Calibration of the alkenone paleotemperature index U37K′ based on core-tops from the eastern South Atlantic and the global ocean (60°N-60°S)

We have analysed alkenones in 149 surface sediments from the eastern South Atlantic in order to establish a sediment-based calibration of the U-37(K') paleotemperature index. Our study covers the major tropical to subpolar production systems and sea-surface temperatures (SST's) between 0 degrees and 27 degrees C. In order to define the most suitable calibration for this region, the U-37(K'); values were correlated to seasonal, annual, and production-weighted annual mean atlas temperatures and compared to previously published culture and core-top calibrations. The best linear correlation between U-37(K') and SST was obtained using annual mean SST from 0 to 10 m water depth (U-37(K') = 0.033 T + 0.069, r(2) = 0.981). Data scattering increased significantly using temperatures of waters deeper than 20 m, suggesting that U-37(K') reflects mixed-layer SST and that alkenone production at thermocline depths was not high enough to significantly bias the mixed-layer signal. Regressions based on both production-weighted and on actual annual mean atlas SST were virtually identical, indicating that regional variations in the seasonality of primary production have no discernible effect on the U-37(K') vs. SST relationship. Comparison with published core-top calibrations from other oceanic regions revealed a high degree of accordance. We, therefore, established a global core-top calibration using U-37(K') data from 370 sites between 60 degrees S and 60 degrees N in the Atlantic, Indian, and Pacific Oceans and annual mean atlas SST (0-29 degrees C) from 0 m water depth. The resulting relationship (U-37(K') = 0.033 T + 0.044, r(2) = 958) is identical within error limits to the widely used E. huxleyi calibrations of Prahl and Wakeham (1987) and Prahl et al. (1988) attesting their general applicability. The observation that core-top calibrations extending over various biogeographical coccolithophorid zones are strongly linear and in better accordance than culture calibrations suggests that U-37(K') is less species-dependent than is indicated by culture experiments. The results also suggest that variations in growth rate of algae and nutrient availability do not significantly affect the sedimentary record of U-37(K') in open ocean environments. Copyright (C) 1998 Elsevier Science Ltd.