Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires

Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires

Tropical savannas and grasslands are the most frequently burned biome in the world, and fire has an important role in sustaining ecosystem processes. Modern management of fires in savannas has roots in traditions stretching back centuries, and nowadays earth observation data is incorporated extensively in fire management practices. In tropical savannas in particular strongly seasonal monsoonal climates allow relatively low severity prescribed burning in the early part of the dry season (EDS) with the goal of preventing more destructive late dry season (LDS) fires. In many regional contexts it is common that a specific, fixed date is used officially to indicate when the window of safe burning has expired and the EDS transitions to the LDS, based on the experience of local or regional fire management authorities. This approach, while practical, neglects inter-annual variability in meteorological conditions and timing of onset of more dangerous fire weather. In this study, we pro-pose a remote sensing-based method for determining when this EDS window expires for five savanna-dominated continental-scale regions. By taking ad- vantage of the fact that conditions allowing night-time burning occur later in the dry season, we use day and night-time active fire detections from the MODerate Resolution Imaging Spectroradiometer (MODIS) instruments to set a flexible date of transition between the EDS and LDS. The vast majority of tropical savannas have very variable (std. dev. ≈ 20–40 days) transition dates, though this is somewhat modulated by fire frequency. Fuel connectivity rather than fuel condition appears to be a strong driving factor behind this variability. We find that especially national parks and protected areas have a high proportion of potentially more severe burning in the LDS, though areas with well-established EDS burning programmes are reducing this impact.

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Main Authors: Eames, Tom, Vernooij, Roland, Russell-Smith, Jeremy, Yates, Cameron, Edwards, Andrew, van der Werf, Guido R.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Active fires, Biomass burning, Earth observation, Fire, Fire management, Fire seasonality, MODIS, Remote sensing, Tropical savanna,
Online Access:https://research.wur.nl/en/publications/division-of-the-tropical-savanna-fire-season-into-early-and-late-
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spelling dig-wur-nl-wurpubs-6238922024-12-04 Eames, Tom Vernooij, Roland Russell-Smith, Jeremy Yates, Cameron Edwards, Andrew van der Werf, Guido R. Article/Letter to editor International Journal of applied Earth Observation and Geoinformation 125 (2023) ISSN: 1569-8432 Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires 2023 Tropical savannas and grasslands are the most frequently burned biome in the world, and fire has an important role in sustaining ecosystem processes. Modern management of fires in savannas has roots in traditions stretching back centuries, and nowadays earth observation data is incorporated extensively in fire management practices. In tropical savannas in particular strongly seasonal monsoonal climates allow relatively low severity prescribed burning in the early part of the dry season (EDS) with the goal of preventing more destructive late dry season (LDS) fires. In many regional contexts it is common that a specific, fixed date is used officially to indicate when the window of safe burning has expired and the EDS transitions to the LDS, based on the experience of local or regional fire management authorities. This approach, while practical, neglects inter-annual variability in meteorological conditions and timing of onset of more dangerous fire weather. In this study, we pro-pose a remote sensing-based method for determining when this EDS window expires for five savanna-dominated continental-scale regions. By taking ad- vantage of the fact that conditions allowing night-time burning occur later in the dry season, we use day and night-time active fire detections from the MODerate Resolution Imaging Spectroradiometer (MODIS) instruments to set a flexible date of transition between the EDS and LDS. The vast majority of tropical savannas have very variable (std. dev. ≈ 20–40 days) transition dates, though this is somewhat modulated by fire frequency. Fuel connectivity rather than fuel condition appears to be a strong driving factor behind this variability. We find that especially national parks and protected areas have a high proportion of potentially more severe burning in the LDS, though areas with well-established EDS burning programmes are reducing this impact. en application/pdf https://research.wur.nl/en/publications/division-of-the-tropical-savanna-fire-season-into-early-and-late- 10.1016/j.jag.2023.103575 https://edepot.wur.nl/645613 Active fires Biomass burning Earth observation Fire Fire management Fire seasonality MODIS Remote sensing Tropical savanna https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Active fires
Biomass burning
Earth observation
Fire
Fire management
Fire seasonality
MODIS
Remote sensing
Tropical savanna
Active fires
Biomass burning
Earth observation
Fire
Fire management
Fire seasonality
MODIS
Remote sensing
Tropical savanna
spellingShingle Active fires
Biomass burning
Earth observation
Fire
Fire management
Fire seasonality
MODIS
Remote sensing
Tropical savanna
Active fires
Biomass burning
Earth observation
Fire
Fire management
Fire seasonality
MODIS
Remote sensing
Tropical savanna
Eames, Tom
Vernooij, Roland
Russell-Smith, Jeremy
Yates, Cameron
Edwards, Andrew
van der Werf, Guido R.
Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires
description Tropical savannas and grasslands are the most frequently burned biome in the world, and fire has an important role in sustaining ecosystem processes. Modern management of fires in savannas has roots in traditions stretching back centuries, and nowadays earth observation data is incorporated extensively in fire management practices. In tropical savannas in particular strongly seasonal monsoonal climates allow relatively low severity prescribed burning in the early part of the dry season (EDS) with the goal of preventing more destructive late dry season (LDS) fires. In many regional contexts it is common that a specific, fixed date is used officially to indicate when the window of safe burning has expired and the EDS transitions to the LDS, based on the experience of local or regional fire management authorities. This approach, while practical, neglects inter-annual variability in meteorological conditions and timing of onset of more dangerous fire weather. In this study, we pro-pose a remote sensing-based method for determining when this EDS window expires for five savanna-dominated continental-scale regions. By taking ad- vantage of the fact that conditions allowing night-time burning occur later in the dry season, we use day and night-time active fire detections from the MODerate Resolution Imaging Spectroradiometer (MODIS) instruments to set a flexible date of transition between the EDS and LDS. The vast majority of tropical savannas have very variable (std. dev. ≈ 20–40 days) transition dates, though this is somewhat modulated by fire frequency. Fuel connectivity rather than fuel condition appears to be a strong driving factor behind this variability. We find that especially national parks and protected areas have a high proportion of potentially more severe burning in the LDS, though areas with well-established EDS burning programmes are reducing this impact.
format Article/Letter to editor
topic_facet Active fires
Biomass burning
Earth observation
Fire
Fire management
Fire seasonality
MODIS
Remote sensing
Tropical savanna
author Eames, Tom
Vernooij, Roland
Russell-Smith, Jeremy
Yates, Cameron
Edwards, Andrew
van der Werf, Guido R.
author_facet Eames, Tom
Vernooij, Roland
Russell-Smith, Jeremy
Yates, Cameron
Edwards, Andrew
van der Werf, Guido R.
author_sort Eames, Tom
title Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires
title_short Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires
title_full Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires
title_fullStr Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires
title_full_unstemmed Division of the tropical savanna fire season into early and late dry season burning using MODIS active fires
title_sort division of the tropical savanna fire season into early and late dry season burning using modis active fires
url https://research.wur.nl/en/publications/division-of-the-tropical-savanna-fire-season-into-early-and-late-
work_keys_str_mv AT eamestom divisionofthetropicalsavannafireseasonintoearlyandlatedryseasonburningusingmodisactivefires
AT vernooijroland divisionofthetropicalsavannafireseasonintoearlyandlatedryseasonburningusingmodisactivefires
AT russellsmithjeremy divisionofthetropicalsavannafireseasonintoearlyandlatedryseasonburningusingmodisactivefires
AT yatescameron divisionofthetropicalsavannafireseasonintoearlyandlatedryseasonburningusingmodisactivefires
AT edwardsandrew divisionofthetropicalsavannafireseasonintoearlyandlatedryseasonburningusingmodisactivefires
AT vanderwerfguidor divisionofthetropicalsavannafireseasonintoearlyandlatedryseasonburningusingmodisactivefires
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