Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/131993
DC FieldValueLanguage
dc.contributor.authorMarín Samper, Lauraen_US
dc.contributor.authorAristegui, Javieren_US
dc.contributor.authorHernández-Hernández, Nauzeten_US
dc.contributor.authorOrtiz, Joaquinen_US
dc.contributor.authorArcher, Stephen D.en_US
dc.contributor.authorLudwig, Andreaen_US
dc.contributor.authorRiebesell ,Ulfen_US
dc.date.accessioned2024-07-01T14:49:41Z-
dc.date.available2024-07-01T14:49:41Z-
dc.date.issued2024en_US
dc.identifier.issn1726-4170en_US
dc.identifier.otherWoS-
dc.identifier.urihttp://hdl.handle.net/10553/131993-
dc.description.abstractOcean alkalinity enhancement (OAE) is a negative emissions technology (NET) that shows significant potential for climate change mitigation. By increasing the bicarbonate ion concentration in ocean water, OAE could enhance long-term carbon storage and mitigate ocean acidification. However, the side effects and/or potential co-benefits of OAE on natural planktonic communities remain poorly understood. To address this knowledge gap, a mesocosm experiment was conducted in the oligotrophic waters of Gran Canaria. A CO2-equilibrated total alkalinity (TA) gradient was employed in increments of 300 mu mol L-1 , ranging from similar to 2400 to similar to 4800 mu mol L-1. This study represents the first attempt to evaluate the potential impacts of OAE on planktonic communities under natural conditions. The results show that net community production (NCP), gross production (GP), community respiration (CR) rates, and the metabolic balance ( GP : CR ) did not exhibit a linear response to the whole alkalinity gradient. Instead, significant polynomial and linear regression models were observed for all rates up to Delta TA 1800 mu mol L-1, in relation to the dissolved inorganic carbon (DIC) concentrations. Notably, the Delta TA 1500 and 1800 mu mol L-1 treatments showed peaks in NCP shifting from a heterotrophic to an autotrophic state, with NCP values of 4 and 8 mu mol O-2 kg(-1) d(-1) , respectively. These peaks and the optimum curve were also reflected in the nanoplankton abundance, size-fractionated chlorophyll a , and C-14 uptake data. Furthermore, abiotic precipitation occurred in the highest treatment after day 21, but no impact on the measured parameters was detected. Overall, a damaging effect of CO2- equilibrated OAE in the range applied here on phytoplankton primary production, community metabolism, and composition could not be inferred. In fact, a potential co-benefit to OAE was observed in the form of the positive curvilinear response to the DIC gradient up to the Delta TA 1800 treatment. Further experimental research at this scale is key to gain a better understanding of the short- and long-term effects of OAE on planktonic communities.en_US
dc.languageengen_US
dc.relationOcean-based Negative Emission Technologies - analyzing the feasibility, risks, and cobenefits of ocean-based negative emission technologies for stabilizing the climateen_US
dc.relation.ispartofBiogeosciencesen_US
dc.sourceBiogeosciences [ISSN 1726-4170],v. 21 (11), p. 2859-2876, (Junio 2024)en_US
dc.subject251002 Oceanografía químicaen_US
dc.subject.otherCarbon-Dioxideen_US
dc.subject.otherCo2 Sequestrationen_US
dc.subject.otherAcidificationen_US
dc.subject.otherSeawateren_US
dc.subject.otherGrowthen_US
dc.subject.otherPhen_US
dc.subject.otherPrecipitationen_US
dc.subject.otherMechanismsen_US
dc.subject.otherDiversityen_US
dc.subject.otherDynamicsen_US
dc.titleAssessing the impact of COs2-equilibrated ocean alkalinity enhancement on microbial metabolic rates in an oligotrophic systemen_US
dc.typeinfo:eu-repo/semantics/Articleen_US
dc.typeArticleen_US
dc.identifier.doi10.5194/bg-21-2859-2024en_US
dc.identifier.isi001247054100001-
dc.identifier.eissn1726-4189-
dc.description.lastpage2876en_US
dc.identifier.issue11-
dc.description.firstpage2859en_US
dc.relation.volume21en_US
dc.investigacionCienciasen_US
dc.type2Artículoen_US
dc.contributor.daisngid39146023-
dc.contributor.daisngid49701099-
dc.contributor.daisngid55910091-
dc.contributor.daisngid59036159-
dc.contributor.daisngid40729110-
dc.contributor.daisngid25380045-
dc.contributor.daisngid13704190-
dc.description.numberofpages18en_US
dc.utils.revisionNoen_US
dc.contributor.wosstandardWOS:Marin-Samper, L-
dc.contributor.wosstandardWOS:Arístegui, J-
dc.contributor.wosstandardWOS:Hernández-Hernández, N-
dc.contributor.wosstandardWOS:Ortiz, J-
dc.contributor.wosstandardWOS:Archer, SD-
dc.contributor.wosstandardWOS:Ludwig, A-
dc.contributor.wosstandardWOS:Riebesell, U-
dc.date.coverdateJunio 2024en_US
dc.identifier.ulpgcen_US
dc.contributor.buulpgcBU-BASen_US
dc.description.sjr1,767
dc.description.jcr4,9
dc.description.sjrqQ1
dc.description.jcrqQ1
dc.description.scieSCIE
dc.description.miaricds10,8
item.grantfulltextopen-
item.fulltextCon texto completo-
crisitem.author.deptGIR IOCAG: Oceanografía Biológica y Algología Aplicada-
crisitem.author.deptIU de Oceanografía y Cambio Global-
crisitem.author.deptGIR IOCAG: Oceanografía Biológica y Algología Aplicada-
crisitem.author.deptIU de Oceanografía y Cambio Global-
crisitem.author.deptDepartamento de Biología-
crisitem.author.deptGIR IOCAG: Oceanografía Biológica y Algología Aplicada-
crisitem.author.deptIU de Oceanografía y Cambio Global-
crisitem.author.orcid0000-0002-7526-7741-
crisitem.author.orcid0000-0003-1503-4214-
crisitem.author.parentorgIU de Oceanografía y Cambio Global-
crisitem.author.parentorgIU de Oceanografía y Cambio Global-
crisitem.author.parentorgIU de Oceanografía y Cambio Global-
crisitem.author.fullNameMarín Samper, Laura-
crisitem.author.fullNameArístegui Ruiz, Javier-
crisitem.author.fullNameHernandez Hernandez,Nauzet-
crisitem.author.fullNameRiebesell ,Ulf-
crisitem.project.fundingProgramConcedido-
crisitem.project.principalinvestigatorArístegui Ruiz, Javier-
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