Use este identificador para citar ou linkar para este item: http://repositorio.ufla.br/jspui/handle/1/40068
Título: Spatial and spectral remote sensing features to detect deforestation in brazilian savannas
Palavras-chave: Geoestatistics
Semivariogram
Landsat
Normalized difference vegetation index (NDVI)
Change detection
Data do documento: 2019
Editor: Universidade Federal do Mato Grosso
Citação: PEREIRA, E. et al. Spatial and spectral remote sensing features to detect deforestation in brazilian savannas. Advances in Forestry Science, Cuiabá, v. 6, n. 4, p. 775-782, 2019.
Resumo: The Brazilian Savannas have been under increasing anthropic pressure for many years, and land-use/land-cover changes (LULCC) have been largely neglected. Remote sensing provides useful tools to detect changes, but previous studies have not attempted to separate the effects of phenology from deforestation, clearing or fires to improve the accuracy of change detection without a dense time series. The scientific questions addressed in this study were: how well can we differentiate seasonal changes from deforestation processes combining the spatial and spectral information of bi-temporal (normalized difference vegetation index) NDVI images? Which feature best contribute to increase the separability on classification assessment? We applied an object-based remote sensing method that is able to separate seasonal changes due to phenology effects from LULCC by combining spectral and the spatial context using traditional spectral features and semivariogram indices, exploring the full capability of NDVI image difference to train random forest (RF) algorithm. We found that the spatial variability of NDVI values is not affect by vegetation seasonality and, therefore, the combination of spectral features and semivariogram indices provided high global accuracy (97.73%) to separate seasonal changes and deforestation or fires. From the total of 13 features, 6 provided the best combination to increase the separability on classification assessment (4 spatial and 2 spectral features). How to accurately extract LULCC while disregarding the ones caused by phenological differences in Brazilian seasonal biomes undergoing rapid land-cover changes can be achieved by adding semivariogram indices in combination with spectral features as input data to train RF algorithm.
URI: http://repositorio.ufla.br/jspui/handle/1/40068
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