Abstract
Abstract. The cycling and transport of dissolved silicon (Si) in the ocean may be traced by its stable isotope composition, δ30Si. We present a dataset of δ30Si values along 103° W in the eastern South Pacific Ocean, ranging from the Antarctic Zone of the Southern Ocean (62° S) to the equatorial Pacific (12° S). At high southern latitudes, the uptake and associated isotope fractionation of Si by diatoms results in highly elevated δ30Si values (up to +3.2‰) in the summer mixed layer. High δ30Si values (+2‰) are also preserved in the high-latitude fossil winter mixed layer, documenting the efficient export of diatom opal beyond the maximum depth of winter convection. This elevated winter mixed layer δ30Si signature is introduced into the ocean interior by the subduction of Subantarctic Mode Water (SAMW) and Antarctic Intermediate Water (AAIW), whose northward spreading results in a strong isopycnal control on lower-thermocline and intermediate δ30Si values in the well-ventilated eastern South Pacific. Values of δ30Si are strongly conserved along SAMW and AAIW density levels as far north as 26° S, documenting the importance of the export of preformed Si from the surface Southern Ocean to lower latitudes. In contrast, in the equatorial Pacific, depressed δ30Si values in the mesopelagic ocean are observed, most likely documenting the combined influence of a North Pacific Si source as well as the accumulation of remineralized Si within the eastern equatorial Pacific shadow zone. At depth, δ30Si values in the South Pacific remain indistinguishable from deep Southern Ocean values of +1.25‰, even within Si-rich and oxygen-poor deep waters returning from the North Pacific. This homogeneity implies that the dissolution of opal plays a negligible role in altering the δ30Si value of deep waters as they traverse the deep Pacific Ocean.
Highlights
The eastern South Pacific is a region of considerable importance for the global ocean, in terms of both its circulation and its biogeochemistry
We show that elevated δ30Si values preserved in high-latitude winter mixed layers are exported to lower latitudes in Subantarctic Mode Water (SAMW)/Antarctic Intermediate Water (AAIW) and conserved as these water masses traverse the subtropical Pacific Ocean, documenting the importance of Southern Ocean export in supplying Si to the base of the permanent thermocline
This study presents the first δ30Si data from the eastern South Pacific and the Pacific sector of the Southern Ocean, a region that plays an important role in the ventilation of the mid- and low-latitude thermocline
Summary
The eastern South Pacific is a region of considerable importance for the global ocean, in terms of both its circulation and its biogeochemistry. Its high latitudes are a dominant formation region of Subantarctic Mode Water and Antarctic Intermediate Water (SAMW and AAIW; McCartney, 1982; Hanawa and Talley, 2001; Aoki et al, 2007; Sallee et al, 2010). These water masses are important participants in the ocean’s meridional overturning circulation (MOC), contributing to the upper return flow of waters to the North Atlantic (e.g., Sloyan and Rintoul, 2001; Lumpkin and Speer, 2007). The inefficiency of the equatorial Pacific biological pump, manifested by its strong CO2 outgassing, appears to owe its origin at least partially to the low Si content of SAMW/AAIW
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