Carbon emissions from a temperate coastal peatland wildfire: contributions from natural plant communities and organic soils

IF 3.9 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Carbon Balance and Management Pub Date : 2021-09-01 DOI:10.1186/s13021-021-00189-0

Robert A. Mickler

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Abstract

Background

One of the scientific challenges of understanding climate change has been determining the important drivers and metrics of global carbon (C) emissions and C cycling in tropical, subtropical, boreal, subarctic, and temperate peatlands. Peatlands account for 3% of global land cover, yet contain a major reservoir of 550 gigatons (Gt) of soil C, and serve as C sinks for 0.37 Gt of carbon dioxide (CO₂) a year. In the United States, temperate peatlands are estimated to store 455 petagrams of C (PgC). There has been increasing interest in the role of wildfires in C cycling and altering peatlands from C sinks to major C sources. We estimated above- and below-ground C emissions from the Pains Bay Fire, a long-duration wildfire (112 days; 18,329 ha) that burned a coastal peatland in eastern North Carolina, USA.

Results

Soil C emissions were estimated from pre- and post-burn Light Detection and Ranging (LIDAR) soil elevation data, soils series and C content mapping, remotely sensed soil burn severity, and post-burn field surveys of soil elevation. Total above-ground C emissions from the fire were 2,89,579 t C and 214 t C ha⁻¹ for the 10 vegetation associations within the burn area perimeter. Above-ground sources of C emissions were comprised of litter (69,656 t C), shrub (1,68,983 t C), and foliage (50,940 t C). Total mean below-ground C emissions were 5,237,521 t C, and ranged from 2,630,529 to 8,287,900 t C, depending on organic matter content of different soil horizons within each of the 7 soil series. The mean below-ground C emissions within the burn area were 1,595.6 t C ha⁻¹ and ranged from 629.3 to 2511.3 t C ha⁻¹.

Conclusions

In contrast to undisturbed temperate peatlands, human induced disturbances of the natural elevation gradient of the peatland has resulted in increased heterogeneity of floristic variation and assemblages that are a product of the spatial and temporal patterns of the water table level and the surface wetness across peatlands. Human induced changes in surface hydrology and land use influenced the fuel characteristics of natural vegetation and associated soils, thus influencing wildfire risk, behavior, and the resulting C emissions.

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温带沿海泥炭地野火的碳排放：自然植物群落和有机土壤的贡献

背景了解气候变化的科学挑战之一是确定全球碳排放的重要驱动因素和指标，以及热带、亚热带、寒带、亚北极和温带泥炭地的碳循环。泥炭地占全球陆地植被的 3%，但却蕴藏着 550 千兆吨（Gt）的土壤碳，每年吸收 0.37 千兆吨二氧化碳（CO2）。在美国，温带泥炭地估计储存了 455 petagrams of C (PgC)。人们越来越关注野火在碳循环以及将泥炭地从碳汇变为主要碳源方面的作用。我们估算了 Pains Bay 大火的地上和地下碳排放量，这是一场持续时间较长的野火（112 天；18,329 公顷），烧毁了美国北卡罗来纳州东部的一片沿海泥炭地。结果土壤碳排放量是通过燃烧前后的光探测和测距（LIDAR）土壤高程数据、土壤系列和碳含量绘图、遥感土壤燃烧严重程度以及燃烧后的土壤高程实地调查估算出来的。火灾造成的地上碳排放总量为 2,89,579 吨碳，燃烧区周边 10 个植被群落的碳排放量为 214 吨碳/公顷。地上碳排放源包括枯落物（69,656 吨 C）、灌木（1,68,983 吨 C）和落叶（50,940 吨 C）。地下 C 排放总量的平均值为 5,237,521 吨 C，范围在 2,630,529 到 8,287,900 吨 C 之间，取决于 7 个土壤系列中不同土壤层的有机质含量。结论与未受干扰的温带泥炭地相比，人类对泥炭地自然海拔梯度的干扰增加了花卉变异和组合的异质性，这是地下水位和泥炭地表面湿度时空模式的产物。由人类引起的地表水文和土地利用的变化影响了天然植被和相关土壤的燃料特性，从而影响了野火风险、行为以及由此产生的碳排放量。

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来源期刊

Carbon Balance and Management Environmental Science-Management, Monitoring, Policy and Law

CiteScore

7.60

自引率

0.00%

发文量

审稿时长

14 weeks

期刊介绍： Carbon Balance and Management is an open access, peer-reviewed online journal that encompasses all aspects of research aimed at developing a comprehensive policy relevant to the understanding of the global carbon cycle. The global carbon cycle involves important couplings between climate, atmospheric CO2 and the terrestrial and oceanic biospheres. The current transformation of the carbon cycle due to changes in climate and atmospheric composition is widely recognized as potentially dangerous for the biosphere and for the well-being of humankind, and therefore monitoring, understanding and predicting the evolution of the carbon cycle in the context of the whole biosphere (both terrestrial and marine) is a challenge to the scientific community. This demands interdisciplinary research and new approaches for studying geographical and temporal distributions of carbon pools and fluxes, control and feedback mechanisms of the carbon-climate system, points of intervention and windows of opportunity for managing the carbon-climate-human system. Carbon Balance and Management is a medium for researchers in the field to convey the results of their research across disciplinary boundaries. Through this dissemination of research, the journal aims to support the work of the Intergovernmental Panel for Climate Change (IPCC) and to provide governmental and non-governmental organizations with instantaneous access to continually emerging knowledge, including paradigm shifts and consensual views.