Welcome to the new version of CaltechAUTHORS. Login is currently restricted to library staff. If you notice any issues, please email coda@library.caltech.edu
Published May 2019 | public
Journal Article

Productivity and sediment focusing in the Eastern Equatorial Pacific during the last 30,000 years

Abstract

The Eastern Equatorial Pacific (EEP) affects the ocean-atmosphere exchange of CO_2 on seasonal and interannual time scales through a balance of upwelling of CO_2-rich waters and the drawdown of CO_2 by biological productivity in the surface waters. The EEP accounts for almost 3/4ths of the global oceanic outgassing of CO_2 to the atmosphere, and it is known that the size of this EEP source of CO_2 varies significantly during El Nino events (Feely et al., 1999). There has been much effort to determine the El Nino Southern Oscillation (ENSO) state of the Equatorial Pacific during the past, particularly at the Last Glacial Maximum (LGM) when the global atmospheric [CO_2] was low, yet the glacial ENSO state remains a source of considerable controversy (Ford et al., 2015; Herguera, 2000; Koutavas et al., 2002; Loubere, 2001; Loubere et al., 2004; Lyle, 1988; Paytan et al., 1996; Pedersen, 1983; Sarnthein et al., 1988). Reconstructing past changes in equatorial productivity could help establish the prevailing ENSO state of the Pacific during the LGM, as the El Nino-related deepening of the thermocline in the East Pacific reduces productivity in the EEP and increases it in the Western Equatorial Pacific. Here we investigate changes in productivity in four cores from the equatorial Pacific, in the heart of the modern equatorial cold tongue. We determine changes in productivity using measurements of ^(231)Pa, ^(230)Th, ^(232)Th, ^(235)U and ^(238)U along with sedimentary fluxes. We also compare our findings to other sediment cores in the Pacific. We find elevated (^(231)Pa/^(230)Th)_(xs_ values (higher than production values) in general across the cores, indicating a net sink for oceanic ^(231)Pa in the EEP. We also find evidence for low levels of lateral sediment focusing, as well as lower productivity during the glacial in reduced ^(230)Th-normalized opal fluxes and decreased (^(231)Pa/^(230)Th)_(xs) at multiple sites. Examination of authigenic uranium at our sites in conjunction with previous work (Jacobel et al., 2017) shows that between 2 and 3.5 km depth in the Equatorial Pacific, there was a floating pool of respired carbon associated with the southward return flow of North Pacific Deep Water, sequestering CO_2 from the atmosphere during the LGM. We also compile Pacific basin wide records of productivity and Pa/Th during the Holocene (0-11kya) and LGM (18-22kya) and find evidence consistent with a more frequent or persistent glacial El Niño state throughout much of the Pacific (North Pacific, Western Equatorial Pacific and EEP).

Additional Information

© 2019 Published by Elsevier. Received 13 March 2018, Revised 8 March 2019, Accepted 17 March 2019, Available online 3 April 2019.

Additional details

Created:
August 19, 2023
Modified:
October 20, 2023