High-resolution data reveal a surge of biomass loss from temperate and Atlantic pine forests, contextualizing the 2022 fire season distinctiveness in France

IF 3.9 2区 地球科学 Q1 ECOLOGY
Lilian Vallet, Martin Schwartz, Philippe Ciais, Dave van Wees, Aurelien de Truchis, Florent Mouillot
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引用次数: 1

Abstract

Abstract. The frequency and intensity of summer droughts and heat waves in Western Europe have been increasing, raising concerns about the emergence of fire hazard in less fire-prone areas. This exposure of old-growth forests hosting unadapted tree species may cause disproportionately large biomass losses compared to those observed in frequently burned Mediterranean ecosystems. Therefore, analyzing fire seasons from the perspective of exposed burned areas alone is insufficient; we must also consider impacts on biomass loss. In this study, we focus on the exceptional 2022 summer fire season in France and use very high-resolution (10 m) satellite data to calculate the burned area, tree height at the national level, and subsequent ecological impact based on biomass loss during fires. Our high-resolution semi-automated detection estimated 42 520 ha of burned area, compared to the 66 393 ha estimated by the European automated remote sensing detection system (EFFIS), including 48 330 ha actually occurring in forests. We show that Mediterranean forests had a lower biomass loss than in previous years, whereas there was a drastic increase in burned area and biomass loss over the Atlantic pine forests and temperate forests. High biomass losses in the Atlantic pine forests were driven by the large burned area (28 600 ha in 2022 vs. 494 ha yr−1 in 2006–2021 period) but mitigated by a low exposed tree biomass mostly located on intensive management areas. Conversely, biomass loss in temperate forests was abnormally high due to both a 15-fold increase in burned area compared to previous years (3300 ha in 2022 vs. 216 ha in the 2006–2021 period) and a high tree biomass of the forests which burned. Overall, the biomass loss (i.e., wood biomass dry weight) was 0.25 Mt in Mediterranean forests and shrublands, 1.74 Mt in the Atlantic pine forest, and 0.57 Mt in temperate forests, amounting to a total loss of 2.553 Mt, equivalent to a 17 % increase of the average natural mortality of all French forests, as reported by the national inventory. A comparison of biomass loss between our estimates and global biomass/burned areas data indicates that higher resolution improves the identification of small fire patches, reduces the commission errors with a more accurate delineation of the perimeter of each fire, and increases the biomass affected. This study paves the way for the development of low-latency, high-accuracy assessment of biomass losses and fire patch contours to deliver a more informative impact-based characterization of each fire year.
高分辨率数据显示,温带和大西洋松林的生物量损失激增,这是法国2022年火灾季节特殊性的背景
摘要西欧夏季干旱和热浪的频率和强度一直在增加,这引起了人们对在不太容易发生火灾的地区出现火灾危险的担忧。与在经常被烧毁的地中海生态系统中观察到的情况相比,这种暴露于拥有不适应树种的原始森林可能造成不成比例的巨大生物量损失。因此,仅从暴露烧伤面积的角度分析火灾季节是不够的;我们还必须考虑对生物量损失的影响。在这项研究中,我们将重点放在2022年法国特殊的夏季火灾季节,并使用非常高分辨率(10米)的卫星数据来计算全国范围内的燃烧面积、树木高度,以及基于火灾期间生物量损失的后续生态影响。我们的高分辨率半自动探测估计了42 520公顷的燃烧面积,而欧洲自动遥感探测系统(EFFIS)估计的燃烧面积为66 393公顷,其中包括48 330公顷的森林。研究表明,地中海森林的生物量损失低于往年,而大西洋松林和温带森林的燃烧面积和生物量损失急剧增加。大西洋松林的高生物量损失是由大燃烧面积(2022年为28 600公顷,2006-2021年为494公顷)造成的,但主要位于集约化管理区的低暴露树木生物量减轻了损失。相反,温带森林的生物量损失异常高,因为与前几年相比,燃烧面积增加了15倍(2022年为3300公顷,2006-2021年为216公顷),而且燃烧森林的树木生物量很高。总体而言,地中海森林和灌丛的生物量损失(即木材生物量干重)为0.25 Mt,大西洋松林为174 Mt,温带森林为0.57 Mt,总计损失255.3 Mt,相当于法国所有森林平均自然死亡率增加17%,据国家清查报告。将我们估算的生物量损失与全球生物量/燃烧面积数据进行比较表明,更高的分辨率改善了对小火区的识别,通过更准确地描绘每次火灾的周长减少了委托误差,并增加了受影响的生物量。这项研究为开发低延迟、高精度的生物质损失评估和火斑轮廓铺平了道路,从而提供更有信息的基于影响的每个火年特征。
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
Biogeosciences
Biogeosciences 环境科学-地球科学综合
CiteScore
8.60
自引率
8.20%
发文量
258
审稿时长
4.2 months
期刊介绍: Biogeosciences (BG) is an international scientific journal dedicated to the publication and discussion of research articles, short communications and review papers on all aspects of the interactions between the biological, chemical and physical processes in terrestrial or extraterrestrial life with the geosphere, hydrosphere and atmosphere. The objective of the journal is to cut across the boundaries of established sciences and achieve an interdisciplinary view of these interactions. Experimental, conceptual and modelling approaches are welcome.
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