Mapping carbon dioxide (CO2) emissions from peat subsidence using carbon parameters and InSAR observations in south Kalimantan, Indonesia

IF 1.4 Q4 SOIL SCIENCE

Soil Science Annual Pub Date : 2023-07-15 DOI:10.37501/soilsa/169656

Noorkomala Sari, Noorlaila Hayati, Maulida Annisa Uzzulfa, Rahmat Arief, T. Krisna

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Abstract

Peatlands are recognized as one of the largest terrestrial carbon sinks and are pivotal in efforts to mitigate climate change. Given this, Indonesia has committed to managing its peatlands, which have been subjected to drainage, deforestation, ﬁ res, and conversion for development. As of 2015, the Center for Agricultural Land Resources has mapped 107,344 ha of peatlands in South Kalimantan Province. However, in 2019, forest ﬁ res destroyed 2,400 ha of land, leading to the decomposition of surface peat areas, land subsidence, and the release of carbon into the atmosphere as CO 2 . This study aimed to quantify the widespread loss of peat carbon using the PS-InSAR (Persistent Scatterer Inter-ferometric Synthetic Aperture Radar) technique. Speci ﬁ cally, 66 Sentinel 1 SAR images of SLC were used to map subsidence in the peatland area between January 2019 and January 2021. The carbon content and bulk density of peatland were then quanti ﬁ ed to estimate CO 2 emission. The results obtained through the PS-InSAR technique showed that the highest level of peat subsidence was at –50 mm year –1 in the Landasan Ulin Sub–district of Banjarbaru Regency. Furthermore, subsidence was identi ﬁ ed in 6,920.5 ha of peatland in the study area. Subsidence, peat area, and carbon content data from SAR images, optical images, and peat soils were gathered through ﬁ eld surveys and websites (GSOCMap and Zenodo) to estimate CO 2 emission. The estimated CO 2 emissions based on in–situ and website data were the highest at 0.29 t C ha –1 year –1 and 0.04 t C ha –1 year –1 in Beruntung Baru Sub-district, Banjar Regency, and Bumi Makmur Sub-district, Tanah Laut Regency, respectively.

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利用碳参数和InSAR观测在印度尼西亚加里曼丹南部绘制泥炭沉降产生的二氧化碳排放图

泥炭地被认为是最大的陆地碳汇之一，在减缓气候变化的努力中发挥着关键作用。鉴于此，印度尼西亚已承诺管理泥炭地，这些泥炭地遭受了排水、森林砍伐、火灾和为发展而转换的影响。截至2015年，农业土地资源中心已在南加里曼丹省绘制了107,344公顷的泥炭地。然而，2019年，森林火灾摧毁了2400公顷的土地，导致地表泥炭区分解、地面沉降，并将碳以二氧化碳的形式释放到大气中。本研究旨在利用PS-InSAR(持续散射体间计量合成孔径雷达)技术量化泥炭碳的广泛损失。具体而言，使用66张Sentinel 1 SLC SAR图像绘制了2019年1月至2021年1月期间泥炭地地区的沉降图。然后定量测定泥炭地的碳含量和容重，估算co2排放量。通过PS-InSAR技术获得的结果表明，Banjarbaru摄政区Landasan Ulin街道的泥炭沉降最高水平为-50 mm year -1。研究区6,920.5 ha泥炭地存在沉降。通过实地调查和网站(GSOCMap和Zenodo)收集了沉降、泥炭面积和碳含量数据，这些数据来自SAR图像、光学图像和泥炭土，以估算CO 2排放量。基于现场和网站数据估算的CO 2排放量在Banjar县Beruntung Baru街道和Tanah Laut县Bumi Makmur街道分别最高，分别为0.29 t C ha -1年和0.04 t C ha -1年。

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

Soil Science Annual SOIL SCIENCE-

CiteScore

2.50

自引率

6.70%

发文量

审稿时长

29 weeks

期刊介绍： Soil Science Annual journal is a continuation of the “Roczniki Gleboznawcze” – the journal of the Polish Society of Soil Science first published in 1950. Soil Science Annual is a quarterly devoted to a broad spectrum of issues relating to the soil environment. From 2012, the journal is published in the open access system by the Sciendo (De Gruyter).