2016
DOI: 10.5194/bg-2016-131
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Blue carbon stocks in Baltic Sea eelgrass (<i>Zostera marina</i>) meadows

Abstract: <p><strong>Abstract.</strong> Although seagrasses cover only a minor fraction of the ocean seafloor, their carbon sink capacity account for nearly one-fifth of the oceanic carbon burial and thus play a critical structural and functional role in many coastal ecosystems. We sampled 10 eelgrass (<i>Zostera marina</i>) meadows in Finland and 10 in Denmark to explore the seagrass carbon stocks (Corg stock) and the carbon accumulation (Corg accumu… Show more

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Cited by 23 publications
(61 citation statements)
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“…marina meadows at Askö, where the most sheltered bays with finer grain sizes are dominated by brackish water plants, such as Potamogeton pectinatus and Zannichellia palustris [55]. Meadows situated in more exposed areas could result in a high export of the produced organic matter, as suggested by [18] instead of the carbon being accumulated in the sediment, leading to a low carbon storage potential of the area. This could also be true for the meadows in Ria Formosa, the only area in this study with a pronounced tide, where the higher hydrodynamic forces could also lead to increased sediment erosion.…”
Section: Discussionmentioning
confidence: 99%
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“…marina meadows at Askö, where the most sheltered bays with finer grain sizes are dominated by brackish water plants, such as Potamogeton pectinatus and Zannichellia palustris [55]. Meadows situated in more exposed areas could result in a high export of the produced organic matter, as suggested by [18] instead of the carbon being accumulated in the sediment, leading to a low carbon storage potential of the area. This could also be true for the meadows in Ria Formosa, the only area in this study with a pronounced tide, where the higher hydrodynamic forces could also lead to increased sediment erosion.…”
Section: Discussionmentioning
confidence: 99%
“…For seagrass meadows, the finer grain-sized particles have shown to influence sedimentary carbon content in some seagrass areas [18], while in others it seems less important [8]. The relations between carbon storage and various sediment characteristics are more pronounced in meadows with low seagrass biomass and high proportion of finer particle sizes, while in meadows with larger seagrass species, e.g.…”
Section: Discussionmentioning
confidence: 99%
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“…In addition to particulate organic carbon (hereafter POC) and seagrass biomass, the seagrass sediment C org can be augmented by other carbon sources including phytoplankton, terrestrial plant detritus, macroalgae, epiphytes, and benthic microalgae (Bouillon & Boschker, ; Fry et al, ; Fry & Sherr, ; Holmer et al, ; Kennedy et al, , ; Moncreiff & Sullivan, ; Ricart et al, ; Röhr et al, ). These additional sources vary considerably in input and decomposition rates over time, thus influencing the lability and magnitude of C org stocks in seagrass sediments (Kennedy et al, , ).…”
Section: Introductionmentioning
confidence: 99%
“…The reduction of flow velocities by seagrass canopies and associated increased particle trapping thereby contribute to the accumulation of allochthonously derived sedimentary carbon in seagrass meadows (Agawin and Duarte ; Hendriks et al ; Kennedy et al ). In concordance, seagrass meadows in sheltered areas with less wave action have a higher sedimentary carbon content than do exposed bays (Samper‐Villarreal et al ), as environments with low hydrodynamic exposure usually promote the accumulation of sediment containing fine‐grain‐sized particles (i.e., high in silt and clay contents; Mazarrasa et al ) and low bulk density (Winterwerp and van Kesteren ), which are factors linked to high seagrass carbon storage (Dahl et al ; Röhr et al ; Gullström et al ).…”
mentioning
confidence: 99%