An Advanced Framework for Multi-Scale Forest Structural Parameter Estimations Based on UAS-LiDAR and Sentinel-2 Satellite Imagery in Forest Plantations of Northern China

Wu, Xiangqian; Shen, Xin; Zhang, Zhengnan; Cao, Fuliang; She, Guanghui; Cao, Lin

doi:10.3390/rs14133023

Cited by 6 publications

(2 citation statements)

References 94 publications

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“…In addition, previous studies have used point cloud density, intensity, and density characteristics captured by LiDAR data to invert forest biomass (Campbell et al, 2021;Qin et al, 2022). LiDAR point cloud intensity and elevation data can describe terrain features and canopy characteristics in forested areas (Wu et al, 2022;L. Gao et al, 2022), revealing the correlations between point cloud features and underlying soil conditions.…”

Section: Discussionmentioning

confidence: 99%

Mapping soil properties in tropical rainforest area using UAV-based hyperspectral images and LiDAR points

Chen,

Shi,

et al. 2024

Preprint

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Aims This study aimed to integrate UAV-based hyperspectral images and LiDAR points to indirectly estimate the soil nutrient properties in tropical rainforest areas. Methods A total of 175 features, including vegetation indices, texture characteristics, and forest parameters, were extracted from the study area. Five machine learning models, Partial Least Squares Regression (PLSR), Random Forest (RF), AdaBoost, Gradient Boosting Decision Trees (GBDT), and Extreme Gradient Boosting (XGBoost), were constructed to predict soil nutrients. Furthermore, Bayesian optimization algorithm (BOA) was introduced to obtain more optimal model hyperparameters. Results The results showed that BOA can better explain the complex interactions between features and hyperparameters, leading to an average improvement of model performance by 89.38% compared to default parameter models. The GBDT model optimized by BOA outperformed other models in predicting soil pH and TN, with improvements of 512.50% and 36.36%, respectively. The XGBoost model with optimized parameters performed well in predicting SOC and TP (with gains of 206.67% and 95% improvements, respectively). In addition, point cloud features derived from LiDAR data outperformed vegetation indices in predicting soil nutrient properties, enhancing inversion accuracy by effectively characterizing vegetation growth conditions and terrain changes. Conclusions This study indicated that combining the advantages of UAV-based hyperspectral images and LiDAR points will advance the methodology for digitally mapping soil nutrient properties in forested areas, achieving large-scale soil nutrient management and monitoring.

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Section: Discussionmentioning

confidence: 99%

Mapping soil properties in tropical rainforest area using UAV-based hyperspectral images and LiDAR points

Chen,

Shi,

et al. 2024

Preprint

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“…This encompasses using advanced forest management technologies, enhancing the efficient utilization of resources, and optimizing the value chains within the forestry sector. China aims to optimize the productivity of its forest resources and mitigate environmental consequences by leveraging technical progress, mechanization, and scientific investigation [30].…”

Section: Introductionmentioning

confidence: 99%

The Impact of Climate Change on China’s Forestry Efficiency and Total Factor Productivity Change

Shah,

Hao,

Yan

et al. 2023

Forests

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The objective of this study is to examine the impact of climate change on forestry efficiency (FRE) and total factor productivity change (TFPC) in 31 provinces of China for a study period of 2001–2020. Additionally, the study aims to evaluate the success level of governmental initiatives used to mitigate climate change. Using the DEA-SBM, this study estimates the forestry efficiency for 31 Chinese provinces and seven regions. Results indicate that the average forestry efficiency score obtained is 0.7155. After considering climatic factors, the efficiency level is 0.5412. East China demonstrates the highest average efficiency with a value of 0.9247, while the lowest score of 0.2473 is observed in Northwest China. Heilongjiang, Anhui, Yunnan, and Tibet exhibit the highest efficiency scores. Mongolia, Heilongjiang, Sichuan, Hebei, and Hunan are the five provinces most affected by climate change. This study’s findings indicate that the average total factor forestry productivity (TFPC) is 1.0480, representing an increase of 4.80%. The primary determinant for change is technology change (TC), which surpasses efficiency change (EC). Including climate variables reduces total factor productivity change (TFPC) to 1.0205, mainly driven by a decrease in TC. The region of South China exhibits the highest total factor productivity change (TFPC) with a value of 1.087, whereas both Northeast China and Central China observe falls below 1 in TFPC. The Mann–Whitney U test provides evidence of statistically significant disparities in forestry efficiency and TFPC scores when estimated with and without incorporating climate factors. Kruskal–Wallis found a statistically significant difference in FRE and TFPC among seven regions.

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Improving the accuracy of canopy height mapping in rubber plantations based on stand age, multi-source satellite images, and random forest algorithm

Gao,

Yun,

Chen

et al. 2024

International Journal of Applied Earth Observation and Geoinfor

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An Advanced Framework for Multi-Scale Forest Structural Parameter Estimations Based on UAS-LiDAR and Sentinel-2 Satellite Imagery in Forest Plantations of Northern China

Cited by 6 publications

References 94 publications

Mapping soil properties in tropical rainforest area using UAV-based hyperspectral images and LiDAR points

Mapping soil properties in tropical rainforest area using UAV-based hyperspectral images and LiDAR points

The Impact of Climate Change on China’s Forestry Efficiency and Total Factor Productivity Change

Improving the accuracy of canopy height mapping in rubber plantations based on stand age, multi-source satellite images, and random forest algorithm

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