Widespread carbon-dense peatlands in the Colombian lowlands

R. Scott Winton; Juan C. Benavides; Edmundo Mendoza; Antje Uhde; Adam Hastie; Euridice N. Honorio Coronado; Andres Giovanny Hernandez Ortega; Stella Paukku; Bailey Mullins; Jhon del Aguila Pasquel; Gerardo A. Aymard-Corredor; Tim R. Baker; Freddie C. Draper; Gerardo Flores Llampazo; Rafael Herrera; Oliver L. Phillips; Jose Manuel Reyna Huaymacari; Hans ter Steege; Juliana Stropp; Ian T. Lawson; Angela Gallego-Sala; Arnoud Boom; Bernhard Wehrli; Alison M. Hoyt

doi:10.1088/1748-9326/adbc03

Widespread carbon-dense peatlands in the Colombian lowlands

R. Scott Winton, Juan C. Benavides, Edmundo Mendoza, Antje Uhde, Adam Hastie, Euridice N. Honorio Coronado, Andres Giovanny Hernandez Ortega, Stella Paukku, Bailey Mullins, Jhon del Aguila Pasquel, Gerardo A. Aymard-Corredor, Tim R. Baker, Freddie C. Draper, Gerardo Flores Llampazo, Rafael Herrera, Oliver L. Phillips, Jose Manuel Reyna Huaymacari, Hans ter Steege, Juliana Stropp, Ian T. LawsonAngela Gallego-Sala, Arnoud Boom, Bernhard Wehrli, Alison M. Hoyt

Sub Ecology and Biodiversity

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

Abstract

Peatlands are some of the world's most carbon-dense ecosystems and release substantial quantities of greenhouse gases when degraded. However, conserving peatlands in many tropical areas is challenging due to limited knowledge of their distribution. To address this, we surveyed soils and plant communities in Colombia's eastern lowlands, where few peatlands have previously been described. We documented peat soils >40 cm thick at 51 of more than 100 surveyed wetlands. We use our data to update a regional peatland classification, which includes a new and possibly widespread peatland type, 'the white-sand peatland,' as well as two distinctive open-canopy sub-types. Analysis of peat bulk density and organic matter content from 39 intact peat cores indicates that the average per-area carbon densities of these sites (490-1230 Mg C ha(-1), depending on type) is 4-10 times the typical carbon stock of a (non-peatland) Amazonian forest. We used remote sensing to upscale our observations, generating the first data-driven peatland map for the region. The total estimated carbon stock of these peatlands of 1.91 petagrams (Pg C) (2-sigma confidence interval, 0.60-4.22) approaches that of South America's largest known peatland complex in the northern Peruvian Amazon, indicating that substantial peat carbon stores on the continent have yet to be documented. These observations indicate that tropical peatlands may be far more diverse in form and structure and broadly distributed than is widely understood, which could have important implications for tropical peatland conservation strategies.

Original language	English
Article number	054025
Pages (from-to)	1-14
Number of pages	14
Journal	Environmental Research Letters
Volume	20
Issue number	5
DOIs	https://doi.org/10.1088/1748-9326/adbc03
Publication status	Published - 1 May 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Published by IOP Publishing Ltd.

Funding

We thank Fundaci\u00F3n Horizonte Verde for helping administer and manage field activities. Jack Lamb, Ellie Walker, Carla Nicolini, Ari Barbella-Blaha and Ruby Gates analyzed peat samples via loss on ignition. Javier Mauricio Martin and Lou Verchot provided valuable insights into the status of soil types in the Casanare Department during field campaign planning. David Medeiros advised on map aesthetics for figure 1. Anamaria Rozo Perez (Javeriana) processed soil samples in the laboratory at Pontificia Universidad Javeriana in Bogota. Juan Carlos Berrio provided advice on potential peatland sites in the Meta Department. Gina Santofimio-Tamayo provided valuable advice on field methods and potential areas of peatlands in the Caquet\u00E1 Department. Francisco Castro conducted floristic surveys for sites in the Guaviare and Vaup\u00E9s Departments. Jair Felipe Restrepo Ca\u00F1ola conducted floristic surveys for some sites in the Meta and Guainia Departments. Henry Arellano-Pe\u00F1a, Rodolfo Vasquez Martinez and Abel Monteagudo-Mendoza contributed forest plot data. Tiia M\u00E4\u00E4tt\u00E4 contributed original vector graphics of palms for figure 4, with additional clipart licensed from Biorender. This project has been supported by ForestPlots.net approved Research Project # 179. \u2018Flora of Colombian Peatlands\u2019. The development of ForestPlots.net and data curation has been funded by several Grants, including NE/B503384/1, NE/N012542/1, ERC Advanced Grant 291585\u2014\u2018T-FORCES\u2019, and the Gordon and Betty Moore Foundation. King Center on Global Development at Stanford University (R S W, A M H). Swiss National Science Foundation grant 190328 (R S W). NERC Knowledge Exchange Fellowship grant NE/V018760/1 and NE/V018760/2 (E N H C). International Max Planck Research School for Global Biogeochemical Cycles (A U). European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation programme grant agreement No 865403 (A G S). Charles University (PRIMUS/23/SCI/013), Charles University Research Centre program (UNCE/24/SCI/006) and the OP JAK programme \u2018Natural and anthropogenic geohazards\u2019 (CZ.02.01.01/00/22_008/0004605) (A H). National Science Foundation award 2406964 (A M H). National Academy of Sciences NAS-PEER grant sub-award 2000012206 (J C B D). European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation programme grant agreement No 865403 (A G S). We thank Fundaci\u00F3n Horizonte Verde for helping administer and manage field activities. Jack Lamb, Ellie Walker, Carla Nicolini, Ari Barbella-Blaha and Ruby Gates analyzed peat samples via loss on ignition. Javier Mauricio Martin and Lou Verchot provided valuable insights into the status of soil types in the Casanare Department during field campaign planning. David Medeiros advised on map aesthetics for figure . Anamaria Rozo Perez (Javeriana) processed soil samples in the laboratory at Pontificia Universidad Javeriana in Bogota. Juan Carlos Berrio provided advice on potential peatland sites in the Meta Department. Gina Santofimio-Tamayo provided valuable advice on field methods and potential areas of peatlands in the Caquet\u00E1 Department. Francisco Castro conducted floristic surveys for sites in the Guaviare and Vaup\u00E9s Departments. Jair Felipe Restrepo Ca\u00F1ola conducted floristic surveys for some sites in the Meta and Guainia Departments. Henry Arellano-Pe\u00F1a, Rodolfo Vasquez Martinez and Abel Monteagudo-Mendoza contributed forest plot data. Tiia M\u00E4\u00E4tt\u00E4 contributed original vector graphics of palms for figure , with additional clipart licensed from Biorender. This project has been supported by ForestPlots.net approved Research Project # 179. \u2018Flora of Colombian Peatlands\u2019. The development of ForestPlots.net and data curation has been funded by several Grants, including NE/B503384/1, NE/N012542/1, ERC Advanced Grant 291585\u2014\u2018T-FORCES\u2019, and the Gordon and Betty Moore Foundation. National Science Foundation award 2406964 (A M H). Swiss National Science Foundation grant 190328 (R S W). NERC Knowledge Exchange Fellowship grant NE/V018760/1 and NE/V018760/2 (E N H C).

Funders	Funder number
Pontificia Universidad Javeriana in Bogota
Fundación Horizonte Verde
European Research Council
Gordon and Betty Moore Foundation
Engineering Research Centers	291585
National Science Foundation	2406964 (A M H
Meta Department	NE/N012542/1, 179, NE/B503384/1
Horizon 2020 Framework Programme	865403
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung	190328 (R S W
Natural Environment Research Council	NE/V018760/1, NE/V018760/2 (E N H C
National Academy of Sciences NAS-PEER	2000012206
Univerzita Karlova v Praze	UNCE/24/SCI/006, CZ.02.01.01/00/22_008/0004605, PRIMUS/23/SCI/013

Keywords

Amazonia
carbon cycle
peatlands
tropical ecology
wetlands

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Winton_2025_Environ._Res._Lett._20_054025Final published version, 4.28 MBLicence: CC BY

Cite this

Winton, R. S., Benavides, J. C., Mendoza, E., Uhde, A., Hastie, A., Coronado, E. N. H., Ortega, A. G. H., Paukku, S., Mullins, B., Pasquel, J. D. A., Aymard-Corredor, G. A., Baker, T. R., Draper, F. C., Llampazo, G. F., Herrera, R., Phillips, O. L., Huaymacari, J. M. R., ter Steege, H., Stropp, J., ... Hoyt, A. M. (2025). Widespread carbon-dense peatlands in the Colombian lowlands. Environmental Research Letters, 20(5), 1-14. Article 054025. https://doi.org/10.1088/1748-9326/adbc03

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abstract = "Peatlands are some of the world's most carbon-dense ecosystems and release substantial quantities of greenhouse gases when degraded. However, conserving peatlands in many tropical areas is challenging due to limited knowledge of their distribution. To address this, we surveyed soils and plant communities in Colombia's eastern lowlands, where few peatlands have previously been described. We documented peat soils >40 cm thick at 51 of more than 100 surveyed wetlands. We use our data to update a regional peatland classification, which includes a new and possibly widespread peatland type, 'the white-sand peatland,' as well as two distinctive open-canopy sub-types. Analysis of peat bulk density and organic matter content from 39 intact peat cores indicates that the average per-area carbon densities of these sites (490-1230 Mg C ha(-1), depending on type) is 4-10 times the typical carbon stock of a (non-peatland) Amazonian forest. We used remote sensing to upscale our observations, generating the first data-driven peatland map for the region. The total estimated carbon stock of these peatlands of 1.91 petagrams (Pg C) (2-sigma confidence interval, 0.60-4.22) approaches that of South America's largest known peatland complex in the northern Peruvian Amazon, indicating that substantial peat carbon stores on the continent have yet to be documented. These observations indicate that tropical peatlands may be far more diverse in form and structure and broadly distributed than is widely understood, which could have important implications for tropical peatland conservation strategies.",

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doi = "10.1088/1748-9326/adbc03",

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Winton, RS, Benavides, JC, Mendoza, E, Uhde, A, Hastie, A, Coronado, ENH, Ortega, AGH, Paukku, S, Mullins, B, Pasquel, JDA, Aymard-Corredor, GA, Baker, TR, Draper, FC, Llampazo, GF, Herrera, R, Phillips, OL, Huaymacari, JMR, ter Steege, H, Stropp, J, Lawson, IT, Gallego-Sala, A, Boom, A, Wehrli, B & Hoyt, AM 2025, 'Widespread carbon-dense peatlands in the Colombian lowlands', Environmental Research Letters, vol. 20, no. 5, 054025, pp. 1-14. https://doi.org/10.1088/1748-9326/adbc03

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T1 - Widespread carbon-dense peatlands in the Colombian lowlands

AU - Winton, R. Scott

AU - Benavides, Juan C.

AU - Mendoza, Edmundo

AU - Uhde, Antje

AU - Hastie, Adam

AU - Coronado, Euridice N. Honorio

AU - Ortega, Andres Giovanny Hernandez

AU - Paukku, Stella

AU - Mullins, Bailey

AU - Pasquel, Jhon del Aguila

AU - Aymard-Corredor, Gerardo A.

AU - Baker, Tim R.

AU - Draper, Freddie C.

AU - Llampazo, Gerardo Flores

AU - Herrera, Rafael

AU - Phillips, Oliver L.

AU - Huaymacari, Jose Manuel Reyna

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AU - Stropp, Juliana

AU - Lawson, Ian T.

AU - Gallego-Sala, Angela

AU - Boom, Arnoud

AU - Wehrli, Bernhard

AU - Hoyt, Alison M.

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N2 - Peatlands are some of the world's most carbon-dense ecosystems and release substantial quantities of greenhouse gases when degraded. However, conserving peatlands in many tropical areas is challenging due to limited knowledge of their distribution. To address this, we surveyed soils and plant communities in Colombia's eastern lowlands, where few peatlands have previously been described. We documented peat soils >40 cm thick at 51 of more than 100 surveyed wetlands. We use our data to update a regional peatland classification, which includes a new and possibly widespread peatland type, 'the white-sand peatland,' as well as two distinctive open-canopy sub-types. Analysis of peat bulk density and organic matter content from 39 intact peat cores indicates that the average per-area carbon densities of these sites (490-1230 Mg C ha(-1), depending on type) is 4-10 times the typical carbon stock of a (non-peatland) Amazonian forest. We used remote sensing to upscale our observations, generating the first data-driven peatland map for the region. The total estimated carbon stock of these peatlands of 1.91 petagrams (Pg C) (2-sigma confidence interval, 0.60-4.22) approaches that of South America's largest known peatland complex in the northern Peruvian Amazon, indicating that substantial peat carbon stores on the continent have yet to be documented. These observations indicate that tropical peatlands may be far more diverse in form and structure and broadly distributed than is widely understood, which could have important implications for tropical peatland conservation strategies.

AB - Peatlands are some of the world's most carbon-dense ecosystems and release substantial quantities of greenhouse gases when degraded. However, conserving peatlands in many tropical areas is challenging due to limited knowledge of their distribution. To address this, we surveyed soils and plant communities in Colombia's eastern lowlands, where few peatlands have previously been described. We documented peat soils >40 cm thick at 51 of more than 100 surveyed wetlands. We use our data to update a regional peatland classification, which includes a new and possibly widespread peatland type, 'the white-sand peatland,' as well as two distinctive open-canopy sub-types. Analysis of peat bulk density and organic matter content from 39 intact peat cores indicates that the average per-area carbon densities of these sites (490-1230 Mg C ha(-1), depending on type) is 4-10 times the typical carbon stock of a (non-peatland) Amazonian forest. We used remote sensing to upscale our observations, generating the first data-driven peatland map for the region. The total estimated carbon stock of these peatlands of 1.91 petagrams (Pg C) (2-sigma confidence interval, 0.60-4.22) approaches that of South America's largest known peatland complex in the northern Peruvian Amazon, indicating that substantial peat carbon stores on the continent have yet to be documented. These observations indicate that tropical peatlands may be far more diverse in form and structure and broadly distributed than is widely understood, which could have important implications for tropical peatland conservation strategies.

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KW - carbon cycle

KW - peatlands

KW - tropical ecology

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Widespread carbon-dense peatlands in the Colombian lowlands

Abstract

Bibliographical note

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Keywords

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