IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING

IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING

Wildfires threaten the environment not only at local scales, but also at wider scales. Rapid monitoring system to detect active wildfires has been provided by satellite remote sensing technology, particularly through the advancement on thermal infrared sensors. However, satellite-based fire hotspots...

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Main Authors: Yudi Setiawan, Lilik Budi Prasetyo, Hidayat Pawitan, Prita Ayu Permatasari, Desi Suyamto, Arif Kurnia Wijayanto
Format: Article
Language:English
Published: Bogor Agricultural University 2018-12-01
Series:Journal of Natural Resources and Environmental Management
Subjects:
Forest fire
active fire
peatland
agent-based model
Online Access:https://journal.ipb.ac.id/index.php/jpsl/article/view/24760
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spelling doaj-7fde17c92fa64e319146885445536d1a2020-11-25T00:47:46ZengBogor Agricultural UniversityJournal of Natural Resources and Environmental Management2086-46392460-58242018-12-018310.29244/jpsl.8.3.420-427IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELINGYudi Setiawan0Lilik Budi Prasetyo1Hidayat Pawitan2Prita Ayu Permatasari3Desi Suyamto4Arif Kurnia Wijayanto5Pusat Penelitian Lingkungan Hidup, Lembaga Penelitian dan Pengembangan kepada Masyarakat (PPLH-LPPM), Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680Departemen Konservasi Sumberdaya Hutan dan Ekowisata, Fakultas Kehutanan, Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680Departemen Geofisika dan Meteorologi, Fakultas Matematika dan Ilmu Pengetahuan Alam, Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680Pusat Penelitian Lingkungan Hidup, Lembaga Penelitian dan Pengembangan kepada Masyarakat (PPLH-LPPM), Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680Forests 2020 Collaborative Program, Fakultas Kehutanan, Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680Pusat Penelitian Lingkungan Hidup, Lembaga Penelitian dan Pengembangan kepada Masyarakat (PPLH-LPPM), Institut Pertanian Bogor, Kampus IPB Darmaga, Bogor 16680Wildfires threaten the environment not only at local scales, but also at wider scales. Rapid monitoring system to detect active wildfires has been provided by satellite remote sensing technology, particularly through the advancement on thermal infrared sensors. However, satellite-based fire hotspots data, even at relatively high temporal resolution of less than one-day revisit period, such as time series of fire hotspots collected from TERRA and AQUA MODIS, do not tell exactly if they are fire ignitions or fire escapes, since other factors like wind, slope, and fuel biomass significantly drive the fire spread. Meanwhile, a number of biophysical fire simulation models have been developed, as tools to understand the roles of biophysical factors on the spread of wildfires.  Those models explicitly incorporate effects of slope, wind direction, wind speed, and vegetative fuel on the spreading rate of surface fire from the ignition points across a fuel bed, based on either field or laboratory experiments.  Nevertheless, none of those models have been implemented using real time fire data at relatively large extent areas. This study is aimed at incorporating spatially explicit time series data of weather (i.e. wind direction and wind speed), remotely sensed fuel biomass and remotely sensed fire hotspots, as well as incorporating more persistent biophysical factors (i.e. terrain), into an agent-based fire spread model, in order to identify fire ignitions within time series of remotely sensed fire hotspots.https://journal.ipb.ac.id/index.php/jpsl/article/view/24760Forest fireactive firepeatlandagent-based model
collection DOAJ
language English
format Article
sources DOAJ
author Yudi Setiawan
Lilik Budi Prasetyo
Hidayat Pawitan
Prita Ayu Permatasari
Desi Suyamto
Arif Kurnia Wijayanto
spellingShingle Yudi Setiawan
Lilik Budi Prasetyo
Hidayat Pawitan
Prita Ayu Permatasari
Desi Suyamto
Arif Kurnia Wijayanto
IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING
Journal of Natural Resources and Environmental Management
Forest fire
active fire
peatland
agent-based model
author_facet Yudi Setiawan
Lilik Budi Prasetyo
Hidayat Pawitan
Prita Ayu Permatasari
Desi Suyamto
Arif Kurnia Wijayanto
author_sort Yudi Setiawan
title IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING
title_short IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING
title_full IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING
title_fullStr IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING
title_full_unstemmed IDENTIFYING AREAS AFFECTED BY FIRES IN SUMATRA BASED ON TIME SERIES OF REMOTELY SENSED FIRE HOTSPOTS AND SPATIAL MODELING
title_sort identifying areas affected by fires in sumatra based on time series of remotely sensed fire hotspots and spatial modeling
publisher Bogor Agricultural University
series Journal of Natural Resources and Environmental Management
issn 2086-4639
2460-5824
publishDate 2018-12-01
description Wildfires threaten the environment not only at local scales, but also at wider scales. Rapid monitoring system to detect active wildfires has been provided by satellite remote sensing technology, particularly through the advancement on thermal infrared sensors. However, satellite-based fire hotspots data, even at relatively high temporal resolution of less than one-day revisit period, such as time series of fire hotspots collected from TERRA and AQUA MODIS, do not tell exactly if they are fire ignitions or fire escapes, since other factors like wind, slope, and fuel biomass significantly drive the fire spread. Meanwhile, a number of biophysical fire simulation models have been developed, as tools to understand the roles of biophysical factors on the spread of wildfires.  Those models explicitly incorporate effects of slope, wind direction, wind speed, and vegetative fuel on the spreading rate of surface fire from the ignition points across a fuel bed, based on either field or laboratory experiments.  Nevertheless, none of those models have been implemented using real time fire data at relatively large extent areas. This study is aimed at incorporating spatially explicit time series data of weather (i.e. wind direction and wind speed), remotely sensed fuel biomass and remotely sensed fire hotspots, as well as incorporating more persistent biophysical factors (i.e. terrain), into an agent-based fire spread model, in order to identify fire ignitions within time series of remotely sensed fire hotspots.
topic Forest fire
active fire
peatland
agent-based model
url https://journal.ipb.ac.id/index.php/jpsl/article/view/24760
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AT arifkurniawijayanto identifyingareasaffectedbyfiresinsumatrabasedontimeseriesofremotelysensedfirehotspotsandspatialmodeling
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