机构地区:[1]西南林业大学林学院,云南昆明650224 [2]西南林业大学地理与生态旅游学院,云南昆明650224
出 处:《南京林业大学学报(自然科学版)》2022年第1期58-68,共11页Journal of Nanjing Forestry University:Natural Sciences Edition
基 金:国家自然科学基金项目(31860240,32160365,42161059);云南省万人计划青年拔尖人才项目(80201444);云南省教育厅科学研究基金(2020Y0393)。
摘 要:【目的】森林地上生物量的准确估测对于实时掌握全球碳储量变化及应对气候变化有着重要的意义。组合多种遥感数据特征优选,分类建模反演森林地上生物量,是提高森林地上生物量精度的有效方法。【方法】以根河市大兴安岭生态观测站寒温带天然林为研究对象,以机载激光雷达(LiDAR)、Landsat8 OLI两种遥感数据源结合55块地面调查数据,采用偏最小二乘算法优化筛选变量,再以线性多元逐步回归和快速迭代特征选择的最近邻算法(KNN-FIFS)构建模型,在两种数据源的不同组合方式下进行森林地上生物量反演。【结果】(1)基于线性多元逐步回归模型下的单一LiDAR数据反演精度决定系数(R^(2))为0.76,均方根误差(RMSE)为21.78 t/hm^(2);单一Landsat8 OLI数据的反演精度R^(2)为0.24,RMSE为39.27 t/hm^(2);LiDAR和Landsat8 OLI联合反演精度R^(2)为0.84,RMSE为18.16 t/hm^(2);(2)基于KNN-FIFS模型下的单一LiDAR数据反演精度R^(2)为0.74,RMSE为23.83 t/hm^(2);单一Landsat8 OLI数据的反演精度R^(2)为0.60,RMSE为29.63 t/hm^(2);LiDAR和Landsat8 OLI联合反演精度R^(2)为0.80,RMSE为21.15 t/hm^(2)。【结论】(1)特征优选支持下的3种组合方式中,LiDAR和Landsat8 OLI两种数据的组合在两种模型中反演精度均最高,其中线性多元逐步回归模型的反演精度最高,说明LiDAR和Landsat8 OLI数据组合,激光雷达与光学数据优势特征互补,协同反演可有效提高森林地上生物量的反演精度;(2)单一数据源反演森林地上生物量精度中,LiDAR数据比Landsat8 OLI数据在两种模型反演精度中均较高,这与LiDAR数据空间分辨高、可获得垂直结构特征参数有关。【Objective】The accurate estimation of forest aboveground biomass is important to determine changes in global carbon reserves and the corresponding climate change in real time.Combining a variety of remote sensing data,feature optimization,and classification modeling is an effective means to improve the accuracy of estimating forest aboveground biomass.【Method】In this study,the research object was defined as the temperate natural forest at the Daxinganling ecological observation station in Genhe City,China.Additionally,fifty-five ground survey data containing airborne light detection and ranging(LiDAR)and Landsat8 operational land imager(OLI)remote sensing imagery were utilized.The partial least squares algorithm was used to optimize the selected variables,and the model was constructed by linear multiple stepwise regression and constructed by the k-nearest neighbor algorithm(KNN-FIFS)for fast iterative feature selection;the forest aboveground biomass was retrieved under different combinations of the two data sources.【Result】The inversion accuracy of the single LiDAR data based on linear multiple stepwise regression model had a R^(2) of 0.76,and a root mean squared error(RMSE)of 21.78 t/hm^(2).The inversion accuracy of the single Landsat8 OLI data had a R^(2) of 0.24,and a RMSE of 39.27 t/hm^(2).The accuracy of LiDAR and Landsat8 OLI combined inversion had a R^(2)of 0.84,and a RMSE of 18.16 t/hm^(2).The inversion accuracy of single LiDAR data based on the KNN-FIFS model had a R^(2) of 0.74,and a RMSE of 23.83 t/hm^(2).The inversion accuracy of the single Landsat8 OLI data had a R^(2) of 0.60,and a RMSE of 29.63 t/hm^(2).The accuracy of the LiDAR and Landsat8 OLI combined inversion had a R^(2) of 0.80,and a RMSE of 21.15 t/hm^(2).【Conclusion】Among the three combination methods supported by feature optimization,the combination of LiDAR and Landsat8 OLI data demonstrated the highest inversion accuracy in both models.Among the models,the inversion accuracy of the linear multiple stepwise regression mode
关 键 词:机载激光雷达(LiDAR) Landsat8 OLI 森林地上生物量 偏最小二乘法 线性多元逐步回归 最近邻算法
分 类 号:S757[农业科学—森林经理学] TP753[农业科学—林学]
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