Opportunities and challenges for savanna burning emissions abatement in southern Africa

Jeremy Russell-Smith; Cameron Yates; Roland Vernooij; Tom Eames; Guido van der Werf; Natasha Ribeiro; Andrew Edwards; Robin Beatty; Othusitse Lekoko; Jomo Mafoko; Catherine Monagle; Sam Johnston

doi:10.1016/j.jenvman.2021.112414

Opportunities and challenges for savanna burning emissions abatement in southern Africa

Jeremy Russell-Smith^*, Cameron Yates, Roland Vernooij, Tom Eames, Guido van der Werf, Natasha Ribeiro, Andrew Edwards, Robin Beatty, Othusitse Lekoko, Jomo Mafoko, Catherine Monagle, Sam Johnston

^*Corresponding author for this work

Research output: Contribution to Journal › Article › Academic › peer-review

Abstract

Savanna fires occurring in sub-Saharan Africa account for over 60% of global fire extent, of which more than half occurs in the Southern Hemisphere contributing ~29% of global fire emissions. Building on experience in reducing savanna fire emissions in fire-prone north Australian savannas through implementation of an internationally accredited ‘savanna burning’ emissions abatement methodology, we explore opportunities and challenges associated with the application of a similar approach to incentivise emissions reduction in fire-prone southern African savannas. We first show that for a focal region covering seven contiguous countries, at least 80% of annual savanna large fire (>250 ha) extent and emissions occur under relatively severe late dry season (LDS) fire-weather conditions, predominantly in sparsely inhabited areas. We then assess the feasibility of adapting the Australian emissions abatement methodology through exploratory field studies at the Tsodilo Hills World Heritage site in north-west Botswana, and the Niassa Special Reserve in northern Mozambique. Our assessment demonstrates that application of a savanna burning emissions abatement method focused on the undertaking of strategically located early dry season (EDS) burning to reduce LDS wildfire extent and resultant emissions meets key technical criteria, including: LDS fine fuels tend to be markedly greater than EDS fuels given seasonal leaf litter inputs; LDS fires tend to be significantly more severe and combust more fuels; methane and nitrous oxide emission factors are essentially equivalent in EDS and LDS periods under cured fuel conditions. In discussion we consider associated key implementation challenges and caveats that need to be addressed for progressing development of savanna burning methods that incentivise sustainable fire management, reduce emissions, and support community livelihoods in wildfire-dominated southern African savannas.

Original language	English
Article number	112414
Journal	Journal of Environmental Management
Volume	288
DOIs	https://doi.org/10.1016/j.jenvman.2021.112414 https://doi.org/10.1016/j.jenvman.2021.112414
Publication status	Published - 15 Jun 2021

Bibliographical note

Funding Information:
Core funding for the work presented here was provided by a grant from Australia's Department of Foreign Affairs & Trade. Additionally, RV, TE, GvdW were supported by grants from KNAW AMMODO and the Netherlands Organisation for Scientific Research (NWO).Research in Botswana reported here was undertaken under Research Permit ENT 8/36/4 XLVI (91), supported by the Botswana Savanna Burning Pilot Study Agreement between the Governments of Botswana and Australia, implemented through Botswana's Dept Forestry & Range Resources (Ministry of Environment, Natural Resources Conservation & Tourism), and Australia's International Savanna Fire Management Initiative. In Botswana, we acknowledge (1) the enthusiastic support of the Tsodilo Community Development Trust, especially the assistances of Nxisae Kiema, Boo Xuma, Tsetsana Xixae, Keoikantse Mothaba, Morgan Samochao, Xomae Xing; (2) the University of Botswana's Okavango Research Institute, especially technical expertise provided by Dr Richard Fynn, Tshephang Keemekae, Frances Murray-Hudson; and (3) our field colleagues Sean Lange and Diane Lucas. In Mozambique, we thank the guidance and assistance provided by Dr Franziska Steinbruch (Wildlife Conservation Society) and Baldeu Chande (National Conservation Areas Administration). The manuscript was substantially improved thanks to anonymous referees.

Funding Information:
Core funding for the work presented here was provided by a grant from Australia's Department of Foreign Affairs & Trade. Additionally, RV, TE, GvdW were supported by grants from KNAW AMMODO and the Netherlands Organisation for Scientific Research ( NWO ).

Funding Information:
Research in Botswana reported here was undertaken under Research Permit ENT 8/36/4 XLVI (91), supported by the Botswana Savanna Burning Pilot Study Agreement between the Governments of Botswana and Australia, implemented through Botswana's Dept Forestry & Range Resources ( Ministry of Environment , Natural Resources Conservation & Tourism), and Australia's International Savanna Fire Management Initiative. In Botswana, we acknowledge (1) the enthusiastic support of the Tsodilo Community Development Trust, especially the assistances of Nxisae Kiema, Boo Xuma, Tsetsana Xixae, Keoikantse Mothaba, Morgan Samochao, Xomae Xing; (2) the University of Botswana's Okavango Research Institute, especially technical expertise provided by Dr Richard Fynn, Tshephang Keemekae, Frances Murray-Hudson; and (3) our field colleagues Sean Lange and Diane Lucas. In Mozambique, we thank the guidance and assistance provided by Dr Franziska Steinbruch (Wildlife Conservation Society) and Baldeu Chande (National Conservation Areas Administration). The manuscript was substantially improved thanks to anonymous referees.

Publisher Copyright:
© 2021 Elsevier Ltd

Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.

Keywords

Biomass burning
Botswana
Emission factors
Fire management
Livelihood benefits
Mozambique

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

Handle.net

Persistent link

Cite this

Russell-Smith, J., Yates, C., Vernooij, R., Eames, T., van der Werf, G., Ribeiro, N., Edwards, A., Beatty, R., Lekoko, O., Mafoko, J., Monagle, C., & Johnston, S. (2021). Opportunities and challenges for savanna burning emissions abatement in southern Africa. Journal of Environmental Management, 288, [112414]. https://doi.org/10.1016/j.jenvman.2021.112414, https://doi.org/10.1016/j.jenvman.2021.112414

@article{767e526a26194ae1ad7fea10b9f23fdb,

title = "Opportunities and challenges for savanna burning emissions abatement in southern Africa",

abstract = "Savanna fires occurring in sub-Saharan Africa account for over 60% of global fire extent, of which more than half occurs in the Southern Hemisphere contributing ~29% of global fire emissions. Building on experience in reducing savanna fire emissions in fire-prone north Australian savannas through implementation of an internationally accredited {\textquoteleft}savanna burning{\textquoteright} emissions abatement methodology, we explore opportunities and challenges associated with the application of a similar approach to incentivise emissions reduction in fire-prone southern African savannas. We first show that for a focal region covering seven contiguous countries, at least 80% of annual savanna large fire (>250 ha) extent and emissions occur under relatively severe late dry season (LDS) fire-weather conditions, predominantly in sparsely inhabited areas. We then assess the feasibility of adapting the Australian emissions abatement methodology through exploratory field studies at the Tsodilo Hills World Heritage site in north-west Botswana, and the Niassa Special Reserve in northern Mozambique. Our assessment demonstrates that application of a savanna burning emissions abatement method focused on the undertaking of strategically located early dry season (EDS) burning to reduce LDS wildfire extent and resultant emissions meets key technical criteria, including: LDS fine fuels tend to be markedly greater than EDS fuels given seasonal leaf litter inputs; LDS fires tend to be significantly more severe and combust more fuels; methane and nitrous oxide emission factors are essentially equivalent in EDS and LDS periods under cured fuel conditions. In discussion we consider associated key implementation challenges and caveats that need to be addressed for progressing development of savanna burning methods that incentivise sustainable fire management, reduce emissions, and support community livelihoods in wildfire-dominated southern African savannas.",

keywords = "Biomass burning, Botswana, Emission factors, Fire management, Livelihood benefits, Mozambique",

author = "Jeremy Russell-Smith and Cameron Yates and Roland Vernooij and Tom Eames and {van der Werf}, Guido and Natasha Ribeiro and Andrew Edwards and Robin Beatty and Othusitse Lekoko and Jomo Mafoko and Catherine Monagle and Sam Johnston",

note = "Funding Information: Core funding for the work presented here was provided by a grant from Australia's Department of Foreign Affairs & Trade. Additionally, RV, TE, GvdW were supported by grants from KNAW AMMODO and the Netherlands Organisation for Scientific Research (NWO).Research in Botswana reported here was undertaken under Research Permit ENT 8/36/4 XLVI (91), supported by the Botswana Savanna Burning Pilot Study Agreement between the Governments of Botswana and Australia, implemented through Botswana's Dept Forestry & Range Resources (Ministry of Environment, Natural Resources Conservation & Tourism), and Australia's International Savanna Fire Management Initiative. In Botswana, we acknowledge (1) the enthusiastic support of the Tsodilo Community Development Trust, especially the assistances of Nxisae Kiema, Boo Xuma, Tsetsana Xixae, Keoikantse Mothaba, Morgan Samochao, Xomae Xing; (2) the University of Botswana's Okavango Research Institute, especially technical expertise provided by Dr Richard Fynn, Tshephang Keemekae, Frances Murray-Hudson; and (3) our field colleagues Sean Lange and Diane Lucas. In Mozambique, we thank the guidance and assistance provided by Dr Franziska Steinbruch (Wildlife Conservation Society) and Baldeu Chande (National Conservation Areas Administration). The manuscript was substantially improved thanks to anonymous referees. Funding Information: Core funding for the work presented here was provided by a grant from Australia's Department of Foreign Affairs & Trade. Additionally, RV, TE, GvdW were supported by grants from KNAW AMMODO and the Netherlands Organisation for Scientific Research ( NWO ). Funding Information: Research in Botswana reported here was undertaken under Research Permit ENT 8/36/4 XLVI (91), supported by the Botswana Savanna Burning Pilot Study Agreement between the Governments of Botswana and Australia, implemented through Botswana's Dept Forestry & Range Resources ( Ministry of Environment , Natural Resources Conservation & Tourism), and Australia's International Savanna Fire Management Initiative. In Botswana, we acknowledge (1) the enthusiastic support of the Tsodilo Community Development Trust, especially the assistances of Nxisae Kiema, Boo Xuma, Tsetsana Xixae, Keoikantse Mothaba, Morgan Samochao, Xomae Xing; (2) the University of Botswana's Okavango Research Institute, especially technical expertise provided by Dr Richard Fynn, Tshephang Keemekae, Frances Murray-Hudson; and (3) our field colleagues Sean Lange and Diane Lucas. In Mozambique, we thank the guidance and assistance provided by Dr Franziska Steinbruch (Wildlife Conservation Society) and Baldeu Chande (National Conservation Areas Administration). The manuscript was substantially improved thanks to anonymous referees. Publisher Copyright: {\textcopyright} 2021 Elsevier Ltd Copyright: Copyright 2021 Elsevier B.V., All rights reserved.",

year = "2021",

month = jun,

day = "15",

doi = "10.1016/j.jenvman.2021.112414",

language = "English",

volume = "288",

journal = "Journal of Environmental Management",

issn = "0301-4797",

publisher = "Academic Press Inc.",

}

Russell-Smith, J, Yates, C, Vernooij, R, Eames, T, van der Werf, G, Ribeiro, N, Edwards, A, Beatty, R, Lekoko, O, Mafoko, J, Monagle, C & Johnston, S 2021, 'Opportunities and challenges for savanna burning emissions abatement in southern Africa', Journal of Environmental Management, vol. 288, 112414. https://doi.org/10.1016/j.jenvman.2021.112414, https://doi.org/10.1016/j.jenvman.2021.112414

TY - JOUR

T1 - Opportunities and challenges for savanna burning emissions abatement in southern Africa

AU - Russell-Smith, Jeremy

AU - Yates, Cameron

AU - Vernooij, Roland

AU - Eames, Tom

AU - van der Werf, Guido

AU - Ribeiro, Natasha

AU - Edwards, Andrew

AU - Beatty, Robin

AU - Lekoko, Othusitse

AU - Mafoko, Jomo

AU - Monagle, Catherine

AU - Johnston, Sam

N1 - Funding Information: Core funding for the work presented here was provided by a grant from Australia's Department of Foreign Affairs & Trade. Additionally, RV, TE, GvdW were supported by grants from KNAW AMMODO and the Netherlands Organisation for Scientific Research (NWO).Research in Botswana reported here was undertaken under Research Permit ENT 8/36/4 XLVI (91), supported by the Botswana Savanna Burning Pilot Study Agreement between the Governments of Botswana and Australia, implemented through Botswana's Dept Forestry & Range Resources (Ministry of Environment, Natural Resources Conservation & Tourism), and Australia's International Savanna Fire Management Initiative. In Botswana, we acknowledge (1) the enthusiastic support of the Tsodilo Community Development Trust, especially the assistances of Nxisae Kiema, Boo Xuma, Tsetsana Xixae, Keoikantse Mothaba, Morgan Samochao, Xomae Xing; (2) the University of Botswana's Okavango Research Institute, especially technical expertise provided by Dr Richard Fynn, Tshephang Keemekae, Frances Murray-Hudson; and (3) our field colleagues Sean Lange and Diane Lucas. In Mozambique, we thank the guidance and assistance provided by Dr Franziska Steinbruch (Wildlife Conservation Society) and Baldeu Chande (National Conservation Areas Administration). The manuscript was substantially improved thanks to anonymous referees. Funding Information: Core funding for the work presented here was provided by a grant from Australia's Department of Foreign Affairs & Trade. Additionally, RV, TE, GvdW were supported by grants from KNAW AMMODO and the Netherlands Organisation for Scientific Research ( NWO ). Funding Information: Research in Botswana reported here was undertaken under Research Permit ENT 8/36/4 XLVI (91), supported by the Botswana Savanna Burning Pilot Study Agreement between the Governments of Botswana and Australia, implemented through Botswana's Dept Forestry & Range Resources ( Ministry of Environment , Natural Resources Conservation & Tourism), and Australia's International Savanna Fire Management Initiative. In Botswana, we acknowledge (1) the enthusiastic support of the Tsodilo Community Development Trust, especially the assistances of Nxisae Kiema, Boo Xuma, Tsetsana Xixae, Keoikantse Mothaba, Morgan Samochao, Xomae Xing; (2) the University of Botswana's Okavango Research Institute, especially technical expertise provided by Dr Richard Fynn, Tshephang Keemekae, Frances Murray-Hudson; and (3) our field colleagues Sean Lange and Diane Lucas. In Mozambique, we thank the guidance and assistance provided by Dr Franziska Steinbruch (Wildlife Conservation Society) and Baldeu Chande (National Conservation Areas Administration). The manuscript was substantially improved thanks to anonymous referees. Publisher Copyright: © 2021 Elsevier Ltd Copyright: Copyright 2021 Elsevier B.V., All rights reserved.

PY - 2021/6/15

Y1 - 2021/6/15

N2 - Savanna fires occurring in sub-Saharan Africa account for over 60% of global fire extent, of which more than half occurs in the Southern Hemisphere contributing ~29% of global fire emissions. Building on experience in reducing savanna fire emissions in fire-prone north Australian savannas through implementation of an internationally accredited ‘savanna burning’ emissions abatement methodology, we explore opportunities and challenges associated with the application of a similar approach to incentivise emissions reduction in fire-prone southern African savannas. We first show that for a focal region covering seven contiguous countries, at least 80% of annual savanna large fire (>250 ha) extent and emissions occur under relatively severe late dry season (LDS) fire-weather conditions, predominantly in sparsely inhabited areas. We then assess the feasibility of adapting the Australian emissions abatement methodology through exploratory field studies at the Tsodilo Hills World Heritage site in north-west Botswana, and the Niassa Special Reserve in northern Mozambique. Our assessment demonstrates that application of a savanna burning emissions abatement method focused on the undertaking of strategically located early dry season (EDS) burning to reduce LDS wildfire extent and resultant emissions meets key technical criteria, including: LDS fine fuels tend to be markedly greater than EDS fuels given seasonal leaf litter inputs; LDS fires tend to be significantly more severe and combust more fuels; methane and nitrous oxide emission factors are essentially equivalent in EDS and LDS periods under cured fuel conditions. In discussion we consider associated key implementation challenges and caveats that need to be addressed for progressing development of savanna burning methods that incentivise sustainable fire management, reduce emissions, and support community livelihoods in wildfire-dominated southern African savannas.

AB - Savanna fires occurring in sub-Saharan Africa account for over 60% of global fire extent, of which more than half occurs in the Southern Hemisphere contributing ~29% of global fire emissions. Building on experience in reducing savanna fire emissions in fire-prone north Australian savannas through implementation of an internationally accredited ‘savanna burning’ emissions abatement methodology, we explore opportunities and challenges associated with the application of a similar approach to incentivise emissions reduction in fire-prone southern African savannas. We first show that for a focal region covering seven contiguous countries, at least 80% of annual savanna large fire (>250 ha) extent and emissions occur under relatively severe late dry season (LDS) fire-weather conditions, predominantly in sparsely inhabited areas. We then assess the feasibility of adapting the Australian emissions abatement methodology through exploratory field studies at the Tsodilo Hills World Heritage site in north-west Botswana, and the Niassa Special Reserve in northern Mozambique. Our assessment demonstrates that application of a savanna burning emissions abatement method focused on the undertaking of strategically located early dry season (EDS) burning to reduce LDS wildfire extent and resultant emissions meets key technical criteria, including: LDS fine fuels tend to be markedly greater than EDS fuels given seasonal leaf litter inputs; LDS fires tend to be significantly more severe and combust more fuels; methane and nitrous oxide emission factors are essentially equivalent in EDS and LDS periods under cured fuel conditions. In discussion we consider associated key implementation challenges and caveats that need to be addressed for progressing development of savanna burning methods that incentivise sustainable fire management, reduce emissions, and support community livelihoods in wildfire-dominated southern African savannas.

KW - Biomass burning

KW - Botswana

KW - Emission factors

KW - Fire management

KW - Livelihood benefits

KW - Mozambique

UR - http://www.scopus.com/inward/record.url?scp=85103699739&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85103699739&partnerID=8YFLogxK

U2 - 10.1016/j.jenvman.2021.112414

DO - 10.1016/j.jenvman.2021.112414

M3 - Article

VL - 288

JO - Journal of Environmental Management

JF - Journal of Environmental Management

SN - 0301-4797

M1 - 112414

ER -

Opportunities and challenges for savanna burning emissions abatement in southern Africa

Abstract

Bibliographical note

Keywords

UN SDGs

Access to Document

Handle.net

Other files and links

Fingerprint

Cite this