The Mobile-Tensaw Delta is one of the most biodiverse regions in North America, featuring wetlands, pristine forests, and a rich array of plant and animal species that play a crucial role in the Gulf Coast's carbon cycle. The geographical location and climate conditions of the northern Gulf of Mexico mean this area is vital for coastal protection due to its vast amount of dense terrestrial canopy from forests and hydrological buffering from wetlands. However, the region is frequently impacted by natural disasters, such as hurricanes and tropical storms, which result in extensive storm surges, inundation, and, most notably, extreme wind speeds up to 100mph that damage vegetation cover. This research focuses on the impacts of Hurricane Sally (2020) on the terrestrial vegetation cover of the Mobile-Tensaw Delta and Baldwin County regions using remote sensing datasets (MODIS and NLCD), to analyze changes in Normalized Difference Vegetation Index (NDVI), precipitation, and wind speed before, during, and after the event. The results of this study provide insight into the effects of hurricanes on terrestrial canopy resilience and post-disturbance health/recovery, while demonstrating the effectiveness of remote sensing in detecting changes to environmental variables and coastal geography.