在干燥条件下焚烧黑火会增加长期火灾严重性风险

IF 2.9 3区 农林科学 Q1 FORESTRY International Journal of Wildland Fire Pub Date : 2024-09-05 DOI:10.1071/wf23180
Diana Partridge (née Virkki), David Kington, Paul Williams, Darren Burns
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引用次数: 0

摘要

我们利用案例研究来探讨澳大利亚昆士兰东南部火灾制度的变化对植被结构和燃料风险的影响。多项研究报告称,高强度野火会导致灌木和树苗密度过高,从而增加燃料风险。我们认为,在干燥条件下进行资产保护燃烧会造成与高强度野火类似的植被增厚,从而因燃料负荷增加而增加火灾严重性风险。我们证明,在土壤水分充足的情况下定期进行低强度燃烧可以实现减少燃料的目标。这提供了一个长期的解决方案,可促进降低社区风险,同时带来更好的生态效果并降低长期实施成本。
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Blackout burning in dry conditions increases long-term fire severity risk

We use case studies to explore the impact of changed fire regimes on vegetation structure and fuel risk in Southeast Queensland, Australia. Multiple studies report high intensity wildfires promote excessive shrub and sapling densities, which increase elevated fuel hazard. We argue asset protection burns in dry conditions can cause similar vegetation thickening to an intense wildfire, which increases fire severity risk due to increased elevated fuel loads. We demonstrate regular low intensity burning with adequate soil moisture can achieve fuel reduction objectives. This provides a longer-term solution that promotes risk reduction to communities, whilst leading to better ecological outcomes and reduced cost of implementation over the long-term.

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来源期刊
CiteScore
5.50
自引率
9.70%
发文量
67
审稿时长
12-24 weeks
期刊介绍: International Journal of Wildland Fire publishes new and significant articles that advance basic and applied research concerning wildland fire. Published papers aim to assist in the understanding of the basic principles of fire as a process, its ecological impact at the stand level and the landscape level, modelling fire and its effects, as well as presenting information on how to effectively and efficiently manage fire. The journal has an international perspective, since wildland fire plays a major social, economic and ecological role around the globe. The International Journal of Wildland Fire is published on behalf of the International Association of Wildland Fire.
期刊最新文献
Cross-landscape fuel moisture differences impact simulated fire behaviour Blackout burning in dry conditions increases long-term fire severity risk Observations of wildfire spread dynamics in southern Australian grasslands Expanding our understanding of nitrogen dynamics after fire: how severe fire and aridity reduce ecosystem nitrogen retention Assessing changes in high-intensity fire events in south-eastern Australia using Fourier Transform Infra-red (FITR) spectroscopy
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