An Assessment of the Potential Value for Climate Remediation of Ocean Calcifiers in Sequestration of Atmospheric Carbon

Moore, David; Heilweck, Matthias; Fears, William Burton; Petros, Peter; Squires, Samuel James; Tamburini, Elena; Waldron, Robert Paul

doi:10.14293/s2199-1006.1.sor-.ppgszey.v1

Cited by 2 publications

(3 citation statements)

References 45 publications

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“…This links a wider range of abiotic data that might be suitable at large scale, to a multitude of biotic data, ecosystem service value, accreditation criteria, and carbon credit value based on adaptive valuation 7 . Alternatively, latent variables could be structured to determine whether the maerl habitat acts as a carbon source or sink 11 , 21 , with temperature 16 and pH 64 known to be key factors.…”

Section: Discussionmentioning

confidence: 99%

Sounding out maerl sediment thickness: an integrated data approach

Sheehy,

Bates,

Bell

et al. 2024

Sci Rep

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Maerl beds are listed as a priority marine feature in Scotland. They are noted for creating suitable benthic habitat for diverse communities of fauna and flora and in supporting a wide array of ecosystem services. Within the context of climate change, they are also recognised as a potential blue carbon habitat through sequestration of carbon in living biomass and underlying sediment. There are, however, significant data gaps on the potential of maerl carbon sequestration which impede inclusion in blue carbon policy frameworks. Key data gaps include sediment thickness, from which carbon content is extrapolated. There are additional logistical and financial barriers associated with quantification methods that aim to address these data gaps. This study investigates the use of sub-bottom profiling (SBP) to lessen financial and logistical constraints of maerl bed sediment thickness estimation and regional blue carbon quantification. SBP data were cross validated with cores, other SBP data on blue carbon sediments, and analysed with expert input. Combining SBP data with estimates of habitat health (as % cover) from drop-down video (DDV) data, and regional abiotic data, this study also elucidates links between abiotic and biotic factors in determining maerl habitat health and maerl sediment thickness through pathway analysis in structural equation modelling (SEM). SBP data were proved to be sufficiently robust for identification of maerl sediments when corroborated with core data. SBP and DDV data of maerl bed habitats in Orkney exhibited some positive correlations of sediment thickness with maerl % cover. The average maerl bed sediment thickness was 1.08 m across all ranges of habitat health. SEM analysis revealed maerl bed habitat health was strongly determined by abiotic factors. Maerl habitat health had a separate positive effect on maerl bed sediment thickness.

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Section: Discussionmentioning

confidence: 99%

Sounding out maerl sediment thickness: an integrated data approach

Sheehy,

Bates,

Bell

et al. 2024

Sci Rep

View full text Add to dashboard Cite

show abstract

“…For several decades, this interpretation has influenced scientific advice about the biotechnological potential of calcifying organisms for permanent carbon sequestration, and, indeed, has removed them from consideration by the carbon offset markets. Our interpretation of the open water chemistry of calcification can be found in our recent preprint [85]. The number and range of reactions taking place in the atmosphere and ocean is enormous, so reactions 1 and 2 (above) only describe a minute proportion of this total and alternative schemes are inevitably simplified and bounded by approximations.…”

Section: Biotechnological Sequestration Into the Oceanic Carbon Sink:...mentioning

confidence: 99%

“…Ignoring what is known about the biology, physiology, and molecular cell biology of living organisms, calcifiers of all types especially, leads to erroneous conclusions and deficient advice about the potential for calcifier biotechnology to contribute to atmosphere remediation [85]. www.videleaf.com…”

Section: Biotechnological Sequestration Into the Oceanic Carbon Sink:...mentioning

confidence: 99%