火灾强度对蚕豆种子存活率的影响

IF 3.6 3区 环境科学与生态学 Q1 ECOLOGY
Chika K. Tada, Ella S. Plumanns-Pouton, Trent D. Penman, Alexander I. Filkov
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引用次数: 0

摘要

在火灾易发的环境中,一些物种会将种子储存在树冠圆锥体(绢毛)中,这样可以在刺激种子释放之前保护种子免受火灾的影响。然而,在高强度火灾下,绢毛球果保护种子的能力尚不确定。除了 "高 "与 "低 "的火灾强度或严重程度之外,我们还必须了解火灾强度的具体特征--热通量、暴露持续时间及其动态变化--对绢毛种子存活的影响。在这项研究中,我们测试了在瞬时辐射热水平下蛇尾草种子的存活率,以了解辐射热通量和暴露持续时间对两种蛇尾草种子存活率的不同和综合影响:黄花蛇尾草(Hakea nodosa R.Br.)和热叶银杏(Banksia ericifolia subsp.ericifolia)。我们发现火强度处理对种子存活率的影响各不相同。与对照组相比,持续时间较长(600 秒)的静态辐射热(17 kW/m2)使黄花百合的种子存活率降低了 75.7%,使热叶银杏的种子存活率降低了 1.5%。然而,总持续时间相同(600 秒)的动态加热(40 kW/m2 的 120 秒短时间加热,然后缓慢下降)并没有降低种子存活率。尽管两种处理的辐射量相当(前者为 10,200 kJ/m2 ,后者为 10,236 kJ/m2)。两个物种都表现出了出色的耐热能力,尤其是动态火强度--无论是高强度(40 kW/m2)还是低强度(19 kW/m2)。虽然几乎所有的火烧处理都会降低对照组的存活率,但大多数种子在释放后仍能存活并发芽。我们的研究强调了研究动态而非静态火灾对植被影响的重要性,以准确复制火灾前沿的条件。绢毛种子具有良好的耐受强火能力。然而,持续时间较长的高热通量的综合影响降低了种子的存活率。我们认为,过长的火灾锋面可能会导致种子死亡,这对仅依靠种子在火灾后存活的种子物种来说是一个风险。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fire intensity effects on serotinous seed survival
In fire-prone environments, some species store their seeds in canopy cones (serotiny), which provides seeds protection from the passage of fire before stimulating seed release. However, the capacity of serotinous cones to protect seeds under high intensity fire is uncertain. Beyond simply “high” versus “low” fire intensity or severity, we must understand the influence of the specific characteristics of fire intensity—heat flux, exposure duration, and their dynamics—on serotinous seed survival. In this study, we tested serotinous seed survival under transient levels of radiant heat to understand the distinct and combined impacts of radiative heat flux and duration of exposure on the survival of seeds from two serotinous obligate seeder species: yellow hakea (Hakea nodosa R.Br.) and heath-leaved banksia (Banksia ericifolia subsp. ericifolia). We found differing impacts of fire intensity treatments on seed survival. Static levels of radiative heat (17 kW/m2) at long durations (600 s) reduced seed survival by 75.7% for yellow hakea and 1.5% for heath-leaved banksia compared to the control. However, dynamic heat (a short 120-s period of 40 kW/m2 followed by a slow decline) with an identical total duration (600 s) did not have comparable reductions in seed survival. This is despite both treatments having comparable radiant exposure (10,200 kJ/m2 for the former and 10,236 kJ/m2 for the latter). Both species demonstrated remarkable capacity to withstand heat treatments, particularly dynamic fire intensity—both high (40 kW/m2) and low (19 kW/m2). While almost all fire exposure treatments reduced survival from the control, most seeds remained viable and germinated upon release. Our study highlights the importance of examining dynamic rather than static fire effects on vegetation, to accurately replicate the conditions of a fire front. Serotinous seeds demonstrate good capacity to tolerate intense fire. Nonetheless, the combined effects of high heat flux at prolonged durations reduces seed survival. We suggest overly prolonged passing fire fronts may cause seed death and are a risk to obligate seeder species that rely solely on seeds for persistence post-fire.
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来源期刊
Fire Ecology
Fire Ecology ECOLOGY-FORESTRY
CiteScore
6.20
自引率
7.80%
发文量
24
审稿时长
20 weeks
期刊介绍: Fire Ecology is the international scientific journal supported by the Association for Fire Ecology. Fire Ecology publishes peer-reviewed articles on all ecological and management aspects relating to wildland fire. We welcome submissions on topics that include a broad range of research on the ecological relationships of fire to its environment, including, but not limited to: Ecology (physical and biological fire effects, fire regimes, etc.) Social science (geography, sociology, anthropology, etc.) Fuel Fire science and modeling Planning and risk management Law and policy Fire management Inter- or cross-disciplinary fire-related topics Technology transfer products.
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