Overwintering Peat Fires in Russia’s Boreal Forests: Persistence, Detection, and Suppression

Kuksin, G., Sekerin, I., See, L. ORCID: https://orcid.org/0000-0002-2665-7065, & Shchepashchenko, D. ORCID: https://orcid.org/0000-0002-7814-4990 (2026). Overwintering Peat Fires in Russia’s Boreal Forests: Persistence, Detection, and Suppression. Fire 9 e144. 10.3390/fire9040144.

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Abstract

Overwintering peat fires are increasingly reported in the boreal regions, where they persist underground through winter and reignite in spring, intensifying greenhouse gas emissions and landscape degradation. This study investigates the conditions that enable peat fires to survive freezing and snow cover, and presents practical methods for their winter detection and suppression. We combined satellite data, UAV-based thermal imaging, time-lapse photography, and ground measurements of temperature, groundwater depth, and peat moisture to identify active overwintering hotspots. Our results show that these fires persist primarily where groundwater levels remain below 60 cm, particularly under tree roots, compacted soil, or elevated terrain that limits moisture recharge. UAV thermal imaging proved the most reliable detection tool, identifying 98% of hotspots. We developed and successfully applied a winter extinguishing method that involves mechanical disruption and dispersion of smoldering peat over frozen ground, allowing rapid cooling without re-ignition. These findings clarify the mechanisms sustaining overwintering fires and provide an effective approach for their mitigation, contributing to reduced emissions and improved management of boreal peatlands vulnerable to climate change.

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