Burned area detection based on Landsat time series in savannas of southern Burkina Faso

•Mapping burned area using Landsat time series was studied.•Harmonic model and breakpoint identification were used by the algorithm.•Landsat burned area had a higher accuracy than MODIS burned area product.•Small burn scars detected by Landsat were omitted by MODIS burned area product.•The algorithm...

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Published inInternational journal of applied earth observation and geoinformation Vol. 64; pp. 210 - 220
Main Authors Liu, Jinxiu, Heiskanen, Janne, Maeda, Eduardo Eiji, Pellikka, Petri K.E.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.02.2018
Subjects
algorithms
biodiversity
Breakpoint identification
Burkina Faso
Burned area
carbon
climate models
cropland
decision making
Harmonic model
land management
Landsat
Landsat time series
landscapes
moderate resolution imaging spectroradiometer
MODIS
monitoring
remote sensing
savannas
time series analysis
vegetation structure
wildfires
Burkina Faso
Landsat time series
Breakpoint identification
Burned area
Harmonic model
MODIS
Online AccessGet full text
ISSN1569-8432
1872-826X
DOI10.1016/j.jag.2017.09.011

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Abstract •Mapping burned area using Landsat time series was studied.•Harmonic model and breakpoint identification were used by the algorithm.•Landsat burned area had a higher accuracy than MODIS burned area product.•Small burn scars detected by Landsat were omitted by MODIS burned area product.•The algorithm is robust against clouds and missing lines. West African savannas are subject to regular fires, which have impacts on vegetation structure, biodiversity and carbon balance. An efficient and accurate mapping of burned area associated with seasonal fires can greatly benefit decision making in land management. Since coarse resolution burned area products cannot meet the accuracy needed for fire management and climate modelling at local scales, the medium resolution Landsat data is a promising alternative for local scale studies. In this study, we developed an algorithm for continuous monitoring of annual burned areas using Landsat time series. The algorithm is based on burned pixel detection using harmonic model fitting with Landsat time series and breakpoint identification in the time series data. This approach was tested in a savanna area in southern Burkina Faso using 281 images acquired between October 2000 and April 2016. An overall accuracy of 79.2% was obtained with balanced omission and commission errors. This represents a significant improvement in comparison with MODIS burned area product (67.6%), which had more omission errors than commission errors, indicating underestimation of the total burned area. By observing the spatial distribution of burned areas, we found that the Landsat based method misclassified cropland and cloud shadows as burned areas due to the similar spectral response, and MODIS burned area product omitted small and fragmented burned areas. The proposed algorithm is flexible and robust against decreased data availability caused by clouds and Landsat 7 missing lines, therefore having a high potential for being applied in other landscapes in future studies.
AbstractList •Mapping burned area using Landsat time series was studied.•Harmonic model and breakpoint identification were used by the algorithm.•Landsat burned area had a higher accuracy than MODIS burned area product.•Small burn scars detected by Landsat were omitted by MODIS burned area product.•The algorithm is robust against clouds and missing lines. West African savannas are subject to regular fires, which have impacts on vegetation structure, biodiversity and carbon balance. An efficient and accurate mapping of burned area associated with seasonal fires can greatly benefit decision making in land management. Since coarse resolution burned area products cannot meet the accuracy needed for fire management and climate modelling at local scales, the medium resolution Landsat data is a promising alternative for local scale studies. In this study, we developed an algorithm for continuous monitoring of annual burned areas using Landsat time series. The algorithm is based on burned pixel detection using harmonic model fitting with Landsat time series and breakpoint identification in the time series data. This approach was tested in a savanna area in southern Burkina Faso using 281 images acquired between October 2000 and April 2016. An overall accuracy of 79.2% was obtained with balanced omission and commission errors. This represents a significant improvement in comparison with MODIS burned area product (67.6%), which had more omission errors than commission errors, indicating underestimation of the total burned area. By observing the spatial distribution of burned areas, we found that the Landsat based method misclassified cropland and cloud shadows as burned areas due to the similar spectral response, and MODIS burned area product omitted small and fragmented burned areas. The proposed algorithm is flexible and robust against decreased data availability caused by clouds and Landsat 7 missing lines, therefore having a high potential for being applied in other landscapes in future studies.
West African savannas are subject to regular fires, which have impacts on vegetation structure, biodiversity and carbon balance. An efficient and accurate mapping of burned area associated with seasonal fires can greatly benefit decision making in land management. Since coarse resolution burned area products cannot meet the accuracy needed for fire management and climate modelling at local scales, the medium resolution Landsat data is a promising alternative for local scale studies. In this study, we developed an algorithm for continuous monitoring of annual burned areas using Landsat time series. The algorithm is based on burned pixel detection using harmonic model fitting with Landsat time series and breakpoint identification in the time series data. This approach was tested in a savanna area in southern Burkina Faso using 281 images acquired between October 2000 and April 2016. An overall accuracy of 79.2% was obtained with balanced omission and commission errors. This represents a significant improvement in comparison with MODIS burned area product (67.6%), which had more omission errors than commission errors, indicating underestimation of the total burned area. By observing the spatial distribution of burned areas, we found that the Landsat based method misclassified cropland and cloud shadows as burned areas due to the similar spectral response, and MODIS burned area product omitted small and fragmented burned areas. The proposed algorithm is flexible and robust against decreased data availability caused by clouds and Landsat 7 missing lines, therefore having a high potential for being applied in other landscapes in future studies.
Author Heiskanen, Janne
Liu, Jinxiu
Maeda, Eduardo Eiji
Pellikka, Petri K.E.
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Snippet •Mapping burned area using Landsat time series was studied.•Harmonic model and breakpoint identification were used by the algorithm.•Landsat burned area had a...
West African savannas are subject to regular fires, which have impacts on vegetation structure, biodiversity and carbon balance. An efficient and accurate...
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StartPage 210
SubjectTerms algorithms
biodiversity
Breakpoint identification
Burkina Faso
Burned area
carbon
climate models
cropland
decision making
Harmonic model
land management
Landsat
Landsat time series
landscapes
moderate resolution imaging spectroradiometer
MODIS
monitoring
remote sensing
savannas
time series analysis
vegetation structure
wildfires
Title Burned area detection based on Landsat time series in savannas of southern Burkina Faso
URI https://dx.doi.org/10.1016/j.jag.2017.09.011
https://www.proquest.com/docview/2388754423
Volume 64
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