Radiolarian census counts and radiolarian-based temperature reconstructions from sediment cores in the Pacific Ocean

In this study, we use published radiolarian census counts from 801 core-tops distributed across the Pacific Ocean, to investigate which environmental factors drive the assemblages. We harmonized taxonomically the modern dataset, and using multivariate statistical analyses, we determined that sea sur...

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Bibliographic Details
Main Authors: Hernández-Almeida, Iván, Boltovskoy, Demetrio, Kruglikova, Svetlana B, Cortese, Giuseppe
Format: Dataset
Language:English
Published: PANGAEA 2020
Subjects:
core-tops
Pacific Ocean
Radiolaria
Bering Sea
Okhotsk
Pacific
K5
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.923059
https://doi.org/10.1594/PANGAEA.923059
Description
Summary:In this study, we use published radiolarian census counts from 801 core-tops distributed across the Pacific Ocean, to investigate which environmental factors drive the assemblages. We harmonized taxonomically the modern dataset, and using multivariate statistical analyses, we determined that sea surface temperature at 10 m (SST10) is the most important variable influencing the changes observed in the radiolarian assemblages. The calibration method weighted-mean modern analogue technique with five analogs (WMAT-K5) corrected for autocorrelation using a cut-off distance of 500 km, showed a performance of R2cv = 0.83; RMSEP = 3.8 °C. This calibration method was then applied to taxonomically harmonized radiolarian census counts from 31 cores located in the Bering Sea, Western Pacific marginal seas, and Southwest and Eastern Equatorial Pacific, with some of these records covering at least the last 165 ka. We assessed the analogue quality and significance of the downcore SST10 reconstructions in all of them. We found that temperatures at 10 and 200 m were the most significant variables for the fossil assemblages. Finally, we compare the temperature reconstructions to previously published radiolarian-based SST estimates for the same cores, or to other SST records based on other methodologies. We find some differences between our new temperature estimates compared to existing ones, in particular in the Eastern Equatorial Pacific. Comparison to other methods in the Japan and Bering Sea and Sea of Okhotsk show that radiolarian-based reconstructions provide robust temperature estimates compared to biogeochemical methods, which showed SST overestimation during glacial periods.

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