This reprint discusses advancements in forest research using Earth Observation datasets. Forests, which occupy about one-third of the terrestrial surface of Earth, play an indispensable role in monitoring global climate change and ecosystem dynamics. The health of forests has been affected in recent years by various stress factors, such as forest fragmentation and deforestation, biodiversity loss, climate change, invasive species, drought, and unsustainable management. This reprint focuses on the evaluation of different techniques for the retrieval of different biophysical/biochemical parameters using available Earth Observation data. The following topics have been covered in this reprint: Mangrove forest carbon assessment using EO data
Phenological ,etrics of plant species using NDVI time series data
fPAR for diversity relation
Forest/canopy height retrieval using Pol-InSAR modeling
Dominant species discrimination using LiDAR data
Biophysical parameters estimation of young oil palm using UAV