Assessment of the Consequences of Forest Fires in 2020 on the Territory of the Chornobyl Radiation and Ecological Biosphere Reserve

Abstract

The article presents the consequences of fires that occurred on the territory Chornobyl Radiation and Ecological Biosphere Reserve in April 2020. Research shows that the results of these events characterized as catastrophic. The condition of forests after fires was assessed using satellite data and field trips to review the condition of forests affected by wildfires. The total area affected by the fire in 4 foci was 51,806.5 hectares. The total area of fires in the exclusion zone is 66,222.5 hectares. About 25% of the territories affected by the fires have changed. To preserve the landscape diversity and mosaic of areas covered and not covered with forest vegetation, it is impractical to conduct afforestation (afforestation of fallows) on the territory of the reserve. Among the forests affected by fires, the majority has a high ecological and forestry potential and, accordingly, a high potential for natural recovery (81.6%). In dead forests, the share with a high potential for natural reforestation is slightly lower and amounts to 66.8%. The share of forests with low natural recovery potential is low and amounts to 1.9% and 4.8% in forests affected by fires and dead, respectively. Significantly damaged, and sometimes destroyed, were a number of rare settlements, which are not only important for nature conservation, but also classified by the Standing Committee of the Bern Convention (Resolution 4) as particularly valuable settlements, as well as the “Green Book of Ukraine” (2009). 2 groups were marked as excessively damaged on the territory of the reserve. It should be noted that there is a slight general violation of the protected core of this object of the nature reserve fund, which will allow it to preserve its environmental potential and the functions of protecting and reproducing biodiversity. Most of the areas of the reserve affected by fires have a high forestry potential and are able to recover independently, so they do not require intervention in natural processes for reforestation. The degree of transformation of the ground cover in pine and oak-pine forests of the reserve under the influence of pyrogenic factor is determined by the intensity of the fire. Reforestation in areas with low forest potential should be carried out with clear planning