Mapping deep peat carbon stock from a LiDAR based DTM and field measurements, with application to eastern Sumatra

IF 3.9 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Carbon Balance and Management Pub Date : 2020-03-23 DOI:10.1186/s13021-020-00139-2

Ronald Vernimmen, Aljosja Hooijer, Rizka Akmalia, Natan Fitranatanegara, Dedi Mulyadi, Angga Yuherdha, Heri Andreas, Susan Page

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引用次数: 12

Abstract

Reduction of carbon emissions from peatlands is recognized as an important factor in global climate change mitigation. Within the SE Asia region, areas of deeper peat present the greatest carbon stocks, and therefore the greatest potential for future carbon emissions from degradation and fire. They also support most of the remaining lowland swamp forest and its associated biodiversity. Accurate maps of deep peat are central to providing correct estimates of peat carbon stocks and to facilitating appropriate management interventions. We present a rapid and cost-effective approach to peat thickness mapping in raised peat bogs that applies a model of peat bottom elevation based on field measurements subtracted from a surface elevation model created from airborne LiDAR data.

In two raised peat bog test areas in Indonesia, we find that field peat thickness measurements correlate well with surface elevation derived from airborne LiDAR based DTMs (R² 0.83–0.88), confirming that the peat bottom is often relatively flat. On this basis, we created a map of extent and depth of deep peat (>?3?m) from a new DTM that covers two-thirds of Sumatran peatlands, applying a flat peat bottom of 0.61?m +MSL determined from the average of 2446 field measurements. A deep peat area coverage of 2.6?Mha or 60.1% of the total peat area in eastern Sumatra is mapped, suggesting that deep peat in this region is more common than shallow peat and its extent was underestimated in earlier maps. The associated deep peat carbon stock range is 9.0–11.5 Pg C in eastern Sumatra alone.

We discuss how the deep peat map may be used to identify priority areas for peat and forest conservation and thereby help prevent major potential future carbon emissions and support the safeguarding of the remaining forest and biodiversity. We propose rapid application of this method to other coastal raised bog peatland areas in SE Asia in support of improved peatland zoning and management. We demonstrate that the upcoming global ICESat-2 and GEDI satellite LiDAR coverage will likely result in a global DTM that, within a few years, will be sufficiently accurate for this application.

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利用基于激光雷达的DTM和现场测量绘制深泥炭碳储量，并应用于苏门答腊岛东部

减少泥炭地的碳排放被认为是减缓全球气候变化的一个重要因素。在东南亚地区，泥炭层较深的地区碳储量最大，因此未来由退化和火灾造成的碳排放潜力最大。它们还支持着大部分剩余的低地沼泽森林及其相关的生物多样性。准确的深层泥炭地图对于提供泥炭碳储量的正确估计和促进适当的管理干预至关重要。我们提出了一种快速且具有成本效益的方法来绘制凸起泥炭沼泽的泥炭厚度，该方法应用了基于现场测量的泥炭底部高程模型，该模型减去了由机载激光雷达数据创建的表面高程模型。在印度尼西亚的两个凸起泥炭沼泽测试区，我们发现现场泥炭厚度测量值与基于机载激光雷达的dtm获得的地表高程相关良好(R2 0.83-0.88)，证实泥炭底部通常相对平坦。在此基础上，我们根据新的DTM绘制了一张覆盖苏门答腊三分之二泥炭地的深泥炭的范围和深度地图(>?3?m)，泥炭底部为0.61?m +MSL由2446次野外测量的平均值确定。深泥炭区覆盖率2.6?在苏门答腊岛东部泥炭区有60.1%的泥炭被绘制出来，这表明该地区的深层泥炭比浅层泥炭更为普遍，其范围在早期的地图中被低估了。仅在苏门答腊东部，相关的深层泥炭碳储量范围为9.0-11.5 Pg C。我们将讨论如何利用深层泥炭地图来确定泥炭和森林保护的优先区域，从而帮助防止未来主要的潜在碳排放，并支持保护剩余的森林和生物多样性。我们建议将这种方法快速应用于东南亚其他沿海凸起沼泽泥炭地地区，以支持改善泥炭地分区和管理。我们证明，即将到来的全球ICESat-2和GEDI卫星激光雷达覆盖可能会导致全球DTM，在几年内，这一应用将足够准确。

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

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.