Understanding Impacts of Severe Wildfire to Arizona Mountain Forest: An Analysis of 2 Large Wildfires in the Madrean Sky Islands
Presentation Time: Mon, 08/04/2025 - 11:30
Keywords: Madrean Sky Islands, wildfire, spectral indices, change detection, forest type conversion
Two large and destructive wildfires, the Frye Fire (2017) and the Bighorn Fire (2020), occurred within two mountain ranges within the Arizona Madrean Sky Island ecoregion, the Santa Catalina Mountains and Pinaleño Mountains respectively. Both wildfires are described by varying degrees of burn severity, each consuming large portions of high elevation (> 7000 ft) coniferous forest following previous large and destructive stand replacing wildfire events within similar footprints. Given the immense transition in forest type and structure across drastic elevational gradients unique to these mountain ranges, there is a need to understand the relative recovery associated with Sky Island forest structure following large mountain-wide fire events. Providing 1) a visual representation of localized precipitation conditions prior to the wildfire events, 2) a remote sensing index driven fire effects analysis, and 3) a change detection analysis to forest structure may help to better understand trends of wildfire to these unique ecosystems. Using Sentinel-2 (S2) derived satellite imagery, a series of spectral indices (Normalized Difference Vegetation Index (NDVI), Normalized Burn Ratio Plus (NBR+), Normalized Difference Infrared Index (NDII), and Burn Area Index (BAI)) were calculated to identify burn severity, vegetation loss and 5-year post fire recovery potential to provide more accurate estimates to areas most likely to have undergone forest type conversion.
