Species composition and biomass of tropical trees on farms: A landscape perspective enabled by novel hyperspectral and lidar aerial data
We used high-resolution hyperspectral and lidar airborne data to generate landscape maps of tree species and above ground biomass.
Graves, S.J., Asner, G.P., Martin, R.E., Anderson, C.B., Colgan, M.S., Kalantari, L. and Bohlman, S.A., 2016. Tree species abundance predictions in a tropical agricultural landscape with a supervised classification model and imbalanced data. Remote Sensing, 8(2), p.161.
Graves, S.J., Caughlin, T.T., Asner, G.P. and Bohlman, S.A., 2018. A tree-based approach to biomass estimation from remote sensing data in a tropical agricultural landscape. Remote Sensing of Environment, 218, pp.32-43.
Graves, S.J., Asner, G.P., Martin, R.E., Anderson, C.B., Colgan, M.S., Kalantari, L. and Bohlman, S.A., 2016. Tree species abundance predictions in a tropical agricultural landscape with a supervised classification model and imbalanced data. Remote Sensing, 8(2), p.161.
Graves, S.J., Caughlin, T.T., Asner, G.P. and Bohlman, S.A., 2018. A tree-based approach to biomass estimation from remote sensing data in a tropical agricultural landscape. Remote Sensing of Environment, 218, pp.32-43.