Multi-scale lidar measurements suggest miombo woodlands contain substantially more carbon than thought

Miro Demol; Naikoa Aguilar-Amuchastegui; Gabija Bernotaite; Mathias Disney; Laura Duncanson; Elise Elmendorp; Andres Espejo; Allister Furey; Steven Hancock; Johannes Hansen; Harold Horsley; Sara Langa; Mengyu Liang; Annabel Locke; Virgílio Manjate; Francisco Mapanga; Hamidreza Omidvar; Ashleigh Parsons; Elitsa Peneva-Reed; Thomas Perry; Beisit L. Puma Vilca; Pedro Rodríguez-Veiga; Chloe Sutcliffe; Robin Upham; Benoît de Walque; Andrew Burt

doi:10.1038/s43247-024-01448-x

Communications Earth & Environment (Jul 2024)

Multi-scale lidar measurements suggest miombo woodlands contain substantially more carbon than thought

Miro Demol,
Naikoa Aguilar-Amuchastegui,
Gabija Bernotaite,
Mathias Disney,
Laura Duncanson,
Elise Elmendorp,
Andres Espejo,
Allister Furey,
Steven Hancock,
Johannes Hansen,
Harold Horsley,
Sara Langa,
Mengyu Liang,
Annabel Locke,
Virgílio Manjate,
Francisco Mapanga,
Hamidreza Omidvar,
Ashleigh Parsons,
Elitsa Peneva-Reed,
Thomas Perry,
Beisit L. Puma Vilca,
Pedro Rodríguez-Veiga,
Chloe Sutcliffe,
Robin Upham,
Benoît de Walque,
Andrew Burt

Affiliations

Miro Demol: Sylvera Ltd
Naikoa Aguilar-Amuchastegui: The World Bank Group
Gabija Bernotaite: Sylvera Ltd
Mathias Disney: Department of Geography, University College London
Laura Duncanson: Department of Geographical Sciences, University of Maryland
Elise Elmendorp: Sylvera Ltd
Andres Espejo: The World Bank Group
Allister Furey: Sylvera Ltd
Steven Hancock: School of GeoSciences, University of Edinburgh
Johannes Hansen: Sylvera Ltd
Harold Horsley: Sylvera Ltd
Sara Langa: Independent researcher
Mengyu Liang: Department of Geographical Sciences, University of Maryland
Annabel Locke: Sylvera Ltd
Virgílio Manjate: Independent researcher
Francisco Mapanga: Independent researcher
Hamidreza Omidvar: Sylvera Ltd
Ashleigh Parsons: Sylvera Ltd
Elitsa Peneva-Reed: The World Bank Group
Thomas Perry: Sylvera Ltd
Beisit L. Puma Vilca: Sylvera Ltd
Pedro Rodríguez-Veiga: Sylvera Ltd
Chloe Sutcliffe: Sylvera Ltd
Robin Upham: Sylvera Ltd
Benoît de Walque: Sylvera Ltd
Andrew Burt: Sylvera Ltd

DOI: https://doi.org/10.1038/s43247-024-01448-x
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 11

Abstract

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Abstract Miombo woodlands are integral to livelihoods across southern Africa, biodiversity in the region, and the global carbon cycle, making accurate and precise monitoring of their state and change essential. Here, we assembled a terrestrial and airborne lidar dataset covering 50 kha of intact and degraded miombo woodlands, and generated aboveground biomass estimates with low uncertainty via direct 3D measurements of forest structure. We found 1.71 ± 0.09 TgC was stored in aboveground biomass across this landscape, between 1.5 and 2.2 times more than the 0.79–1.14 TgC estimated by conventional methods. This difference is in part owing to the systematic underestimation of large trees by allometry. If these results were extrapolated across Africa’s miombo woodlands, their carbon stock would potentially require an upward revision of approximately 3.7 PgC, implying we currently underestimate their carbon sequestration and emissions potential, and disincentivise their protection and restoration.

Published in Communications Earth & Environment

ISSN: 2662-4435 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Geology; Geography. Anthropology. Recreation: Environmental sciences
Website: https://www.nature.com/commsenv/

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