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Quantifying marine sedimentary carbon: A new spatial analysis approach using seafloor acoustics, imagery, and ground-truthing data in Scotland
Hunt, C.; Demšar, U.; Dove, D.; Smeaton, C.; Cooper, R.; Austin, W.E.N. (2020). Quantifying marine sedimentary carbon: A new spatial analysis approach using seafloor acoustics, imagery, and ground-truthing data in Scotland. Front. Mar. Sci. 7: 588. https://dx.doi.org/10.3389/fmars.2020.00588
In: Frontiers in Marine Science. Frontiers Media: Lausanne. ISSN 2296-7745; e-ISSN 2296-7745, meer
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| Trefwoorden |
Organic matter > Carbon > Organic carbon
Marien/Kust |
| Author keywords |
sediment, multibeam, seabed mapping, carbon stocks, fjord |
| Auteurs | | Top |
- Hunt, C.
- Demšar, U.
- Dove, D.
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- Smeaton, C.
- Cooper, R.
- Austin, W.E.N.
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| Abstract |
Marine sediments are important repositories of organic matter, effectively burying organic carbon (OC) over geological timescales thus providing a climate regulation service. However, the spatial distribution of this marine sedimentary OC store is not well constrained. In this study we leverage a high resolution multibeam echosounder (MBES) survey taken at Loch Creran, a model fjordic site on the west coast of Scotland, to develop a new methodology for predicting the distribution of OC in surface sediments. Using an integrated approach, we use MBES survey, video imagery and ground-truthing data to produce a high-resolution (2 × 2 m) map of surficial carbon and calculate a 10 cm stock. We find that the backscatter survey reliably uncovers a heterogeneous seabed and that OC correlates strongly with the MBES backscatter signal as a function of sediment composition. We estimate that there are approximately 12,346 ± 2,677 t of OC held within the top 10 cm of mixed sediments across the MBES survey area (7.96 km2; 60% of the total area), upscaled to 20,577 ± 4,462 t of OC across Loch Creran (13.27 km2). Normalised by area, we find that fine sediments with small fractions of sand and gravel hold more OC than homogenous fine sediments. This initial work proposes a novel methodological approach to using high resolution MBES surveys to improve the spatial mapping of sedimentary carbon (C) and identification of C hotspots, enabling consideration of this resource in sedimentary carbon accounting, seabed management and climate mitigation strategie |
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