Scientific Reports (Nov 2024)

Combining Sentinel-2 and diverse environmental data largely improved aboveground biomass estimation in China’s boreal forests

  • Pan Liu,
  • Chunying Ren,
  • Xiutao Yang,
  • Zongming Wang,
  • Mingming Jia,
  • Chuanpeng Zhao,
  • Wensen Yu,
  • Huixin Ren

DOI
https://doi.org/10.1038/s41598-024-78615-9
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 17

Abstract

Read online

Abstract Accurately mapping aboveground biomass (AGB) in China’s boreal forests is crucial for assessing global carbon stock and formulating forest management strategies but remains challenging as the environmental heterogeneity complicates AGB estimation. Here, we investigated the relative gains of integrating Sentinel-2 and environmental data, as well as synthetic aperture radar (SAR) images to map AGB in China’s boreal forests. We used two machine learning algorithms, random forest and gradient boosting regression (GBR), and four dataset combinations to develop the AGB models, then evaluated the AGB map by carrying on uncertainty analysis and comparing it with existing AGB products. Results showed that the GBR model based on Sentinel-2 and environmental data presented the best AGB estimation capability (R2: 0.75, RMSE: 23.60 Mg/ha), while further adding SAR images had negative effects on the model improvement. The Tasseled Cap Distance, short-wave infrared from Sentinel-2, Black dragon fire disturbance, Elevation, and Geographic locations were found to be significant contributors to AGB prediction. Our AGB estimates exhibited moderate to low uncertainty and outperformed other existing AGB maps in China’s boreal forests based on independent validation assessment. The AGB distribution presented a noticeable south-north gradient difference, ranging from 3.23 to 346.37 Mg/ha. This study provides new insight into AGB estimation through the integration of Sentinel-2 imagery and multiple environmental data and offers a basis for sustainable management in China’s boreal forests.

Keywords