Use este identificador para citar ou linkar para este item: http://repositorio.ufla.br/jspui/handle/1/46828
Título: Spatial agreement among vegetation disturbance maps in tropical domains using landsat time series
Palavras-chave: Change detection
Breaks For Additive Season and Trend (BFAST)
Spectral indices
Remote sensing
Deforestation
Detecção de mudança
Séries temporais
Índices espectrais
Sensoriamento remoto
Desmatamento
Data do documento: Set-2020
Editor: Multidisciplinary Digital Publishing Institute - MDPI
Citação: BUENO, I. T. et al. Spatial agreement among vegetation disturbance maps in tropical domains using landsat time series. Remote Sensing, [S. I.], v. 12, n. 18, Sept. 2020. DOI: 10.3390/rs12182948.
Resumo: Detecting disturbances in native vegetation is a crucial component of many environmental management strategies, and remote sensing-based methods are the most efficient way to collect multi-temporal disturbance data over large areas. Given that there is a large range of datasets for monitoring, analyzing, and detecting disturbances, many methods have been well-studied and successfully implemented. However, factors such as the vegetation type, input data, and change detection method can significantly alter the outcomes of a disturbance-detection study. We evaluated the spatial agreement of disturbance maps provided by the Breaks For Additive Season and Trend (BFAST) algorithm, evaluating seven spectral indices in three distinct vegetation domains in Brazil: Atlantic forest, savanna, and semi-arid woodland, by assessing levels of agreement between the outputs. We computed individual map accuracies based on a reference dataset, then ranked their performance, while also observing their relationships with specific vegetation domains. Our results indicated a low rate of spatial agreement among index-based disturbance maps, which itself was minimally influenced by vegetation domain. Wetness indices produced greater detection accuracies in comparison to greenness-related indices free of saturation. The normalized difference moisture index performed best in the Atlantic forest domains, yet performed poorest in semi-arid woodland, reflecting its specific sensitivity to vegetation and its water content. The normalized difference vegetation index led to high disturbance detection accuracies in the savanna and semi-arid woodland domains. This study offered novel insight into vegetation disturbance maps, their relationship to different ecosystem types, and corresponding accuracies. Distinct input data can produce non-spatially correlated disturbance maps and reflect site-specific sensitivity. Future research should explore algorithm limitations presented in this study, as well as the expansion to other techniques and vegetation domains across the globe.
URI: http://repositorio.ufla.br/jspui/handle/1/46828
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