2017
DOI: 10.1002/lno.10478
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Geophysical constraints for organic carbon sequestration capacity of Zostera marina seagrass meadows and surrounding habitats

Abstract: To elucidate the factors determining the organic carbon (OC) sequestration capacity of seagrass meadows, the distribution of OC and the fraction of seagrass-derived OC in sediments of the temperate cosmopolitan seagrass Zostera marina meadows and surrounding habitats were investigated in relation to physical properties of sedimentary materials. On average, seagrass meadow sediments showed OC levels twofold higher than other shallow nearshore habitats. However, offshore sediments often showed greater OC concent… Show more

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Cited by 49 publications
(47 citation statements)
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“…Our isotopic data suggest that the organic carbon that ends up in eelgrass meadow sediments is largely derived from noneelgrass sources, which aligns with previous findings that upward of 50% of carbon in seagrass sediments may be allochthonous in origin (Kennedy et al, ; Miyajima et al, ; Oreska et al, ; Prentice et al, ). While we did not have enough replicates of sediment isotope values or enough localized signatures of potential carbon sources to determine the relative proportion of carbon sources using an isotope mixing model, the biplot shows a clear separation of signatures in the sediments from those of Z. marina across various regions (Figure ).…”
Section: Discussionsupporting
confidence: 91%
“…Our isotopic data suggest that the organic carbon that ends up in eelgrass meadow sediments is largely derived from noneelgrass sources, which aligns with previous findings that upward of 50% of carbon in seagrass sediments may be allochthonous in origin (Kennedy et al, ; Miyajima et al, ; Oreska et al, ; Prentice et al, ). While we did not have enough replicates of sediment isotope values or enough localized signatures of potential carbon sources to determine the relative proportion of carbon sources using an isotope mixing model, the biplot shows a clear separation of signatures in the sediments from those of Z. marina across various regions (Figure ).…”
Section: Discussionsupporting
confidence: 91%
“…the mineral fraction within sediments may also influence the probability of CO 2 emissions (Miyajima et al, 2017).…”
Section: Discussionmentioning
confidence: 99%
“…While a wide range of evidence suggests that a high proportion of the organic carbon that enters the marine environment is remineralized and that high concentration of CO 2 in coastal waters, and associated degassing, is due to rapid mineralization of C derived from coastal plant communities, some proportion of this sediment carbon may be transported to deep water, offshore environments, and thus may be returned to anoxic conditions (Baldock et al, 2004;Cai, 2011;Blair and Aller, 2012;Miyajima et al, 2017). Additionally, refixation of CO 2 by other primary producers (e.g., phytoplankton, macroalgae), which may depend on the level of nutrients and light available to support production, are also likely to be important factors determining CO 2 emissions (Maher and Eyre, 2012).…”
Section: Discussionmentioning
confidence: 99%
“…Once the flow-regime becomes energetic enough to create sediment 10 limitation, properties of the sediment can again outweigh plant traits to limit OC storage even under meadows with traits conducive to OC storage. Of course, this hypothesis needs to be rigorously tested but the modulation of trait effects by geophysical properties provides hints that different OC stabilization mechanisms are potentially operating within the different environments (Belshe et al, 2017;Burdige, 2007;Lutzow et al, 2006;Miyajima et al, 2017), and the persistence of seagrass sediment OC is a whole-ecosystem property (Lehmann and Kleber, 2015;Schmidt et al, 2011). 15…”
Section: Discussionmentioning
confidence: 99%