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A re-evaluation of wetland carbon sink mitigation concepts and measurements: A diagenetic solution

Australian Ocean Data Network
Gallagher, John Barry
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ctx_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rfr_id=info%3Asid%2FANDS&rft_id=info:doi10.25959/NNHB-T463&rft.title=A re-evaluation of wetland carbon sink mitigation concepts and measurements: A diagenetic solution&rft.identifier=10.25959/NNHB-T463&rft.description=The capacity of wetlands to mitigate greenhouse gas (GHG) emissions is the sum of two services–the protection of vulnerable organic stocks from remineralisation, and the capacity to sequester GHGs relative to their anthropogenic replacements. Organic carbon accumulation (CA) down through the sediment column is often taken as the measure of sequestration because of its capacity to record long-term variability and trends. However, we demonstrate that: i) CA is not equivalent to sequestration as net ecosystem production (NEP) for open systems; it requires the subtraction of the initial deposition rate of labile allochthonous carbon sources; ii) CA also requires subtraction of intrinsically allochthonous recalcitrants down through the sediment column, and together with subtraction of autochthonous recalcitrants from organic stock services; iii) CA as a climatic mitigation service also requires a diagenetic correction, as the annual deposition of labile organic carbon continues to remineralise over the long-term; and iv) preserving of a wetland has a significantly greater mitigation potential than restoring one. To address the above concerns, a global diagenetic solution is proposed, applied, and tested for a tropical seagrass and mangrove. As expected traditional CA estimates were disproportionately larger than their respective cal. NEPs and together with stocks fell within the ranges reported in the literature, with a final carbon accreditation highly dependent on the choice of their anthropogenic replacements. The review demonstrates that mitigation concepts and measurements for natural carbon sequestration solutions require re-evaluation to avoid GHG emissions above their capacity or reduce the ability to fulfil emission targets.Maintenance and Update Frequency: none-plannedStatement: Sediment cores, carbon and nitrogen contents and their stable isotope ratios, and 210Pb and 137Cs geochronology&rft.creator=Gallagher, John Barry &rft.date=2015&rft.coverage=westlimit=116.15135526192336; southlimit=6.101596123970154; eastlimit=116.15598944015801; northlimit=6.106176964299138&rft.coverage=westlimit=116.15135526192336; southlimit=6.101596123970154; eastlimit=116.15598944015801; northlimit=6.106176964299138&rft_rights=Creative Commons Attribution 4.0 International License http://creativecommons.org/licenses/by/4.0&rft_rights=Cite data as: Gallagher, J.B. (2021). A re-evaluation of wetland carbon sink concepts and measurements: A diagenetic solution down sediments. Institute for Marine and Antarctic Studies (IMAS), University of Tasmania (UTAS). https://doi.org/10.25959/NNHB-T463&rft_rights=The data described in this record are the intellectual property of the University of Tasmania through the Institute for Marine and Antarctic Studies.&rft_subject=Blue carbon&rft_subject=Teal carbon&rft_subject=Net ecosystem production&rft_subject=Carbon accumulation&rft_subject=Allochthonous recalcitrants&rft_subject=EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | AQUATIC ECOSYSTEMS | WETLANDS&rft_subject=EARTH SCIENCE | AGRICULTURE | SOILS | CARBON&rft_subject=Marine and Estuarine Ecology (incl. Marine Ichthyology)&rft_subject=BIOLOGICAL SCIENCES&rft_subject=ECOLOGY&rft_subject=Ecosystem Function&rft_subject=ENVIRONMENTAL SCIENCES&rft_subject=ECOLOGICAL APPLICATIONS&rft.type=dataset&rft.language=English Access the data
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Cite data as: Gallagher, J.B. (2021). A re-evaluation of wetland carbon sink concepts and measurements: A diagenetic solution down sediments. Institute for Marine and Antarctic Studies (IMAS), University of Tasmania (UTAS). https://doi.org/10.25959/NNHB-T463

The data described in this record are the intellectual property of the University of Tasmania through the Institute for Marine and Antarctic Studies.

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Brief description

The capacity of wetlands to mitigate greenhouse gas (GHG) emissions is the sum of two services–the protection of vulnerable organic stocks from remineralisation, and the capacity to sequester GHGs relative to their anthropogenic replacements. Organic carbon accumulation (CA) down through the sediment column is often taken as the measure of sequestration because of its capacity to record long-term variability and trends. However, we demonstrate that: i) CA is not equivalent to sequestration as net ecosystem production (NEP) for open systems; it requires the subtraction of the initial deposition rate of labile allochthonous carbon sources; ii) CA also requires subtraction of intrinsically allochthonous recalcitrants down through the sediment column, and together with subtraction of autochthonous recalcitrants from organic stock services; iii) CA as a climatic mitigation service also requires a diagenetic correction, as the annual deposition of labile organic carbon continues to remineralise over the long-term; and iv) preserving of a wetland has a significantly greater mitigation potential than restoring one. To address the above concerns, a global diagenetic solution is proposed, applied, and tested for a tropical seagrass and mangrove. As expected traditional CA estimates were disproportionately larger than their respective cal. NEPs and together with stocks fell within the ranges reported in the literature, with a final carbon accreditation highly dependent on the choice of their anthropogenic replacements. The review demonstrates that mitigation concepts and measurements for natural carbon sequestration solutions require re-evaluation to avoid GHG emissions above their capacity or reduce the ability to fulfil emission targets.

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Maintenance and Update Frequency: none-planned
Statement: Sediment cores, carbon and nitrogen contents and their stable isotope ratios, and 210Pb and 137Cs geochronology

Data time period: 2016-11-01 to 2017-03-01

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116.15599,6.10618 116.15599,6.1016 116.15136,6.1016 116.15136,6.10618 116.15599,6.10618

116.15367235104,6.1038865441346

text: westlimit=116.15135526192336; southlimit=6.101596123970154; eastlimit=116.15598944015801; northlimit=6.106176964299138

Subjects
Allochthonous recalcitrants | Biological Sciences | Blue carbon | Carbon accumulation | EARTH SCIENCE | AGRICULTURE | SOILS | CARBON | EARTH SCIENCE | BIOSPHERE | ECOSYSTEMS | AQUATIC ECOSYSTEMS | WETLANDS | Ecological Applications | Ecology | Environmental Sciences | Ecosystem Function | Marine and Estuarine Ecology (Incl. Marine Ichthyology) | Net ecosystem production | Teal carbon |

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Other Information
(DATA ACCESS - Supplementary Info S1 [model description])

uri : https://data.imas.utas.edu.au/attachments/050291b3-e5a8-4ca8-9ed5-c02b98dc28a1/Supplementary_Information_S1.docx

(DATA ACCESS - Supplementary Info S2)

uri : https://data.imas.utas.edu.au/attachments/050291b3-e5a8-4ca8-9ed5-c02b98dc28a1/Supplementary_Information_S2.xlsx

(DATA ACCESS - Supplementary Info S3)

uri : https://data.imas.utas.edu.au/attachments/050291b3-e5a8-4ca8-9ed5-c02b98dc28a1/Supplementary_Information_S3.xlsx

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