Please use this identifier to cite or link to this item: http://hdl.handle.net/1893/35994
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dc.contributor.authorAssavapanuvat, Prakhinen_UK
dc.contributor.authorBreithaupt, Joshuaen_UK
dc.contributor.authorEngelbert, Kevinen_UK
dc.contributor.authorSchroeder, Christianen_UK
dc.contributor.authorSmoak, Josephen_UK
dc.contributor.authorBianchi, Thomasen_UK
dc.date.accessioned2024-05-08T00:04:28Z-
dc.date.available2024-05-08T00:04:28Z-
dc.date.issued2024-06en_UK
dc.identifier.other116904en_UK
dc.identifier.urihttp://hdl.handle.net/1893/35994-
dc.description.abstractThe global warming-driven poleward expansion of mangrove habitats (e.g., Avicennia germinans and Rhizophora mangle) into temperate salt marshes (e.g., Spartina alterniflora and Juncus roemerianus) has been shown to alter coastal soil organic carbon (SOC) storage. However, the taxa-specific consequences of this vegetation shift on the origin and size of SOC sub-fractions (particulate OC (POC); mineral-associated OC (MAOC); and reactive iron-associated OC (FeR-MAOC)) remain largely unexplored. In this study, we used a particle size-based SOC fractionation method to compare quantity and δ13C composition of bulk and each SOC sub-fractions in soil cores collected from Apalachicola Bay barrier islands in Florida, USA, the highest latitude where monospecific communities of all four aforementioned plants co-occur. Depth-dependent variation of bulk soil δ13C clearly showed the global warming-driven replacement of S. alterniflora by mangroves, as well as reciprocal substitutions of S. alterniflora and J. roemerianus, probably driven by changes in wetland elevation. Higher OC burial rates in mangrove habitats suggested that mangrove soils were principally developed by particle deposition. In contrast, comparatively lower OC burial rates but higher OC stocks in salt marsh habitats illustrated subsurface OC input from salt marsh roots. POC was primarily derived from contemporary plant detritus; its concentration was higher in salt marsh habitats (58.8 ± 9.0% of SOC) relative to mangroves (38.4 ± 6.0% of SOC). In contrast, MAOC content did not vary across plant habitats (53.5 ± 10.9% of SOC), and principally originated from microbially-transformed OC and pre-existing plants. FeR-MAOC was essentially absent in R. mangle soils (2.9 ± 3.6% of SOC) while representing a minor fraction of MAOC in three other plant habitats (7.8 ± 7.0% of SOC). The δ13C (delta 13C) of FeR-MAOC was more like the present-day surface plants, highlighting the in situ FeR-MAOC formation in their active oxidizing rhizospheres.en_UK
dc.language.isoenen_UK
dc.publisherElsevieren_UK
dc.relationAssavapanuvat P, Breithaupt J, Engelbert K, Schroeder C, Smoak J & Bianchi T (2024) Contrasting Stocks and Origins of Particulate and Mineral-associated Soil Organic Carbon in a Mangrove-Salt Marsh Ecotone. <i>Geoderma</i>, 446, Art. No.: 116904. https://doi.org/10.1016/j.geoderma.2024.116904en_UK
dc.rightshis article is available under the Creative Commons CC-BY-NC-ND license and permits non-commercial use of the work as published, without adaptation or alteration provided the work is fully attributed. For commercial reuse, permission must be requested below.en_UK
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/en_UK
dc.subjectMineral-associated organic carbonen_UK
dc.subjectIron-bound organic carbonen_UK
dc.subjectReactive ironen_UK
dc.subjectMangroveen_UK
dc.subjectSalt marshen_UK
dc.subjectSoil organic carbon fractionen_UK
dc.titleContrasting Stocks and Origins of Particulate and Mineral-associated Soil Organic Carbon in a Mangrove-Salt Marsh Ecotoneen_UK
dc.typeJournal Articleen_UK
dc.identifier.doi10.1016/j.geoderma.2024.116904en_UK
dc.citation.jtitleGeodermaen_UK
dc.citation.issn0016-7061en_UK
dc.citation.volume446en_UK
dc.citation.publicationstatusPublisheden_UK
dc.citation.peerreviewedRefereeden_UK
dc.type.statusVoR - Version of Recorden_UK
dc.contributor.funderUK Space Agencyen_UK
dc.author.emailchristian.schroeder@stir.ac.uken_UK
dc.citation.date07/05/2024en_UK
dc.contributor.affiliationUniversity of Floridaen_UK
dc.contributor.affiliationFlorida State Universityen_UK
dc.contributor.affiliationFlorida State Universityen_UK
dc.contributor.affiliationBiological and Environmental Sciencesen_UK
dc.contributor.affiliationUniversity of South Floridaen_UK
dc.contributor.affiliationUniversity of Floridaen_UK
dc.identifier.wtid2005535en_UK
dc.contributor.orcid0000-0002-7935-6039en_UK
dc.date.accepted2024-05-02en_UK
dcterms.dateAccepted2024-05-02en_UK
dc.date.filedepositdate2024-05-07en_UK
dc.relation.funderprojectESA ExoMars Rover Guest Investigator Application: The role of Fe-C interactions in global processes on Earth and Marsen_UK
dc.relation.funderrefST/Y000072/1en_UK
rioxxterms.apcnot requireden_UK
rioxxterms.typeJournal Article/Reviewen_UK
rioxxterms.versionVoRen_UK
local.rioxx.authorAssavapanuvat, Prakhin|en_UK
local.rioxx.authorBreithaupt, Joshua|en_UK
local.rioxx.authorEngelbert, Kevin|en_UK
local.rioxx.authorSchroeder, Christian|0000-0002-7935-6039en_UK
local.rioxx.authorSmoak, Joseph|en_UK
local.rioxx.authorBianchi, Thomas|en_UK
local.rioxx.projectST/Y000072/1|UK Space Agency|http://dx.doi.org/10.13039/100011690en_UK
local.rioxx.freetoreaddate2024-05-07en_UK
local.rioxx.licencehttp://creativecommons.org/licenses/by-nc-nd/4.0/|2024-05-07|en_UK
local.rioxx.filename1-s20-S0016706124001332-main.pdfen_UK
local.rioxx.filecount1en_UK
local.rioxx.source0016-7061en_UK
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