International Journal of Forestry Research (Jan 2023)

Hotspot Spatial Patterns Using SNNP-VIIRS for Fire Potential Monitoring

  • Rosalina Kumalawati,
  • Astinana Yuliarti,
  • Syamani D. Ali,
  • Karnanto Hendra Murliawan,
  • Rijanta Rijanta,
  • Ari Susanti,
  • Erlis Saputra

DOI
https://doi.org/10.1155/2023/3121862
Journal volume & issue
Vol. 2023

Abstract

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The province of East Kalimantan is officially designated as the State Capital because the area has the least risk of disaster, even though it cannot be separated from disasters such as forest and land fires. This study aims to determine the spatial pattern of hotspots using SNPP-VIIRS for monitoring potential fires. The research used the descriptive-analytic method to identify the research area and collect secondary data. Secondary data is spatial and nonspatial data consisting of hotspot data from the recording of the SNPP -VIIRS image, including frequency and distribution of hotspots. The data usage from 2012–2021 using SNPP-VIIRS morning and evening recordings. The study results show that the spatial pattern of potential hotspots in the capital city of a new country is quite varied. The spatial pattern of hotspots shows that Kutai Kartanegara Regency as one of the locations for the new State Capital, has the highest number of hotspots, namely 38,970 with the highest accuracy in East Kalimantan Province, namely, 1,616 (low), 36,253 (nominal), and 1,101 (high). The potential for fire disasters in Kutai Kartanegara Regency as an IKN location is high, so planning is urgently needed for future fire prevention, mitigation, and prevention strategies. The spatial pattern of hotspots is known, so it can be used to monitor potential fires and minimize fire occurrences.