2018
DOI: 10.5194/bg-15-1367-2018
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The influence of the ocean circulation state on ocean carbon storage and CO<sub>2</sub> drawdown potential in an Earth system model

Abstract: Abstract. During the four most recent glacial cycles, atmospheric CO 2 during glacial maxima has been lowered by about 90-100 ppm with respect to interglacials. There is widespread consensus that most of this carbon was partitioned in the ocean. It is, however, still debated which processes were dominant in achieving this increased carbon storage. In this paper, we use an Earth system model of intermediate complexity to explore the sensitivity of ocean carbon storage to ocean circulation state. We carry out a … Show more

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Cited by 30 publications
(37 citation statements)
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“…The conceptualization of ocean carbon storage as the sum of the saturation, soft tissue, carbonate, and disequilibrium components can greatly assist in enhancing mechanistic understanding Ito and Follows, 2013;Ödalen et al, 2018). Our simulations indicate that the disequilibrium component may play a very important role, which has not been broadly appreciated.…”
Section: Discussionmentioning
confidence: 94%
See 1 more Smart Citation
“…The conceptualization of ocean carbon storage as the sum of the saturation, soft tissue, carbonate, and disequilibrium components can greatly assist in enhancing mechanistic understanding Ito and Follows, 2013;Ödalen et al, 2018). Our simulations indicate that the disequilibrium component may play a very important role, which has not been broadly appreciated.…”
Section: Discussionmentioning
confidence: 94%
“…This theoretical framework defines four components that, together, add up to the total DIC: saturation (DIC sat ), disequilibrium (DIC dis ), carbonate (DIC carb ), and soft tissue (DIC soft ; Ito and Follows, 2013;Bernardello et al, 2014;Ödalen et al, 2018). The first two components are "preformed" quantities (DIC pre = DIC sat + DIC dis ), i.e., they are defined in the surface layer of the ocean and are carried passively by ocean circulation into the interior.…”
mentioning
confidence: 99%
“…The loss of carbon in the upper ocean (Figure a) is a global feature. Using apparent oxygen utilization, AOU = O 2sat − O 2 , where O 2sat is the saturated O 2 concentration calculated from temperature and salinity, the remineralized, soft‐tissue component, C soft , of the total DIC is commonly estimated through the following relation (see, e.g., Lauderdale et al, ; Ödalen et al, ): Csoft=rC:O2AOU. …”
Section: Resultsmentioning
confidence: 99%
“…The remaining 34 ppm could be due to northern hemisphere sea ice effects and changes in residence time of waters at the surface. Note that, if anything, temperature effects would contribute a decrease, not an increase, of C d i s —see discussions in Toggweiler et al (), Ito and Follows (), and Ödalen et al ().…”
Section: Atmospheric Pco2 and Biogeochemistrymentioning
confidence: 94%