JR100 Expedition 379T Site J1002 beryllium isotope, XRF element count and carbon isotope data sets ...
JR100 Expedition 379T Site J1002 beryllium isotope, XRF element count and carbon isotope data sets (Finalised 8th of April 2024) How to cite these data: The full data were published in Sproson et al., 2024. Sproson AD, Yokoyama Y, Miyairi Y, Aze T, Clementi VJ, Riechelson H, Bova SC, Rosenthal Y, Ch...
Main Authors: | , , , , , , , , |
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Format: | Dataset |
Language: | English |
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Zenodo
2024
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Subjects: | |
Online Access: | https://dx.doi.org/10.5281/zenodo.10608110 https://zenodo.org/doi/10.5281/zenodo.10608110 |
Summary: | JR100 Expedition 379T Site J1002 beryllium isotope, XRF element count and carbon isotope data sets (Finalised 8th of April 2024) How to cite these data: The full data were published in Sproson et al., 2024. Sproson AD, Yokoyama Y, Miyairi Y, Aze T, Clementi VJ, Riechelson H, Bova SC, Rosenthal Y, Childress LB & Expedition 379T Scientists. Near-synchronous Northern Hemisphere and Patagonian ice sheet variation over the last glacial cycle. Nature Geoscience https://doi.org/10.1038/s41561-024-01436-y (2024). Files: Supplementary Table 1: Multiple linear regression results between 10Be/9Be ratios and sedimentation rate, K/Ca, Fe/Ca, Al/Ti (this study), Green/Blue (Li et al., 2022), and Global Mean Sea Level (Lambeck et al., 2014). The multiple linear regression was calculated using the MATLAB(R) function “regress”. Supplementary Table 2: Age-depth model and beryllium isotope measurements for Site J1002. The age-depth model was calculated from radiocarbon dates and oxygen isotope stratigraphy (Li et al., ... |
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