An alternative approach for detecting and monitoring selectively logged forests in the Amazon.
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Using vegetation reflectance variability for species level classification of hyperspectral data.
Título Using vegetation reflectance variability for species level classification of hyperspectral data. Autor Mark A. Cochrane Ano de publicação 2000 DOI https://doi.org/10.1080/01431160050021303 Cochrane, M. A. (2000). Using vegetation reflectance variability for species level classification of hyperspectral data. International Journal of Remote Sensing, 21(10), 2075–2087. Resumo Raw hyperspectral data that were acquired over Israel in 1989 by the
The forests and forest sector in Brazil.
Lele, U.; Viana, V.; Veríssimo, A.; Stephen, V.; Perkins, K.; Husain, S.A. 2000.
Using vegetation reflectance variability for species level classification of hyperspectral data.
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Fire as a recurrent event in tropical forests of the eastern Amazon: effects on forest structure, biomass, and species composition.
Cochrane, M.A. & Schulze, M. D. 1999.
The economic and social significance of logging operations on the floodplains of the Amazon estuary and prospects for ecological sustainability.
Título The economic and social significance of logging operations on the floodplains of the Amazon estuary and prospects for ecological sustainability. Autores Ana Cristina Barros Christopher Uhl Ano de publicação 1999 Acesso em https://www.jstor.org/stable/43919744 Barros, A. C., & Uhl, C. (1999). The Economic and Social Significance of Logging Operations on the Floodplains of the Amazon
Large-scale impoverishment of Amazonian forest by logging and fire.
Nepstad, D.; Veríssimo, A.; Alencar, A.; Nobre, C.; Lima, E.; Lefebvre, P.; Schlesinger, P.; Potter, C.; Cochrane, M.A.; Brooks, V. 1999.