Temporal variations in burn severity among various vegetation layers in subtropical Pinus Roxburghii (Chir Pine) forest of Hindu Kush mountain range

Temporal variations in burn severity among various vegetation layers in subtropical Pinus Roxburghii (Chir Pine) forest of Hindu Kush mountain range

The Sub-tropical forests of Pinus roxburghii (chir pine) provide various ecosystem services and act as watershed for low lying regions. However, this species is prone to human induced fire primarily due to local communities' dependence for various resources exacerbated by the current dry condit...

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Bibliographic Details
Published in:Trees, Forests and People (Online) Vol. 18; p. 100664
Main Authors: Muhammad, Sultan, Ali, Anwar, Mehmood, Kaleem, Ahmad, Hasham, Hayat, Mansoor, Khan, Muhammad Tayyab, Arbab, Nadim, Nizami, Moazzam, Fahad, Shah
Format: Journal Article
Language:English
Published: Elsevier B.V 01-12-2024
Elsevier
Subjects:
Chir Pine Forest
Composite burn index
Ecological restoration
Forest Fire Management
Forest fire severity
Composite burn index
Forest fire severity
Ecological restoration
Forest Fire Management
Chir Pine Forest
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Summary:The Sub-tropical forests of Pinus roxburghii (chir pine) provide various ecosystem services and act as watershed for low lying regions. However, this species is prone to human induced fire primarily due to local communities' dependence for various resources exacerbated by the current dry conditions. The impact of fire across various vegetation layers and developmental stages has not been thoroughly studied. Bearing to this, the present study was conducted using composite burn index to assess the severity on various layers of vegetation and their long-term impact through a chronological approach. The impact of fire on 40 representative circular plots with a radius of 30 m, categorized into five forest strata: large and intermediate trees, seedlings/saplings, pole stage, shrubs, and soil were investigated and compared across four different time interval: unburnt (B0), burnt two years ago (B2), burnt five years ago (B5), and burnt 15 years ago (B15). The results were statistically proved using Kruskal–Wallis followed by Dunn's Post Hoc and Friedman test with the Holm correction in R Language. The study revealed significant variations in the average burn severity for each treatment, with shrubs having the highest average score of burn severity (average = 1.4) and soil showing the lowest (average = 0.408). The results of the Friedman test indicated non-uniform distribution of burn severity across different ecological treatments. This study is contributing significant insights into the effects of forest fires and their severity on different vegetation layers, which can be instrumental in devising and executing successful restoration strategies.
ISSN:2666-7193
2666-7193
DOI:10.1016/j.tfp.2024.100664