Abstract
Deforestation in peatland areas such as Kalimantan, Indonesia has been going on for decades. The deforestation has indirectly increased peatlands to become degraded and flammable. The Synthetic Aperture Radar (SAR) interferometry approach for identification of degraded peatlands can be performed using ALOS-2 PALSAR-2 data by converting land deformation data generated from SAR interferometry analysis into water table (WT) depth data using Wosten models. Peatlands with WT depth conditions of more than 40 cm are classified as degraded peatlands which are flammable. By using fire data from previous studies, this research confirms that identification of degraded peatlands using SAR interferometry approach by ALOS-2 PALSAR-2 is more reliable with high precision related to forest fires, with a precision level of 88% compared to 5% precision level using the WT depth monitoring system that has been installed in Central Kalimantan. The highest wavelength of ALOS-2 PALSAR-2 (L-Band) data can resolve the limitation due to temporal and volumetric decorrelation, compared to C-Band and X-Band satellite data. The combination methods of SAR interferometry approach and the real-time WT depth monitoring system to identify degraded peatlands can be more efficient, faster, and accurate. The advantage of this research result shows that SAR interferometry analysis can reach blank spot areas that are not covered by the observation station of WT depth monitoring system. It also gives a benefit as a guide to select precise locations of observation stations related to degraded peatland and forest fire.
Highlights
12 percent or around 14.9 million hectares of Indonesia’s landmass are peatland areas, most of which are in Sumatra, about 7.1 million hectares, Kalimantan 6.5 million hectares and others in Papua region [1]
Degraded Peatland Areas Based on Synthetic Aperture Radar (SAR) Interferometry interferogram map is the result of cross-correlation between two pairs of images
Application of SAR interferometry using ALOS-2 PALSAR-2 data to identify degraded peatlands give 88% precision level when associated with forest fire
Summary
12 percent or around 14.9 million hectares of Indonesia’s landmass are peatland areas, most of which are in Sumatra, about 7.1 million hectares, Kalimantan 6.5 million hectares and others in Papua region [1]. Peatland ecosystem areas are vulnerable due to anthropogenic activities such as drainage, conversion for agriculture, burning, and extraction for fuel and agriculture [2]. For the last two decades, human activities have rapidly increased and caused persistent environmental change [3,4]. The activities of drainage and forest clearing threaten peatland stability and make them susceptible to fire [4]. People cleared peatland areas with the most extensive cleared peatlands found in Riau (≈450,000 ha), Central Kalimantan (≈400,000 ha), and South Sumatra (≈320,000 ha) [5].
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