Saher, Margot; Rostek, Frauke; Jung, S J A; Bard, Edouard; Schneider, Ralph R; Greaves, Mervyn; Ganssen, Gerald M; Elderfield, Henry; Kroon, Dick (2009): Western Arabian Sea SST estimation [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.831774, Supplement to: Saher, M et al. (2009): Western Arabian Sea SST during the penultimate interglacial: A comparison of UK'37 and Mg/Ca paleothermometry. Paleoceanography, 24(2), PA2212, https://doi.org/10.1029/2007PA001557
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Abstract:
Millennial-scale records of planktonic foraminiferal Mg/Ca, bulk sediment UK37', and planktonic foraminiferal d18O are presented across the last two deglaciations in sediment core NIOP929 from the Arabian Sea. Mg/Ca-derived temperature variability during the penultimate and last deglacial periods falls within the range of modern day Arabian Sea temperatures, which are influenced by monsoon-driven upwelling. The UK37'-derived temperatures in MIS 5e are similar to modern intermonsoon values and are on average 3.5°C higher than the Mg/Ca temperatures in the same period. MIS 5e UK37' and Mg/Ca temperatures are 1.5°C warmer than during the Holocene, while the UK37'-Mg/Ca temperature difference was about twice as large during MIS 5e. This is surprising as, nowadays, both proxy carriers have a very similar seasonal and depth distribution. Partial explanations for the MIS 5e UK37'-Mg/Ca temperature offset include carbonate dissolution, the change in dominant alkenone-producing species, and possibly lateral advection of alkenone-bearing material and a change in seasonal or depth distribution of proxy carriers. Our findings suggest that (1) Mg/Ca of G. ruber documents seawater temperature in the same way during both studied deglaciations as in the present, with respect to, e.g., season and depth, and (2) UK37'-based temperatures from MIS 5 (or older) represent neither upwelling SST nor annual average SST (as it does in the present and the Holocene) but a higher temperature, despite alkenone production mainly occurring in the upwelling season. Further we report that at the onset of the deglacial warming, the Mg/Ca record leads the UK37' record by 4 ka, of which a maximum of 2 ka may be explained by postdepositional processes. Deglacial warming in both temperature records leads the deglacial decrease in the d18O profile, and Mg/Ca-based temperature returns to lower values before d18O has reached minimum interglacial values. This indicates a substantial lead in Arabian Sea warming relative to global ice melting.
Coverage:
Latitude: 13.703500 * Longitude: 53.246000
Event(s):
NIOP-C2_929 (NIOP929) * Latitude: 13.703500 * Longitude: 53.246000 * Elevation: -2490.0 m * Location: Arabian Sea * Campaign: NIOP-C2 * Basis: Tyro * Method/Device: Core (CORE)
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
2 datasets
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Datasets listed in this publication series
- Saher, M; Rostek, F; Jung, SJA et al. (2009): (Table 1) Age/depth tie points for the MIS 6-5 section of sediment core NIOP-C2_929. https://doi.org/10.1594/PANGAEA.831771
- Saher, M; Rostek, F; Jung, SJA et al. (2009): (Table S1) Stable oxygen isotopes, Mg/Ca ratios and UK'37 measurement of sediment core NIOP-C2_929. https://doi.org/10.1594/PANGAEA.831773