Inventory analysis of fire effects wrought by wind-driven megafires in relation to weather and pre-fire forest structure in the western Cascades

IF 3.6 3区 环境科学与生态学 Q1 ECOLOGY Fire Ecology Pub Date : 2023-10-10 DOI:10.1186/s42408-023-00219-x
Sebastian U. Busby, Angela M. Klock, Jeremy S. Fried
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Abstract

Abstract Background Six synchronous, wind-driven, high severity megafires burned over 300,000 hectares of mesic temperate forest in the western Cascades of NW Oregon and SW Washington states in early September 2020. While remote sensing data has been utilized to estimate fire severity across the fires, assessments of fire impacts informed by field observations are missing. We compiled field measurement data, pre- and post-fire, from a statistically representative sample of existing forest inventory analysis (FIA) plots, to estimate stand-level fire effects indices that describe (1) tree survival and its implications for carbon emissions, (2) effects on tree crowns, and (3) effects on soils. Field observations were analyzed in relation to fire weather when plots burned and to evaluate accuracy of remotely sensed burn severity classifications. Results Wind speed strongly interacted with tree size and stand age to influence tree survival. Under high fuel aridity but light winds, young stands composed of small trees, found primarily on private lands, exhibited a much lower survival rate than older stands composed of medium to large trees, found primarily on federal lands. Under moderate to high winds, poor tree survival was characteristic of all forest structures and ownerships. Fire impacts on tree crowns were strongly related to wind speed, while fire impacts on soils were not. These fires transferred nearly 70 MMT CO 2 e from wood in live and growing trees to a combination of immediate smoke and carbon emissions, plus delayed emissions from dead wood, that will release most of the embodied carbon over the next few decades. These emissions will exceed all 2020 anthropogenic emissions in Oregon (64 MMT CO 2 e). Substantial discrepancies were observed between two remotely sensed burn severity products, BAER-SBS and MTBS-TC, and field observed soil organic matter cover and tree mortality, respectively. Conclusions Post-fire FIA plot remeasurements are valuable for understanding fire’s impact on forest ecosystems and as an empirical basis for model validation and hypothesis testing. This continuous forest inventory system will compound the value of these post-fire remeasurements, enabling analysis of post-fire forest ecosystem trajectories in relation to both immediate fire impacts and pre-fire conditions.
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西部喀斯喀特地区风致特大火灾与天气和火灾前森林结构的关系的火灾影响清单分析
2020年9月初,俄勒冈州西北部和华盛顿州西南部的喀斯喀特西部发生了6起同步、风力驱动的严重特大火灾,烧毁了30多万公顷的中温带森林。虽然遥感数据已被用来估计火灾的严重程度,但缺乏实地观测资料对火灾影响的评估。我们从现有森林资源调查分析(FIA)样地的统计代表性样本中收集了火灾前和火灾后的野外测量数据,以估计林分水平的火灾效应指数,这些指数描述了(1)树木存活及其对碳排放的影响,(2)对树冠的影响,以及(3)对土壤的影响。分析了现场观测与地块燃烧时火灾天气的关系,并评估了遥感烧伤严重程度分类的准确性。结果风速与林分大小和林龄有较强的相互作用,影响树木的成活率。在高度干旱和微风的条件下,主要在私人土地上由小树组成的年轻林分的存活率远低于主要在联邦土地上由中、大树组成的老林分。在中至大风条件下,所有森林结构和所有权的树木存活率都很低。火灾对树冠的影响与风速密切相关,而对土壤的影响与风速无关。这些火灾将近7000万吨二氧化碳从活的和生长的树木中转移到直接的烟雾和碳排放的组合中,加上死木的延迟排放,这将在未来几十年内释放出大部分隐含的碳。这些排放量将超过俄勒冈州2020年的所有人为排放量(6400万吨二氧化碳)。在两种遥感烧伤严重程度产品(BAER-SBS和MTBS-TC)与现场观测的土壤有机质覆盖和树木死亡率之间,分别观察到巨大的差异。结论火灾后FIA样地的重新测量对了解火灾对森林生态系统的影响具有重要意义,并可作为模型验证和假设检验的经验基础。这种连续的森林清查系统将综合这些火灾后再测量的价值,使分析火灾后森林生态系统的轨迹与火灾的直接影响和火灾前的条件有关。
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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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