Blue carbon benefits from global saltmarsh restoration

Research output: Contribution to journalArticlepeer-review

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Blue carbon benefits from global saltmarsh restoration. / Mason, Victoria; Burden, Annette; Epstein, Graham et al.
In: Global Change Biology, Vol. 29, No. 23, 25.09.2023, p. 6517-6545.

Research output: Contribution to journalArticlepeer-review

HarvardHarvard

Mason, V, Burden, A, Epstein, G, Jupe, LL, Wood, KA & Skov, M 2023, 'Blue carbon benefits from global saltmarsh restoration', Global Change Biology, vol. 29, no. 23, pp. 6517-6545. https://doi.org/10.1111/gcb.16943

APA

Mason, V., Burden, A., Epstein, G., Jupe, L. L., Wood, K. A., & Skov, M. (2023). Blue carbon benefits from global saltmarsh restoration. Global Change Biology, 29(23), 6517-6545. https://doi.org/10.1111/gcb.16943

CBE

Mason V, Burden A, Epstein G, Jupe LL, Wood KA, Skov M. 2023. Blue carbon benefits from global saltmarsh restoration. Global Change Biology. 29(23):6517-6545. https://doi.org/10.1111/gcb.16943

MLA

Mason, Victoria et al. "Blue carbon benefits from global saltmarsh restoration". Global Change Biology. 2023, 29(23). 6517-6545. https://doi.org/10.1111/gcb.16943

VancouverVancouver

Mason V, Burden A, Epstein G, Jupe LL, Wood KA, Skov M. Blue carbon benefits from global saltmarsh restoration. Global Change Biology. 2023 Sept 25;29(23):6517-6545. Epub 2023 Sept 25. doi: 10.1111/gcb.16943

Author

Mason, Victoria ; Burden, Annette ; Epstein, Graham et al. / Blue carbon benefits from global saltmarsh restoration. In: Global Change Biology. 2023 ; Vol. 29, No. 23. pp. 6517-6545.

RIS

TY - JOUR

T1 - Blue carbon benefits from global saltmarsh restoration

AU - Mason, Victoria

AU - Burden, Annette

AU - Epstein, Graham

AU - Jupe, Lucy L.

AU - Wood, Kevin A.

AU - Skov, Martin

PY - 2023/9/25

Y1 - 2023/9/25

N2 - AbstractCoastal saltmarshes are found globally, yet are 25%–50% reduced compared with their historical cover. Restoration is incentivised by the promise that marshes are efficient storers of ‘blue’ carbon, although the claim lacks substantiation across global contexts. We synthesised data from 431 studies to quantify the benefits of saltmarsh restoration to carbon accumulation and greenhouse gas uptake. The results showed global marshes store approximately 1.41–2.44 Pg carbon. Restored marshes had very low greenhouse gas (GHG) fluxes and rapid carbon accumulation, resulting in a mean net accumulation rate of 64.70 t CO2e ha−1 year−1. Using this estimate and potential restoration rates, we find saltmarsh regeneration could result in 12.93–207.03 Mt CO2e accumulation per year, offsetting the equivalent of up to 0.51% global energy‐related CO2 emissions—a substantial amount, considering marshes represent <1% of Earth's surface. Carbon accumulation rates and GHG fluxes varied contextually with temperature, rainfall and dominant vegetation, with the eastern coasts of the USA and Australia particular hotspots for carbon storage. While the study reveals paucity of data for some variables and continents, suggesting need for further research, the potential for saltmarsh restoration to offset carbon emissions is clear. The ability to facilitate natural carbon accumulation by saltmarshes now rests principally on the action of the management‐policy community and on financial opportunities for supporting restoration.

AB - AbstractCoastal saltmarshes are found globally, yet are 25%–50% reduced compared with their historical cover. Restoration is incentivised by the promise that marshes are efficient storers of ‘blue’ carbon, although the claim lacks substantiation across global contexts. We synthesised data from 431 studies to quantify the benefits of saltmarsh restoration to carbon accumulation and greenhouse gas uptake. The results showed global marshes store approximately 1.41–2.44 Pg carbon. Restored marshes had very low greenhouse gas (GHG) fluxes and rapid carbon accumulation, resulting in a mean net accumulation rate of 64.70 t CO2e ha−1 year−1. Using this estimate and potential restoration rates, we find saltmarsh regeneration could result in 12.93–207.03 Mt CO2e accumulation per year, offsetting the equivalent of up to 0.51% global energy‐related CO2 emissions—a substantial amount, considering marshes represent <1% of Earth's surface. Carbon accumulation rates and GHG fluxes varied contextually with temperature, rainfall and dominant vegetation, with the eastern coasts of the USA and Australia particular hotspots for carbon storage. While the study reveals paucity of data for some variables and continents, suggesting need for further research, the potential for saltmarsh restoration to offset carbon emissions is clear. The ability to facilitate natural carbon accumulation by saltmarshes now rests principally on the action of the management‐policy community and on financial opportunities for supporting restoration.

KW - Ecology

KW - Environmental Chemistry

KW - General Environmental Science

KW - Global and Planetary Change

U2 - 10.1111/gcb.16943

DO - 10.1111/gcb.16943

M3 - Article

VL - 29

SP - 6517

EP - 6545

JO - Global Change Biology

JF - Global Change Biology

SN - 1365-2486

IS - 23

ER -