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Pathways of blue carbon export from kelp and seagrass beds along the Atlantic coast of Nova Scotia

Kira A. Krumhansl, Katherine C. Lee, Yongxing Ma, Yongsheng Wu, Thomas H. A. Baker, Melisa C. Wong, Kumiko Azetsu‐Scott, Wendy C. Gentleman

2025Science Advances11 citationsDOIOpen Access PDF

Abstract

Coastal vegetated ecosystems are recognized for their role in cycling and storing carbon in the world's oceans (i.e., blue carbon); however, high uncertainty in carbon sequestration rates is partly due to an absence of studies estimating carbon export to the deep sea. We modeled export from nearshore kelp forests and seagrass beds, showing variability by orders of magnitude across spatial scales (3 to hundreds of kilometers), kelp and seagrass species, seasons, and carbon forms, raising caution in using generalized export rates in blue carbon accounting. Our results also show rapid (20 to 30 days) and extensive export of neutrally buoyant dissolved organic carbon particles to the shelf break (up to 44% within 90 days), contrasting sinking particulate organic carbon particles that largely remained within 100-meter water depth in the nearshore. These results improve estimates of carbon sequestration by blue carbon ecosystems and reveal contrasting patterns of export relative to other regions of the globe.

Topics & Concepts

Blue carbonSeagrassKelpKelp forestEnvironmental scienceCarbon sequestrationOceanographyCarbon fibersCarbon cycleEcosystemDissolved organic carbonNova scotiaAtmospheric carbon cycleTotal organic carbonFisheryEcologyCarbon dioxideGeologyBiologyMaterials scienceComposite materialComposite numberMarine and coastal plant biologyCoastal wetland ecosystem dynamicsMarine Biology and Ecology Research