2019
DOI: 10.1002/ecm.1366
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Connected macroalgal‐sediment systems: blue carbon and food webs in the deep coastal ocean

Abstract: Macroalgae drive the largest CO2 flux fixed globally by marine macrophytes. Most of the resulting biomass is exported through the coastal ocean as detritus and yet almost no field measurements have verified its potential net sequestration in marine sediments. This gap limits the scope for the inclusion of macroalgae within blue carbon schemes that support ocean carbon sequestration globally, and the understanding of the role their carbon plays within distal food webs. Here, we pursued three lines of evidence (… Show more

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Cited by 129 publications
(181 citation statements)
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“…Most POC delivered to the sea bed is thought to be oxidized through aerobic respiration and sulfate reduction (Krumins et al, 2013) but observational measurements of POC deposition and especially DIC release are scarce. Recent data suggests that these fluxes can be highly variable seasonally and that POC burial may be greater than expected from our current modeling, depending on processes varying temporally and spatially (Snelgrove et al, 2018;Queirós et al, 2019). Furthermore, a substantial proportion of the empirical benthic carbon data is derived from cohesive sediment studies, with the exception of a few (e.g., Boudreau et al, 2001;Precht and Huettel, 2003;Rao et al, 2008;Burt et al, 2014;Aldridge et al, 2017), yet the wide spatial coverage of permeable sediments on the shelf means there is likely to be an underestimation of the influence of advective flow on the carbon dynamics within benthic stocks (Boudreau et al, 2001;de Beer et al, 2005).…”
Section: Outputs To Benthic Storage and The Open Oceanmentioning
confidence: 66%
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“…Most POC delivered to the sea bed is thought to be oxidized through aerobic respiration and sulfate reduction (Krumins et al, 2013) but observational measurements of POC deposition and especially DIC release are scarce. Recent data suggests that these fluxes can be highly variable seasonally and that POC burial may be greater than expected from our current modeling, depending on processes varying temporally and spatially (Snelgrove et al, 2018;Queirós et al, 2019). Furthermore, a substantial proportion of the empirical benthic carbon data is derived from cohesive sediment studies, with the exception of a few (e.g., Boudreau et al, 2001;Precht and Huettel, 2003;Rao et al, 2008;Burt et al, 2014;Aldridge et al, 2017), yet the wide spatial coverage of permeable sediments on the shelf means there is likely to be an underestimation of the influence of advective flow on the carbon dynamics within benthic stocks (Boudreau et al, 2001;de Beer et al, 2005).…”
Section: Outputs To Benthic Storage and The Open Oceanmentioning
confidence: 66%
“…Only carbon in the top 0.1 m of sediment was considered when quantifying benthic and coastal carbon stocks, following the protocol used in previous studies (Burrows et al, 2017;Diesing et al, 2017;Luisetti et al, 2019;Queirós et al, 2019). This depth does not reflect the vertical limit of carbon storage, which is likely to vary across coastal and benthic habitats with sediment type, degree of bioturbation, and sedimentation rate.…”
Section: Scope and Approachmentioning
confidence: 99%
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