Recent Trends of Fire Occurrence in Sumatra (Analysis Using MODIS Hotspot Data): A Comparison with Fire Occurrence in Kalimantan

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Open Journal of Forestry

ISSN Print: 2163-0429
ISSN Online: 2163-0437
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"Recent Trends of Fire Occurrence in Sumatra (Analysis Using MODIS Hotspot Data): A Comparison with Fire Occurrence in Kalimantan"
written by Nina Yulianti, Hiroshi Hayasaka, Alpon Sepriando,
published by Open Journal of Forestry, Vol.3 No.4, 2013

has been cited by the following article(s):

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[1]	Anticipating Future Risks of Climate-Driven Wildfires in Boreal Forests
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[2]	Evaluation of MERRA-2 and MODIS C6. 1 aerosol products over Indonesia
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[3]	Optimizing disaster communication for future fire mitigation
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[4]	Fire Hotspot and Particulate Matter (Pm2. 5) Distribution Patterns In Tropical Rainforest Ecosystems Of Batanghari River Basin In July 2021
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[5]	Modelling and analysis impact of El Nino and IOD to land and forest fire using polynomial and generalized logistic function: Cases study in South Sumatra and …
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[6]	Joint Distribution Analysis of Forest Fires and Precipitation in Response to ENSO, IOD, and MJO (Study Case: Sumatra, Indonesia)
	Atmosphere, 2022

[7]	Mapping of Fire Detection Using Visible Infrared Imaging Radiometer Suite Satellite Imagery to Reduce the Risk of Environmental Damage
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[8]	RF, dan Fujiati, P.(2021). Wetland Fires and Its Environmental Conditions
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[9]	Implementation of the ASEAN Agreement on Transboundary Haze Pollution in the Southeast Asia Region
	2021

[10]	Utilization of ECMWF Seasonal Rainfall Forecast System (SEAS5) for forest fire prediction over Sumatera Island, Indonesia
	IOP Conference Series …, 2021

[11]	Fire prevention in managed landscapes: Recent success and challenges in Indonesia
	Mitigation and Adaptation Strategies for …, 2021

[12]	Seasonal Analysis of the Hotspot Spatial Grid in Indonesia and the Relationship of the Hotspot Grid with the Nino SST Indices
	2020

[13]	KARAKTERISTIK SPASIAL DAN TEMPORAL HOTSPOT DI PULAU SUMATERA
	2020

[14]	Assessment of VIIRS 375 m active fire using tropical peatland combustion algorithm applied to Landsat-8 over Indonesia's peatlands
	2020

[15]	DETEKSI KEBAKARAN HUTAN DAN LAHAN MENGGUNAKAN CITRA SATELIT HIMAWARI-8 DI KALIMANTAN TENGAH
	2019

[16]	VP-Hotspot: tool for visualising and predicting hotspot occurrences
	2019

[17]	Release of Radioactive Particulates into the Air during Forest Fire in Riau Province, Indonesia
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[18]	Precipitation–fire linkages in Indonesia (1997–2015)
	Biogeosciences, 2017

[19]	Towards Anticipatory Management of Peat Fires to Enhance Local Resilience and Reduce Natural Capital Depletion
	Ecosystem-Based Disaster Risk Reduction and Adaptation in Practice, 2016

[20]	Modelling spatial patterns of wildfire occurrence in South-Eastern Australia
	Geomatics, Natural Hazards and Risk, 2016

[21]	Development and demonstration of a Lagrangian dispersion modeling system for real‐time prediction of smoke haze pollution from biomass burning in Southeast Asia
	Journal of Geophysical Research: Atmospheres, 2015

[22]	Contribution of vegetation and peat fires to particulate air pollution in Southeast Asia
	Environmental Research Letters, 2014

[23]	Study on Monitoring System for Forest Fires Based on Wireless Sensor Networks
	2014

[1]	Evaluation of MERRA-2 and MODIS C6.1 aerosol products over Indonesia E3S Web of Conferences, 2024 DOI:10.1051/e3sconf/202448506003

[2]	Identifying Peatland Fire Detection and Spatiotemporal Distribution: Implications for Land Use and land Cover Changes in Riau Province, Indonesia 2024 28th International Computer Science and Engineering Conference (ICSEC), 2024 DOI:10.1109/ICSEC62781.2024.10770752

[3]	Joint Distribution Analysis of Forest Fires and Precipitation in Response to ENSO, IOD, and MJO (Study Case: Sumatra, Indonesia) Atmosphere, 2022 DOI:10.3390/atmos13040537

[4]	Modelling and analysis impact of El Nino and IOD to land and forest fire using polynomial and generalized logistic function: cases study in South Sumatra and Kalimantan, Indonesia Modeling Earth Systems and Environment, 2022 DOI:10.1007/s40808-021-01303-4

[5]	Fire prevention in managed landscapes: Recent success and challenges in Indonesia Mitigation and Adaptation Strategies for Global Change, 2021 DOI:10.1007/s11027-021-09965-2

[6]	Assessment of VIIRS 375 m active fire using tropical peatland combustion algorithm applied to Landsat-8 over Indonesia’s peatlands International Journal of Digital Earth, 2020 DOI:10.1080/17538947.2020.1791268

[7]	Seasonal Analysis of the Hotspot Spatial Grid in Indonesia and the Relationship of the Hotspot Grid with the Nino SST Indices 2020 IEEE Asia-Pacific Conference on Geoscience, Electronics and Remote Sensing Technology (AGERS), 2020 DOI:10.1109/AGERS51788.2020.9452775

[8]	Precipitation–fire linkages in Indonesia (1997–2015) Biogeosciences, 2017 DOI:10.5194/bg-14-3995-2017

[9]	Precipitation–fire linkages in Indonesia (1997–2015) Biogeosciences, 2017 DOI:10.5194/bg-14-3995-2017

[10]	Development and demonstration of a Lagrangian dispersion modeling system for real‐time prediction of smoke haze pollution from biomass burning in Southeast Asia Journal of Geophysical Research: Atmospheres, 2015 DOI:10.1002/2015JD023422

[11]	Development and demonstration of a Lagrangian dispersion modeling system for real-time prediction of smoke haze pollution from biomass burning in Southeast Asia Journal of Geophysical Research: Atmospheres, 2015 DOI:10.1002/2015JD023422

[12]	Contribution of vegetation and peat fires to particulate air pollution in Southeast Asia Environmental Research Letters, 2014 DOI:10.1088/1748-9326/9/9/094006

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