Simulating long-term wildfire impacts on boreal forest structure in Central Yakutia, Siberia, since the Last Glacial Maximum

IF 3.6 3区环境科学与生态学 Q1 ECOLOGY

Fire Ecology Pub Date : 2024-01-04 DOI:10.1186/s42408-023-00238-8

Ramesh Glückler, Josias Gloy, Elisabeth Dietze, Ulrike Herzschuh, Stefan Kruse

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引用次数: 0

Abstract

Wildfires are recognized as an important ecological component of larch-dominated boreal forests in eastern Siberia. However, long-term fire-vegetation dynamics in this unique environment are poorly understood. Recent paleoecological research suggests that intensifying fire regimes may induce millennial-scale shifts in forest structure and composition. This may, in turn, result in positive feedback on intensifying wildfires and permafrost degradation, apart from threatening human livelihoods. Most common fire-vegetation models do not explicitly include detailed individual-based tree population dynamics, but a focus on patterns of forest structure emerging from interactions among individual trees may provide a beneficial perspective on the impacts of changing fire regimes in eastern Siberia. To simulate these impacts on forest structure at millennial timescales, we apply the individual-based, spatially explicit vegetation model LAVESI-FIRE, expanded with a new fire module. Satellite-based fire observations along with fieldwork data were used to inform the implementation of wildfire occurrence and adjust model parameters. Simulations of annual forest development and wildfire activity at a study site in the Republic of Sakha (Yakutia) since the Last Glacial Maximum (c. 20,000 years BP) highlight the variable impacts of fire regimes on forest structure throughout time. Modeled annual fire probability and subsequent burned area in the Holocene compare well with a local reconstruction of charcoal influx in lake sediments. Wildfires can be followed by different forest regeneration pathways, depending on fire frequency and intensity and the pre-fire forest conditions. We find that medium-intensity wildfires at fire return intervals of 50 years or more benefit the dominance of fire-resisting Dahurian larch (Larix gmelinii (Rupr.) Rupr.), while stand-replacing fires tend to enable the establishment of evergreen conifers. Apart from post-fire mortality, wildfires modulate forest development mainly through competition effects and a reduction of the model’s litter layer. With its fine-scale population dynamics, LAVESI-FIRE can serve as a highly localized, spatially explicit tool to understand the long-term impacts of boreal wildfires on forest structure and to better constrain interpretations of paleoecological reconstructions of fire activity.

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模拟末次冰川极盛时期以来野火对西伯利亚雅库特中部北方森林结构的长期影响

野火被认为是西伯利亚东部以落叶松为主的北方森林的重要生态组成部分。然而，人们对这一独特环境中的长期火灾-植被动态却知之甚少。最近的古生态学研究表明，不断加剧的火灾机制可能会导致森林结构和组成发生千年规模的变化。这反过来又可能导致野火加剧和永久冻土退化的正反馈，并威胁到人类的生计。大多数常见的火灾-植被模型都没有明确包括详细的基于个体的树木种群动态，但关注个体树木之间相互作用所产生的森林结构模式可能会为了解西伯利亚东部火灾制度变化的影响提供一个有益的视角。为了在千年时间尺度上模拟这些对森林结构的影响，我们应用了基于个体、空间明确的植被模型 LAVESI-FIRE，并扩展了一个新的火灾模块。基于卫星的火灾观测数据和实地考察数据被用来为野火发生提供信息并调整模型参数。在萨哈共和国（雅库特）的一个研究地点，模拟了自末次冰川极盛时期（约公元前 2 万年）以来的年度森林发展和野火活动，突出显示了火灾机制在不同时期对森林结构的不同影响。模拟的全新世年火灾概率和随后的烧毁面积与当地湖泊沉积物中木炭流入量的重建结果进行了很好的比较。野火之后可能会出现不同的森林再生途径，这取决于火灾频率和强度以及火灾前的森林状况。我们发现，间隔 50 年或更长的中等强度野火有利于耐火的达胡里亚落叶松（Larix gmelinii (Rupr.) Rupr.）的优势地位，而取代林分的野火则有利于常绿针叶树的建立。除了火后死亡率，野火主要通过竞争效应和减少模型的枯落物层来调节森林的发展。LAVESI-FIRE 具有精细的种群动态，可以作为一种高度本地化、空间明确的工具，用于了解北方野火对森林结构的长期影响，并更好地约束对火灾活动的古生态重建的解释。

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 Ecology ECOLOGY-FORESTRY

CiteScore

6.20

自引率

7.80%

发文量

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.