Eolian dust input to the Subarctic North Pacific

Sascha Serno, Gisela Winckler, Robert F. Anderson, Christopher T. Hayes, David McGee, Bjoern Machalett, Haojia Ren, Susanne M. Straub, Rainer Gersonde, Gerald H. Haug

Research output: Contribution to journalArticlepeer-review

Abstract

Eolian dust is a significant source of iron and other nutrients that are essential for the health of marine ecosystems and potentially a controlling factor of the high nutrient-low chlorophyll status of the Subarctic North Pacific. We map the spatial distribution of dust input using three different geochemical tracers of eolian dust, He-4, Th-232 and rare earth elements, in combination with grain size distribution data, from a set of core-top sediments covering the entire Subarctic North Pacific. Using the suite of geochemical proxies to fingerprint different lithogenic components, we deconvolve eolian dust input from other lithogenic inputs such as volcanic ash, ice-rafted debris, riverine and hemipelagic input. While the open ocean sites far away from the volcanic arcs are dominantly composed of pure eolian dust, lithogenic components other than eolian dust play a more crucial role along the arcs. In sites dominated by dust, eolian dust input appears to be characterized by a nearly uniform grain size mode at similar to 4 mu m.

Applying the Th-230-normalization technique, our proxies yield a consistent pattern of uniform dust fluxes of 1-2 g/m(2)/yr across the Subarctic North Pacific. Elevated eolian dust fluxes of 2-4 g/m(2)/yr characterize the westernmost region off Japan and the southern Kurile Islands south of 45 degrees N and west of 165 degrees E along the main pathway of the westerly winds. The core-top based dust flux reconstruction is consistent with recent estimates based on dissolved thorium isotope concentrations in seawater from the Subarctic North Pacific. The dust flux pattern compares well with state-of-the-art dust model predictions in the western and central Subarctic North Pacific, but we find that dust fluxes are higher than modeled fluxes by 0.5-1 g/m(2)/yr in the northwest, northeast and eastern Subarctic North Pacific. Our results provide an important benchmark for biogeochemical models and a robust approach for downcore studies testing dust-induced iron fertilization of past changes in biological productivity in the Subarctic North Pacific. (C) 2013 Elsevier B.V. All rights reserved.

Original languageEnglish
Pages (from-to)252-263
Number of pages12
JournalEarth and Planetary Science Letters
Volume387
DOIs
Publication statusPublished - 1 Feb 2014

Keywords

  • eolian dust
  • Subarctic North Pacific
  • INOPEX
  • helium-4
  • Th-232
  • REE
  • LAST GLACIAL MAXIMUM
  • ATMOSPHERIC TRANSPORT
  • NORTHWESTERN PACIFIC
  • EQUATORIAL PACIFIC
  • SETTLING PARTICLES
  • CONTINENTAL DUST
  • MINERAL DUST
  • GRAIN-SIZE
  • ICE CORE
  • DEEP-SEA

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