Fuel weight and understorey hazard dynamics in mature karri ( Eucalyptus diversicolor ) forests in southwest Western Australia

IF 0.9 4区 农林科学 Q3 FORESTRY
N. Burrows, A. Wills, V. Densmore
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Abstract

Fuel properties influence the behaviour of forest fires, so understanding how these change with time since fire is important for appraising the bushfire threat and planning and implementing bushfire mitigation operations. A space-for-time study in mature karri forests with fuel ages ranging from 1 to 92 years demonstrated that total fine-fuel weight (TFFW) increased with time since fire for about 30 years then plateaued at a mean value of about 50 t ha−1. For fuels older than four years, on average, 74% of TFFW was in the surface fuel layer (the litterbed) and 17% was in the near-surface layer (up to 1 m above the surface layer). Live understorey vegetation contributed only about 6% to TFFW. Predicting TFFW from time since fire was improved by including karri tree basal area. Mean understorey height (Uht) increased with time since fire, peaking at 6 m after about 30 years, then declining to about 4 m after 92 years. Mean understorey hazard (Uhaz), derived from Uht plus the proportion (%) of dead fuel in each fuel layer, followed a similar trend, peaking at 20–30 years post-fire, then declining. Although Uhaz had declined by 36% from the maximum value by 60+ years post-fire, it was 27% higher than the Uhaz value for young fuels (1−<5 years old). For a mean prescribed-burn interval of eight years, 50% of the forest fuel will be ≤four years old and so will be carrying about ≤19 t ha−1 of fine fuel (≤38% of the maximum value), with a Uhaz value of about <3.56 (<50% of the maximum value). Fuel weight and Uhaz directly influence fire intensity, flame size, spotting potential and rate of spread. Therefore, prescribed burning, done strategically and at the appropriate temporal and spatial scales, will make bushfires less damaging and easier and safer to suppress.
西澳大利亚西南部不同颜色桉树成熟森林的燃料重量和林下危害动态
燃料特性影响森林火灾的行为,因此了解这些特性在火灾发生后如何随时间变化,对于评估森林火灾威胁以及规划和实施森林火灾减灾行动非常重要。在燃料年龄为1 ~ 92年的成熟karri森林中进行的时空研究表明,自火灾以来,总细燃料重量(TFFW)随时间增加约30年,然后在平均值约50 tha - 1处趋于稳定。对于4年以上的燃料,平均74%的总ffw在地表燃料层(凋落物床),17%在近地表(地表以上1米)。活的林下植被仅占总植被的6%。通过加入karri树基面积,改进了火灾后TFFW的预测。火灾后平均林下高度(Uht)随时间增加,约30 a后达到峰值6 m, 92 a后下降至4 m左右。平均下层危害(Uhaz),由Uht加上每层燃料中死燃料的比例(%)得出,遵循类似的趋势,在火灾后20-30年达到峰值,然后下降。尽管火灾后60多年的Uhaz值比最大值下降了36%,但它比年轻燃料(1 - <5年)的Uhaz值高27%。在平均8年的规定燃烧间隔中,50%的森林燃料将≤4年,因此将携带约≤19 t ha - 1的细燃料(≤最大值的38%),其Uhaz值约<3.56(<最大值的50%)。燃料重量和Uhaz直接影响火灾强度、火焰大小、发现潜力和蔓延速度。因此,在适当的时间和空间尺度上战略性地进行规定的燃烧,将使森林大火的破坏性更小,更容易和更安全地扑灭。
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来源期刊
CiteScore
3.70
自引率
4.80%
发文量
15
审稿时长
>12 weeks
期刊介绍: Australian Forestry is published by Taylor & Francis for the Institute of Foresters of Australia (IFA) for scientific, technical, and professional communication relating to forestry in the Asia Pacific.
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