) and a small amount of sample plot data obtained in 2019, four patterns of sample plot (p), sample plot-satellite (ps), sample plot-sampling LiDAR (pl), and sample plot-sampling LiDAR-full coverage satellite (pls) were estimated and compared with five methods, including DBp, MDps, MDpls, HYpl and MAps, which were suitable for these four patterns and belong to design-based method (DB), model-assisted method (MA), model-dependent method (MD) and mixed or hybrid method (HY).
        Result  (1)The mean stock volume densities of DBp, MDps, MAps, HYpl, and MDpls were 212.54, 202.09, 202.38, 210.07 and 208.96 m3/ha, respectively. The accuracy (P) was 90.44%, 91.54%, 91.69%, 96.35%, and 96.45%, respectively, with variances decreasing in turn. (2) The relative efficiency (RE) of other methods compared with MDpls was greater than 1 (REDBp,MDpls = 5.39, REMDps,MDpls = 3.82, REMAps,MDpls = 3.69, REHYpl,MDpls = 1.07), and the RE of HYpl compared with MDpls method was greater than 1, but close to 1. Compared with the other three methods, HYpl was more efficient (REDBp,HYpl = 5.02, REMAps,HYpl = 3.43, REMDps,HYpl = 3.56). (3) Both HYpl and MDpls methods containing LiDAR data had positive efficiency compared with MDps and MAps methods containing Sentinel-2A data (REMAps,HYpl = 3.43, REMDps,HYpl = 3.56, REMDps,MDpls = 3.82, REMAps,MDpls = 3.69). The RE of MDps and MAps was close to 1, but the efficiency of MAps was slightly higher than that of MDps (REMDps,MAps = 1.04).
        Conclusion  Compared with the estimation method that only used the sample plot data, when the remote sensing data was used as an auxiliary variable to establish the estimation model, it can effectively improve the estimation accuracy of the MSVD of the forest farm, whether the Sentinel-2A multispectral remote sensing data, which is fully covered the forest farm but not sensitive enough to the stock volume, or the sampling LiDAR data which are sensitive to stock volume. Among four methods involving the application of remote sensing data, MDpls has the highest estimation accuracy, followed by HYpl. Both of these two methods including the application of LiDAR remote sensing sampling observation data are suitable for the MSVD estimation of forest farms. The MDpls method has the highest estimation accuracy and relative efficiency, which can realize the synergistic application of the Space-Air-Earth multi-source observation data, and can be used as the preferred method for annual monitoring of forest stock in forest farms.
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