Sediment Stocks of Carbon, Nitrogen, and Phosphorus in Danish Eelgrass Meadows

Kindeberg, Theodor; Ørberg, Sarah B.; Röhr, Maria Emilia; Holmer, Marianne

doi:10.3389/fmars.2018.00474

Cited by 43 publications

(37 citation statements)

References 110 publications

(154 reference statements)

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“…Our results agree with previous field studies examining the role of hydrodynamics on seagrass meadow carbon storage, where greater sediment carbon content was associated with lower wave heights (Samper‐Villarreal et al ), lower wave exposure (Mazarrasa et al ), and lower current velocities (Santos et al ). Carbon stocks have also been shown to be significantly higher in inner fjords compared to outer fjords and open coasts (Kindeberg et al ), which aligns with our finding that more sheltered inner‐coast sites such as Pruth Bay had much higher OC stocks than exposed outer coast sites such as Choked Pass (Table ; Fig. ).…”

Section: Discussionsupporting

confidence: 91%

“…The low OC stocks and high variability found in our study are not uncommon to other Z. marina meadows located in temperate regions (Hodgson and Spooner ; Jankowska et al ; Röhr et al , ; Kindeberg et al ; Poppe and Rybczyk ; Postlethwaite et al ). These low and variable values, along with a lack of data on meadow extent, present challenges for including seagrasses in national and international blue carbon policies (Hejnowicz et al ; Green et al ; Needelman et al ).…”

Section: Future Directionssupporting

confidence: 59%

“…The scarcity of data on the spatial heterogeneity in carbon stocks and accumulation rates creates challenges for scaling up carbon estimates and incorporating blue carbon into such climate policies (Lavery et al ; Oreska et al ; Mazarrasa et al ). Furthermore, the mechanisms that regulate spatial variability across different scales are only beginning to be understood (Samper‐Villarreal et al ; Kindeberg et al ; Mazarrasa et al ; Santos et al ).…”

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confidence: 99%

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Reduced water motion enhances organic carbon stocks in temperate eelgrass meadows

Prentice

Hessing‐Lewis

Sanders‐Smith

et al. 2019

Limnology & Oceanography

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Organic carbon (OC) storage in coastal vegetated ecosystems is increasingly being considered in carbon financing and climate change mitigation strategies. However, spatial heterogeneity in these “blue carbon” stocks among and within habitats has only recently been examined, despite its considerable implications. Seagrass meadows have potential to store significant amounts of carbon in their sediments, yet studies comparing sediment OC content at regional and meadow scales remain sparse. Here, we collected sediment cores from six temperate eelgrass (Zostera marina) meadows on the coast of British Columbia, Canada, to quantify sediment OC stocks, accumulation rates, and sources, and to examine local and regional drivers of variability. Sediment OC content was highly variable—across all sites, stocks in the top 0–5 cm ranged from 83 to 1089 g OC m−2, while the 15–20 cm stocks exhibited a 24‐fold difference, from 59 to 1407 g OC m−2. Carbon accumulation rates ranged from 4 to 33 g OC m−2 yr−1. Isotopic mixing models revealed that sediment OC was primarily terrestrial carbon (41.3%) and canopy‐forming kelps (33.3%), with a smaller contribution of eelgrass (25.3%). Here, we show that regional variability in OC content exceeds meadow‐scale variability. This result is likely driven by landscape factors, most notably relative water motion, representing a more dominant control on seagrass OC accumulation than meadow‐scale factors such as canopy complexity. These findings elicit caution when scaling up seagrass meadow OC content and demonstrate that measures of the hydrodynamic environment could improve estimates of carbon storage in temperate soft sediment habitats.

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Section: Discussionsupporting

confidence: 91%

Section: Future Directionssupporting

confidence: 59%

mentioning

confidence: 99%

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Reduced water motion enhances organic carbon stocks in temperate eelgrass meadows

Prentice

Hessing‐Lewis

Sanders‐Smith

et al. 2019

Limnology & Oceanography

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“…It is, therefore, more appropriate, for comparative purposes, to compare the top 10 cm stock than to extrapolate to 1 m, beyond the sediment thickness present in many of the meadows sampled here. The thickness we used, however, is the same as in a recent study on C org , N, and phosphorous sediment stocks in Danish seagrass meadows (Kindeberg et al, 2018).…”

Section: Seagrass and Mangrove Sediment Analysismentioning

confidence: 99%

Carbon and Nitrogen Concentrations, Stocks, and Isotopic Compositions in Red Sea Seagrass and Mangrove Sediments

et al. 2019

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Coastal vegetated ecosystems are intense global carbon (C) sinks; however, seagrasses and mangroves in the Central Red Sea are depleted in organic C (C org ). Here, we tested whether C org depletion prevails along the Red Sea, or if sediment C org and nitrogen (N) stocks reflect the latitudinal productivity gradient of the Red Sea. We assessed C org and N concentrations, stocks, isotopic compositions (δ 13 C and δ 15 N), and the potential contribution of primary producers to the organic matter accumulation in seagrass and mangrove sediments along the Eastern coast of the Red Sea. Sediment C org concentration was higher in mangroves than seagrasses, while N concentrations were similar, resulting in higher C/N ratios in mangrove than seagrass sediments. Mangrove C org stocks (integrated over the top 10 cm) were twofold higher than those of seagrasses. N concentrations and stocks decreased from south to north in seagrass sediments matching the productivity gradient while C org concentrations and stocks were uniform. The δ 15 N decreased from south to north in seagrass and mangrove sediments, reflecting a shift from nitrate and nitrite as N sources in the south, to N 2 fixation toward the north. Stable isotope mixing models showed that seagrass leaves and macroalgae blades were the major contributors to the organic matter accumulation in seagrass sediments; while mangrove leaves were the major contributors in mangrove sediments. Overall, vegetated sediments in the Red Sea tend to be carbonate-rich and depleted in C org and N, compared to coastal habitats elsewhere. Specifically, mean C org stocks in Red Sea seagrass and mangrove sediments (7.2 ± 0.4 and 14.5 ± 1.4 Mg C ha −1 , respectively) are lower than previously reported mean global values. This new information of Blue Carbon resources in the Red Sea provides a background for Blue Carbon programs in the region while also helping to balance global estimates.

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“…The seagrass Zostera marina is a common species in the temperate zone of the Northern Hemisphere, creating meadows with a high carbon storage potential where the seagrass areas in the Skagerrak‐Kattegat strait and in the Mediterranean show particularly large carbon stocks, exceeding the stocks found in many terrestrial environments (Mcleod et al, ; Röhr et al, ). There is, however, a large variation in carbon storage efficiency among Z. marina habitats (Dahl, ; Green et al, ; Kindeberg et al, ; Röhr et al, , ), which is mainly related to the location of the meadow, where water depth, salinity, and exposure to hydrodynamic forces are regulating the sedimentary carbon accumulation (Dahl, Deyanova, Gütschow, et al, ; Prentice et al, ; Röhr et al, ). Understanding this variability is a key issue for conservation and protection of these important carbon sinks as some areas are deemed to have a lower accumulation of carbon than others, such as in the Baltic Sea, where Z. marina is mainly found in less sheltered sites compared to the Skagerrak area (Dahl, Deyanova, Gütschow, et al, ; Jankowska et al, ; Röhr et al, ).…”

Section: Introductionmentioning

confidence: 99%

High Seasonal Variability in Sediment Carbon Stocks of Cold‐Temperate Seagrass Meadows

et al. 2020

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Seagrass meadows have a high ability to capture and store atmospheric CO 2 in the plant biomass and underlying sediment and thereby function as efficient carbon sinks. The seagrass Zostera marina is a common species in the temperate Northern Hemisphere, a region with strong seasonal variations in climate. How seasonality affects carbon storage capacity in seagrass meadows is largely unknown, and therefore, in this study, we aimed to assess variations in sedimentary total organic carbon (TOC) content over a 1-year cycle in seagrass meadows on the Swedish west coast. The TOC was measured in two Z. marina sites, one wave exposed and one sheltered, and at two depths (1.5 and 4 m) within each site, every second month from August 2015 to June 2016. We found a strong seasonal variation in carbon density, with a peak in early summer (June), and that the TOC was negatively correlated to the net community production of the meadows, presumably related to organic matter degradation. There was seasonal variation in TOC content at all sediment sections, indicating that the carbon content down to 30 cm is unstable on a seasonal scale and therefore likely not a long-term carbon sink. The yearly mean carbon stocks were substantially higher in the sheltered meadow (3,965 and 3,465 g m −2 ) compared to the exposed one (2,712 and 1,054 g m −2 ) with similar seasonal variation. Due to the large intra-annual variability in TOC content, seasonal variation should be considered in carbon stock assessments and management for cold-temperate seagrass meadows.

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Sediment Stocks of Carbon, Nitrogen, and Phosphorus in Danish Eelgrass Meadows

Cited by 43 publications

References 110 publications

Reduced water motion enhances organic carbon stocks in temperate eelgrass meadows

Reduced water motion enhances organic carbon stocks in temperate eelgrass meadows

Carbon and Nitrogen Concentrations, Stocks, and Isotopic Compositions in Red Sea Seagrass and Mangrove Sediments

High Seasonal Variability in Sediment Carbon Stocks of Cold‐Temperate Seagrass Meadows

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