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Detailed sedimentary N isotope records from Cariaco Basin for Terminations I and V: Local and global implications

Urheber*innen

Meckler,  A. N.
External Organizations;

Haug,  G. H.
External Organizations;

Sigman,  D. M.
External Organizations;

/persons/resource/birgit

Plessen,  Birgit
5.2 Climate Dynamics and Landscape Evolution, 5.0 Earth Surface Processes, Departments, GFZ Publication Database, Deutsches GeoForschungsZentrum;

Peterson,  L. C.
External Organizations;

Thierstein,  H. R.
External Organizations;

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Zitation

Meckler, A. N., Haug, G. H., Sigman, D. M., Plessen, B., Peterson, L. C., Thierstein, H. R. (2007): Detailed sedimentary N isotope records from Cariaco Basin for Terminations I and V: Local and global implications. - Global Biogeochemical Cycles, 21, GB4019.
https://doi.org/10.1029/2006GB002893


https://gfzpublic.gfz-potsdam.de/pubman/item/item_235959
Zusammenfassung
For the last deglaciation and Termination V (the initiation of MIS 11 at around 430 ka) we report high-resolution sedimentary nitrogen isotope (δ 15N) records from Cariaco Basin in the Caribbean Sea. During both terminations the previously reported interglacial decrease in δ 15N clearly lags local changes such as water column anoxia as well as global increases in denitrification by several thousand years. On top of the glacial-interglacial change, several δ 15N peaks were observed during the last deglaciation. The deglacial signal in Cariaco Basin can be best explained as a combination of (1) local variations in suboxia and water column denitrification as the reason for the millennial-scale peaks, (2) a deglacial maximum in mean ocean nitrate δ 15N, and (3) increasing N2 fixation in response to globally increased denitrification causing the overall deglacial δ 15N decrease. In the Holocene, much of the decrease in δ 15N occurred between 6 and 3 ka, coinciding with an expected precession-modulated increase in African dust transport to the tropical North Atlantic and the Caribbean. This begs the hypothesis that N2 fixation in this region increased in response to interglacial maxima in denitrification elsewhere but that this response strengthened with increased mid-Holocene iron input. It remains to be seen whether the data for MIS 11 support this interpretation.