Carbon export from seaweed forests to deep ocean sinks

Karen Filbee-Dexter*, Albert Pessarrodona, Morten F. Pedersen, Thomas Wernberg, Carlos M. Duarte, Jorge Assis, Trine Bekkby, Michael T. Burrows, Daniel F. Carlson, Jean Pierre Gattuso, Hege Gundersen, Kasper Hancke, Kira A. Krumhansl, Tomohiro Kuwae, Jack J. Middelburg, Pippa J. Moore, Ana M. Queirós, Dan A. Smale, Isabel Sousa-Pinto, Nobuhiro SuzukiDorte Krause-Jensen

*Corresponding author

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

Abstract

The coastal ocean represents an important global carbon sink and is a focus for interventions to mitigate climate change and meet the Paris Agreement targets while supporting biodiversity and other ecosystem functions. However, the fate of the flux of carbon exported from seaweed forests—the world’s largest coastal vegetated ecosystem—is a key unknown in marine carbon budgets. Here we provide national and global estimates for seaweed-derived particulate carbon export below 200 m depth, which totalled 3–4% of the ocean carbon sink capacity. We characterized export using models of seaweed forest extent, production and decomposition, as well as shelf–open ocean water exchange. On average, 15% of seaweed production is estimated to be exported across the continental shelf, which equates to 56 TgC yr−1 (range: 10–170 TgC yr−1). Using modelled sequestration timescales below 200 m depth, we estimated that each year, 4–44 Tg seaweed-derived carbon could be sequestered for 100 years. Determining the full extent of seaweed carbon sequestration remains challenging, but critical to guide efforts to conserve seaweed forests, which are in decline globally. Our estimate does not include shelf burial and dissolved and refractory carbon pathways; still it highlights a relevant potential contribution of seaweed to natural carbon sinks.
OriginalsprogEngelsk
TidsskriftNature Geoscience
Vol/bind17
Udgave nummer6
Sider (fra-til)552-559
Antal sider8
ISSN1752-0894
DOI
StatusUdgivet - jun. 2024

Bibliografisk note

Funding Information:
This work was supported by the Norwegian Blue Forest Network and EUROMARINE (FWS_07-2018). The project was funded by the Australian Research Council (DE190100692, FT230100214, DP220100650, LP220200004) to K.F.-D., T.W. and A.P., the Independent Research Fund Denmark (8021-00222 B, \u2018CARMA\u2019) to D.K.-J., and the Foundation for Science and Technology (UIDB/04326/2020, UIDP/04326/2020, LA/P/0101/2020) and Individual Call to Scientific Employment Stimulus (2022.00861.CEECIND/CP1729/CT0003) to J.A. Flume experiments used for benthic transport were conducted in collaboration with A. Pomeroy.

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