Mapping wetland burned area from Sentinel-2 across the southeastern United States and its contributions relative to Landsat 8 (2016-2019)

Melanie K. Vanderhoof; Todd Hawbaker; Casey Teske; Andrea Ku; Joe Noble; Joshua J. Picotte

doi:10.3390/fire4030052

Mapping wetland burned area from Sentinel-2 across the southeastern United States and its contributions relative to Landsat 8 (2016-2019)

Fire

By: Melanie K. Vanderhoof, Todd Hawbaker, Casey Teske, Andrea Ku, Joe Noble, and Joshua J. Picotte

https://doi.org/10.3390/fire4030052

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More information: Publisher Index Page (via DOI)
Data Release: USGS data release - Wetland burned area extent derived from Sentinel-2 across the southeastern U.S. (2016-2019)
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Abstract

Prescribed fires and wildfires are common in wetland ecosystems across the Southeastern United States. However, the wetland burned area has been chronically underestimated across the region due to (1) spectral confusion between open water and burned area, (2) rapid post-fire vegetation regrowth, and (3) high annual precipitation limiting clear-sky satellite observations. We developed a machine learning algorithm specifically for burned area in wetlands, and applied the algorithm to the Sentinel-2 archive (2016–2019) across the Southeastern US (>290,000 km²). Combining Landsat-8 imagery with Sentinel-2 increased the annual clear-sky observation count from 17 to 46 in 2016 and from 16 to 78 in 2019. When validated with WorldView imagery, the Sentinel-2 burned area had a 29% and 30% omission and commission rates of error for burned area, respectively, compared to the US Geological Survey Landsat-8 Burned Area Product (L8 BA), which had a 47% and 8% omission and commission rate of error, respectively. The Sentinel-2 algorithm and the L8 BA mapped burned area within 78% and 60% of wetland fire perimeters (n = 555) compiled from state and federal agencies, respectively. This analysis demonstrated the potential of Sentinel-2 to support efforts to track the burned area, especially across challenging ecosystem types, such as wetlands.

Suggested Citation

Vanderhoof, M.K., Hawbaker, T., Teske, C., Ku, A., Noble, J., and Picotte, J., 2021, Mapping wetland burned area from Sentinel-2 across the southeastern United States and its contributions relative to Landsat 8 (2016-2019): Fire, v. 4, no. 3, 52, 25 p., https://doi.org/10.3390/fire4030052.

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Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Mapping wetland burned area from Sentinel-2 across the southeastern United States and its contributions relative to Landsat 8 (2016-2019)
Series title	Fire
DOI	10.3390/fire4030052
Volume	4
Issue	3
Publication Date	August 25, 2021
Year Published	2021
Language	English
Publisher	MDPI
Contributing office(s)	Earth Resources Observation and Science (EROS) Center, Geosciences and Environmental Change Science Center
Description	52, 25 p.
Country	United States
State	Florida, Montana, Oregon