Description: Integrated Ocean Drilling Program (IODP) Expedition 342 recovered exceptional Paleogene to early Neogene sedimentary archives from clay-rich sediments in the northwest Atlantic Ocean. These archives present an opportunity to study Cenozoic climate in a highly sensitive region at often unprecedented resolution. Such studies require continuous records in the depth and time domains. Using records from multiple adjacent drilled holes, intervals within consecutive cores are typically spliced into a single composite record on board the R/V JOIDES Resolution using high-resolution physical properties data sets acquired before the cores are split. The highly dynamic nature of the sediment drifts drilled during Expedition 342 and the modest amplitude of variance in the physical property records made it possible to construct only highly tentative initial working splices, which require extensive postexpedition follow-up work. Postexpedition, high-resolution X-ray fluorescence (XRF) core scanning data enabled the construction of a preliminary composite depth scale and splice. Here, we present the revised composite depth scale and splice for IODP Site U1406, predominantly constructed using detailed hole-to-hole correlations of newly generated high-resolution XRF data and revisions of the initial XRF data set. The revised composite depth scale and splice serve as a reference framework for future research on Site U1406 sediments.

Description: The interval spanning from the Early Eocene Climatic Optimum (EECO) to the onset of long-term cooling in the middle Eocene is marked by prominent changes in calcareous nannofossil assemblages and coincides with modification of the North Atlantic deep-ocean circulation. Here we present an integrated calcareous nannoplakton and bulk stable isotope records (δ18O and δ13C) across the early-middle Eocene (~52- 43 Ma) from IODP Site U1410 (northwest Atlantic), where middle Eocene deposits occur as clay-rich drift sediments reflecting the formation of persistent deep currents. Abundance patterns of selected biostratigraphically relevant taxa encompassing Ypresian-Lutetian calcareous nannofossil Zones CNE4-CNE12 served to test the biostratigraphic reliability of the species. In addition, long- and short-term trends documented in geochemical data have been used to determine the temporal relationships between palaeoenvironmental trends and changes in calcareous nannofossil assemblages. After the EECO to the Ypresian-Lutetian boundary, calcareous nannofossils switched from an assemblage mainly composed of warm-water and oligotrophic taxa (Zygrhablithus, Discoaster, Sphenolithus, Coccolithus) to one dominated by the more temperate and eutrophic reticulofenestrids. This prominent change occurred during a phase of relatively high δ18O values likely related to the post-EECO cooling. Although the dominance of reticulofenestrids persisted unvaried throughout the study middle Eocene interval, early Lutetian stable isotope records indicate a reversal in the paleoenvironmetal trends suggesting a temporary restoration of warmer conditions associated with an increase in abundance of D. sublodoensis. These results confirm previous records of environmental instability but the comparison of our results with different dataset highlights a global enigmatic scenario in term of bio-chemo-magnetostratigraphy.

Description: It contains three tables that correspond to the supplementary information of the article mentioned above. Tables S3 and S4 can be found within the Supplementary Information document. Table S1 contains high-resolution bulk and benthic carbon and oxygen stable isotope data from ODP Hole 702B across the Middle Eocene Climatic Optimum (40 Ma). Table S2 contains benthic foraminiferal data (relative abundance and ecology index) and accumulation rates from ODP Hole 702B across the Middle Eocene Climatic Optimum (40 Ma). Table S5 contains middle Eocene ODP Hole 702B XRF core scanning data, high-resolution bulk and benthic carbon and oxygen stable isotope data from ODP Site 1263 and age model correlation tie points between drill sites for ODP Sites 1263, 738 and 702B as well tie points for a detailed astronomical age model for ODP Site 1263 (La2010b solution).

Description: This is the full dataset for the manuscript Astronomical calibration of the Ypresian timescale: implications for seafloor spreading rates and the chaotic behavior of the solar system? by Westerhold, T., Röhl, U., Frederichs, T., Agnini, C., Raffi, I., Zachos, J. C., and Wilkens, R. H. published in Climate of the Past, 13, 1129-1152, https://doi.org/10.5194/cp-13-1129-2017, 2017. It contains 48 tables with XRF core scanning data, bulk and benthic stable isotope data compiled, raw inclination-declination-intensity data, Paleomagnetic interpretation, magnetostratigraphy, calcareous nanofossil events, mapping pairs for correlation of different hole in a drill site, tie points to correlated between drill sites for ODP Sites 1258, 1262, 1263, 1265, 1267 (Tables S1-44). Tables S45 to 48 contain a combined magnetostratigraphy, a 405-kyr tuning age model, tie points for a detailed astronomical age model, and comparison of magnetochron durations.