Johnston Draw (Idaho) High Resolution Burn Severity Map 2023
Accurate mapping of rangeland burn severity is the first step towards managing and mitigating post-fire consequences, but the spatial resolution of freely available, remotely-sensed products is often too coarse to effectively represent the complexity of burned rangelands. We trained a support vector machine to classify burn severity over Johnston Draw (a 1.8 square kilometer prescribed fire study area in southwestern Idaho) at very high spatial resolution (0.5-meter) using post-fire pan-sharpened 8-band Worldview 3 imagery, co-registered with a complimentary pre-fire vegetation map. Burn severity map accuracy was quite high at 88.3% when validated at 1000 randomly distributed points within the study area. In 2023 alone the Bureau of Land Management treated fuels in over 1.2 million acres of rangeland, a quarter of which was treated with prescribed fire, and managing postfire consequences like soil erosion and vegetation recovery requires high-resolution burn severity mapping to inform mitigation on these vast acreages.
Funding
USDA-ARS: 2052-21500-001-000D
NSF-EAR: 2331817
NSF-EAR: 2331818
History
Data contact name
Huber, David, P.Data contact email
davidhuber631@boisestate.eduPublisher
Ag Data CommonsIntended use
The intended use of the burn severity map is for reference and analysis of the post-fire conditions and in reference to pre-fire vegetation conditions for in Johnston Draw prescribed fire that occurred on 10-6-2023. This dataset will be useful in applications that rely on high-resolution burn severity mapping, including but not limited to pre-fire vegetation burn risk assessment; hydrologic models; erosion models; and post-fire analyses of fire continuity, severity, and recovery.Use limitations
North-aspect grasses are misclassified as black ash in some areas in the lower watershed. Two smoke plumes, a light reflection off the pond in the upper watershed, and a sediment weir are misclassified as white ash. The post-fire and pre-fire co-registered images are offset in an unburned section of the upper riparian corridor. High burn severity was primarily associated with juniper trees that had been felled and were dry, and therefore may not fully reflect the condition of intact juniper stands following wildfire.Temporal Extent Start Date
2023-06-14Temporal Extent End Date
2023-10-08Frequency
- irregular
Theme
- Geospatial
Geographic Coverage
{"type": "FeatureCollection","features": [{"type": "Feature","geometry": {"type": "Polygon","coordinates": [[[-116.8034633,43.1345622],[-116.8036544,43.1195483],[-116.7739607,43.1193418], [-116.7737624,43.1343556],[-116.8034633,43.1345622]]]},"properties": {}}]}Geographic location - description
This burn severity map covers the Johnston Draw catchment in the Reynolds Creek Experimental Watershed in Southwestern Idaho.ISO Topic Category
- environment
- geoscientificInformation
Ag Data Commons Group
- Great Basin
- Long-Term Agroecosystem Research
National Agricultural Library Thesaurus terms
Idaho; burn severity; rangelands; remote sensing; prescribed burning; wildfires; vegetation maps; land management; fuels (fire ecology); soil erosion; vegetation; acreage; risk assessment; hydrologic models; soil erosion models; grasses; Fraxinus nigra; watersheds; smoke; sediments; Fraxinus americana; riparian areas; treesOMB Bureau Code
- 005:18 - Agricultural Research Service
OMB Program Code
- 005:040 - National Research
ARS National Program Number
- 215
ARIS Log Number
422774Pending citation
- No
Public Access Level
- Public
