Transit time distribution probability density functions (TTDs) are used to investigate the possible role of changing boundary conditions in driving the delta (super 13) C signal in the interior of a steady state ocean. We use idealized examples to investigate the general question of how a conservative tracer propagates from the surface ocean to interior ocean and to illustrate how a given tracer boundary signal will be "filtered" with increasing distance from its source region. We show that tracers in the deep southeast Atlantic Ocean will respond much more strongly to changes in the surface Southern Ocean than to changes in the high-latitude North Atlantic, while the opposite is true for waters at intermediate depths. The impact of a change in the Southern Ocean surface delta (super 13) C on a profile from the western South Atlantic is estimated using model-derived transit time distributions, and it is shown that significant deep ocean delta (super 13) C variations can be expected on glacial-interglacial timescales, even under a steady state circulation regime. Records of delta (super 13) C from the high-latitude North Atlantic and Southern Ocean are used as a proxy for glacial-interglacial changes in the surface ocean boundary condition in regions of deepwater formation. (mod. journ. abst.)

West: -90.4906 East: 13.3346 North: 41.0005 South: -42.5500

Expedition: 138

Site: 138-846

Expedition: 177

Site: 177-1088

Site: 177-1089

Site: 177-1090

Expedition: 94

Site: 94-607

Provider: SEDIS Publication Catalogue

Data set link: http://sedis.iodp.org/pub-catalogue/index.php?id=10.1029/2005PA001226 (c.f. for more detailed metadata)

Data download: application/pdf

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