Emerging forest–peatland bistability and resilience of European peatland carbon stores

Ype van der Velde; Arnaud J.A.M. Temme; Jelmer J. Nijp; Maarten C. Braakhekke; George A.K. van Voorn; Stefan C. Dekker; A. Johannes Dolman; Jakob Wallinga; Kevin J. Devito; Nicholas Kettridge; Carl A. Mendoza; Lammert Kooistra; Merel B. Soons; Adriaan J. Teuling

doi:10.1073/pnas.2101742118

Emerging forest–peatland bistability and resilience of European peatland carbon stores

Ype van der Velde^*, Arnaud J.A.M. Temme, Jelmer J. Nijp, Maarten C. Braakhekke, George A.K. van Voorn, Stefan C. Dekker, A. Johannes Dolman, Jakob Wallinga, Kevin J. Devito, Nicholas Kettridge, Carl A. Mendoza, Lammert Kooistra, Merel B. Soons, Adriaan J. Teuling

^*Corresponding author for this work

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

56 Downloads (Pure)

Abstract

Northern peatlands store large amounts of carbon. Observations indicate that forests and peatlands in northern biomes can be alternative stable states for a range of landscape settings. Climatic and hydrological changes may reduce the resilience of peatlands and forests, induce persistent shifts between these states, and release the carbon stored in peatlands. Here, we present a dynamic simulation model constrained and validated by a wide set of observations to quantify how feedbacks in water and carbon cycling control resilience of both peatlands and forests in northern landscapes. Our results show that 34% of Europe (area) has a climate that can currently sustain existing rainwater-fed peatlands (raised bogs). However, raised bog initiation and restoration by water conservation measures after the original peat soil has disappeared is only possible in 10% of Europe where the climate allows raised bogs to initiate and outcompete forests. Moreover, in another 10% of Europe, existing raised bogs (concerning ∼20% of the European raised bogs) are already affected by ongoing climate change. Here, forests may overgrow peatlands, which could potentially release in the order of 4% (∼24 Pg carbon) of the European soil organic carbon pool. Our study demonstrates quantitatively that preserving and restoring peatlands requires looking beyond peatland-specific processes and taking into account wider landscape-scale feedbacks with forest ecosystems.

Original language	English
Article number	e2101742118
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	118
Issue number	38
DOIs	https://doi.org/10.1073/pnas.2101742118
Publication status	Published - 21 Sept 2021

Bibliographical note

Funding Information:
Y.v.d.V. and J.J.N. gratefully acknowledge support for this study from the graduate school for Production Ecology and Resource Conservation of Wageningen University. Further, Y.v.d.V. and N.K. acknowledge support from the Irish Environmental Protection Agency (grant 2020-CCRP-MS.70). A.J.D. acknowledges support from the Netherlands Earth System Science Center (NESSC) through Gravitation (grant 024.002.001) from the Dutch Ministry for Education, Culture and Science. This work was carried out on the Dutch national e-infrastructure with the support of SURF Cooperative. We thank A. Beaudoin, M. Thurner, K. Webster, C. Williams, A. Gallego-Sala, and D. McKenney for providing datasets for model validation.

Keywords

Peatlands
Resilience
Water–carbon feedbacks

ASJC Scopus subject areas

General

UN SDGs

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

Access to Document

10.1073/pnas.2101742118Licence: Creative Commons: Attribution-NonCommercial-NoDerivs (CC BY-NC-ND)

vanderVeldeY2021EmergingFinal published version, 3.76 MBLicence: Creative Commons: Attribution-NonCommercial-NoDerivs (CC BY-NC-ND)

Cite this

van der Velde, Y., Temme, A. J. A. M., Nijp, J. J., Braakhekke, M. C., van Voorn, G. A. K., Dekker, S. C., Dolman, A. J., Wallinga, J., Devito, K. J., Kettridge, N., Mendoza, C. A., Kooistra, L., Soons, M. B., & Teuling, A. J. (2021). Emerging forest–peatland bistability and resilience of European peatland carbon stores. Proceedings of the National Academy of Sciences of the United States of America, 118(38), Article e2101742118. https://doi.org/10.1073/pnas.2101742118

@article{e61f8ec8a3374673a13c42579057de8a,

title = "Emerging forest–peatland bistability and resilience of European peatland carbon stores",

abstract = "Northern peatlands store large amounts of carbon. Observations indicate that forests and peatlands in northern biomes can be alternative stable states for a range of landscape settings. Climatic and hydrological changes may reduce the resilience of peatlands and forests, induce persistent shifts between these states, and release the carbon stored in peatlands. Here, we present a dynamic simulation model constrained and validated by a wide set of observations to quantify how feedbacks in water and carbon cycling control resilience of both peatlands and forests in northern landscapes. Our results show that 34% of Europe (area) has a climate that can currently sustain existing rainwater-fed peatlands (raised bogs). However, raised bog initiation and restoration by water conservation measures after the original peat soil has disappeared is only possible in 10% of Europe where the climate allows raised bogs to initiate and outcompete forests. Moreover, in another 10% of Europe, existing raised bogs (concerning ∼20% of the European raised bogs) are already affected by ongoing climate change. Here, forests may overgrow peatlands, which could potentially release in the order of 4% (∼24 Pg carbon) of the European soil organic carbon pool. Our study demonstrates quantitatively that preserving and restoring peatlands requires looking beyond peatland-specific processes and taking into account wider landscape-scale feedbacks with forest ecosystems.",

keywords = "Peatlands, Resilience, Water–carbon feedbacks",

author = "{van der Velde}, Ype and Temme, {Arnaud J.A.M.} and Nijp, {Jelmer J.} and Braakhekke, {Maarten C.} and {van Voorn}, {George A.K.} and Dekker, {Stefan C.} and Dolman, {A. Johannes} and Jakob Wallinga and Devito, {Kevin J.} and Nicholas Kettridge and Mendoza, {Carl A.} and Lammert Kooistra and Soons, {Merel B.} and Teuling, {Adriaan J.}",

note = "Funding Information: Y.v.d.V. and J.J.N. gratefully acknowledge support for this study from the graduate school for Production Ecology and Resource Conservation of Wageningen University. Further, Y.v.d.V. and N.K. acknowledge support from the Irish Environmental Protection Agency (grant 2020-CCRP-MS.70). A.J.D. acknowledges support from the Netherlands Earth System Science Center (NESSC) through Gravitation (grant 024.002.001) from the Dutch Ministry for Education, Culture and Science. This work was carried out on the Dutch national e-infrastructure with the support of SURF Cooperative. We thank A. Beaudoin, M. Thurner, K. Webster, C. Williams, A. Gallego-Sala, and D. McKenney for providing datasets for model validation.",

year = "2021",

month = sep,

day = "21",

doi = "10.1073/pnas.2101742118",

language = "English",

volume = "118",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "38",

}

van der Velde, Y, Temme, AJAM, Nijp, JJ, Braakhekke, MC, van Voorn, GAK, Dekker, SC, Dolman, AJ, Wallinga, J, Devito, KJ, Kettridge, N, Mendoza, CA, Kooistra, L, Soons, MB & Teuling, AJ 2021, 'Emerging forest–peatland bistability and resilience of European peatland carbon stores', Proceedings of the National Academy of Sciences of the United States of America, vol. 118, no. 38, e2101742118. https://doi.org/10.1073/pnas.2101742118

TY - JOUR

T1 - Emerging forest–peatland bistability and resilience of European peatland carbon stores

AU - van der Velde, Ype

AU - Temme, Arnaud J.A.M.

AU - Nijp, Jelmer J.

AU - Braakhekke, Maarten C.

AU - van Voorn, George A.K.

AU - Dekker, Stefan C.

AU - Dolman, A. Johannes

AU - Wallinga, Jakob

AU - Devito, Kevin J.

AU - Kettridge, Nicholas

AU - Mendoza, Carl A.

AU - Kooistra, Lammert

AU - Soons, Merel B.

AU - Teuling, Adriaan J.

N1 - Funding Information: Y.v.d.V. and J.J.N. gratefully acknowledge support for this study from the graduate school for Production Ecology and Resource Conservation of Wageningen University. Further, Y.v.d.V. and N.K. acknowledge support from the Irish Environmental Protection Agency (grant 2020-CCRP-MS.70). A.J.D. acknowledges support from the Netherlands Earth System Science Center (NESSC) through Gravitation (grant 024.002.001) from the Dutch Ministry for Education, Culture and Science. This work was carried out on the Dutch national e-infrastructure with the support of SURF Cooperative. We thank A. Beaudoin, M. Thurner, K. Webster, C. Williams, A. Gallego-Sala, and D. McKenney for providing datasets for model validation.

PY - 2021/9/21

Y1 - 2021/9/21

N2 - Northern peatlands store large amounts of carbon. Observations indicate that forests and peatlands in northern biomes can be alternative stable states for a range of landscape settings. Climatic and hydrological changes may reduce the resilience of peatlands and forests, induce persistent shifts between these states, and release the carbon stored in peatlands. Here, we present a dynamic simulation model constrained and validated by a wide set of observations to quantify how feedbacks in water and carbon cycling control resilience of both peatlands and forests in northern landscapes. Our results show that 34% of Europe (area) has a climate that can currently sustain existing rainwater-fed peatlands (raised bogs). However, raised bog initiation and restoration by water conservation measures after the original peat soil has disappeared is only possible in 10% of Europe where the climate allows raised bogs to initiate and outcompete forests. Moreover, in another 10% of Europe, existing raised bogs (concerning ∼20% of the European raised bogs) are already affected by ongoing climate change. Here, forests may overgrow peatlands, which could potentially release in the order of 4% (∼24 Pg carbon) of the European soil organic carbon pool. Our study demonstrates quantitatively that preserving and restoring peatlands requires looking beyond peatland-specific processes and taking into account wider landscape-scale feedbacks with forest ecosystems.

AB - Northern peatlands store large amounts of carbon. Observations indicate that forests and peatlands in northern biomes can be alternative stable states for a range of landscape settings. Climatic and hydrological changes may reduce the resilience of peatlands and forests, induce persistent shifts between these states, and release the carbon stored in peatlands. Here, we present a dynamic simulation model constrained and validated by a wide set of observations to quantify how feedbacks in water and carbon cycling control resilience of both peatlands and forests in northern landscapes. Our results show that 34% of Europe (area) has a climate that can currently sustain existing rainwater-fed peatlands (raised bogs). However, raised bog initiation and restoration by water conservation measures after the original peat soil has disappeared is only possible in 10% of Europe where the climate allows raised bogs to initiate and outcompete forests. Moreover, in another 10% of Europe, existing raised bogs (concerning ∼20% of the European raised bogs) are already affected by ongoing climate change. Here, forests may overgrow peatlands, which could potentially release in the order of 4% (∼24 Pg carbon) of the European soil organic carbon pool. Our study demonstrates quantitatively that preserving and restoring peatlands requires looking beyond peatland-specific processes and taking into account wider landscape-scale feedbacks with forest ecosystems.

KW - Peatlands

KW - Resilience

KW - Water–carbon feedbacks

UR - http://www.scopus.com/inward/record.url?scp=85115345241&partnerID=8YFLogxK

U2 - 10.1073/pnas.2101742118

DO - 10.1073/pnas.2101742118

M3 - Article

C2 - 34521751

AN - SCOPUS:85115345241

SN - 0027-8424

VL - 118

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 38

M1 - e2101742118

ER -

Emerging forest–peatland bistability and resilience of European peatland carbon stores

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

UN SDGs

Access to Document

Fingerprint

Cite this