Changes in Soil Physicochemical Properties and Fungal Communities Following a Forest Fire in the Pine Forest of Uljin, Republic of Korea

• Published in: Forests Vol. 15; no. 11; p. 1942
• Main Authors: Lee, Seok Hui, Lee, Su Ho, Kang, Jun Won, Park, Yeong Dae
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.11.2024
• Subjects: Absorption; Analysis; Atheliales; Biological diversity; Coniferous forests; Decomposition; Diversity indices; Ecological restoration; Ecosystem restoration; Ecosystems; Environmental restoration; Forest & brush fires; Forest ecology; Forest ecosystems; Forest fires; Forest management; Forest soils; Fungi; Microorganisms; Nutrients; Organic matter; Phylogenetics; Physicochemical properties; Pine; Pine trees; Pinus densiflora; Rhizosphere; Russula; Soil acidity; Soil analysis; Soil chemistry; Soil microorganisms; Soil pH; Soil properties; Statistical analysis; Terrestrial ecosystems; Trechisporales; Variance analysis; Vegetation; United States; South Korea; Massachusetts; United States > US
• ISSN: 1999-4907; 1999-4907
• DOI: 10.3390/f15111942

Soil samples from the rhizosphere of pine (Pinus densiflora) stands in the fire-disturbed Uljin forest were collected to analyze their physicochemical properties and fungal communities. In the burned area, soil pH decreased by 0.56, and organic matter content decreased by 0.32%p compared to the undisturbed area. Fungal community analysis revealed that all alpha diversity indices decreased in the burned area, but there were no differences according to fire severity. Soil pH, available phosphorus, and total nitrogen showed a positive correlation with the alpha diversity. Additionally, beta diversity analysis also indicated significant differences in the fungal communities between the burned area and the control sites (p value = 0.031). The changes in fungal communities were considered to be influenced by the decline in the order Atheliales, genus Russula, and genus Trechispora. A prediction analysis of the functional traits of fungi showed that the number of fungi involved in nutrient absorption and decomposition decreased in the burned area. It seems that the soil restoration of pine forests is progressing very slowly, as the soil fungi related to nutrient absorption by pine trees have not recovered even 18 months after the forest fire. Therefore, it is necessary to monitor continuous fungal communities in pine forest restoration after a forest fire to determine forest ecosystem restoration success and stabilization.