Wildfires in the Larch Range within Permafrost, Siberia

IF 3 3区 农林科学 Q2 ECOLOGY
V. Kharuk, E. Shvetsov, L. Buryak, A. S. Golyukov, M. Dvinskaya, I. Petrov
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引用次数: 1

Abstract

Throughout the larch range, warming leads to frequent fires and an increase in burned areas. We test the hypothesis that fires are an essential natural factor that reset larch regeneration and support the existence of larch forests. The study area included Larix sibirica and L. gmelinii ranges within the permafrost zone. We used satellite-derived and field data, dendrochronology, and climate variables analysis. We found that warming led to an increase in fire frequency and intensity, mean, and extreme (>10,000 ha) burned areas. The burned area is increasing in the northward direction, while fire frequency is decreasing. The fire rate exponentially increases with decreasing soil moisture and increasing air temperature and air drought. We found a contrasting effect of wildfire on regeneration within continuous permafrost and within the southern lowland boundary of the larch range. In the first case, burnt areas regenerated via abounded larch seedlings (up to 500,000+ per ha), whereas the south burns regenerated mostly via broadleaf species or turned into grass communities. After the fire, vegetation GPP was restored to pre-fire levels within 3–15 years, which may indicate that larch forests continue to serve as carbon stock. At the southern edge of the larch range, an amplified fire rate led to the transformation of larch forests into grass and shrub communities. We suggested that the thawing of continuous permafrost would lead to shrinking larch-dominance in the south. Data obtained indicated that recurrent fires are a prerequisite for larch forests’ successful regeneration and resilience within continuous permafrost. It is therefore not necessary to suppress all fires within the zone of larch dominance. Instead, we must focus fire suppression on areas of high natural, social, and economic importance, permitting fires to burn in vast, larch-dominant permafrost landscapes.
西伯利亚永久冻土区落叶松山脉的野火
在落叶松的整个范围内,气候变暖导致火灾频发,燃烧面积增加。我们验证了火灾是恢复落叶松再生和支持落叶松森林存在的重要自然因素的假设。研究区包括永久冻土带内的西伯利亚落叶松(Larix sibirica)和落叶松(l.g melinii)。我们使用卫星和野外数据、树木年代学和气候变量分析。我们发现,气候变暖导致火灾频率和强度、平均和极端(100万公顷)燃烧面积的增加。向北燃烧面积增加,火灾频次减少;随着土壤湿度的降低、气温的升高和空气干旱的加剧,火灾率呈指数增长。我们发现,在连续多年冻土带和落叶松山脉南部低地边界内,野火对再生的影响形成了对比。在第一种情况下,燃烧区通过大量的落叶松幼苗(每公顷高达50万+)进行再生,而南部的燃烧区主要通过阔叶物种进行再生或转变为草类群落。火灾发生后,植被GPP在3 ~ 15年内恢复到火灾前水平,这可能表明落叶松林继续发挥碳储量的作用。在落叶松范围的南缘,放大的火灾率导致落叶松林向草和灌木群落的转变。我们认为,持续的永久冻土融化将导致南方落叶松的优势缩小。获得的数据表明,在连续的永久冻土层中,反复发生的火灾是落叶松森林成功再生和恢复能力的先决条件。因此,没有必要扑灭落叶松优势区内的所有火灾。相反,我们必须把灭火重点放在具有高度自然、社会和经济重要性的地区,允许大火在大片以落叶松为主的永久冻土中燃烧。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Fire-Switzerland
Fire-Switzerland Multiple-
CiteScore
3.10
自引率
15.60%
发文量
182
审稿时长
11 weeks
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