- Pokharel, Binod;
- Sharma, Shankar;
- Stuivenvolt-Allen, Jacob;
- Wang, Shih-Yu Simon;
- LaPlante, Matthew;
- Gillies, Robert R;
- Khanal, Sujan;
- Wehner, Michael;
- Rhoades, Alan;
- Hamal, Kalpana;
- Hatchett, Benjamin;
- Liu, Wan-Yu;
- Mukherjee, Sarbajit;
- Aryal, Deepak
In spring 2021, Nepal underwent a record wildfire season in which active fires were detected at a rate 10 times greater than the 2002–2020 average. Prior to these major wildfire events, the country experienced a prolonged precipitation deficit and extreme drought during the post-monsoon period (starting in October 2020). An analysis using observational, reanalysis, and climate model ensemble data indicates that both climate variability and climate change-induced severe drought conditions were at play. Further analysis of climate model outputs suggests the likely reoccurrence of drought conditions, thus favoring active wildfire seasons in Nepal throughout the twenty-first century. While the inter-model uncertainty is large and direct modeling of wildfire spread and suppression has not been completed, the demonstrated relationship between a drought index (the standardized precipitation and evapotranspiration index) and subsequent fire activity may offer actionable opportunities for forest managers to employ the monitoring and projection of climate anomalies at sub-seasonal to decadal timescales to inform their management strategies for Nepal’s wildlands.