Seasonal changes in Fe species and soluble Fe concentration in the atmosphere in the Northwest Pacific region based on the analysis of aerosols collected in Tsukuba, Japan

by Y. Takahashi, T. Furukawa, Y. Kanai, M. Uematsu, G. Zheng, M. A. Marcus
Atmospheric Chemistry and Physics ()
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Abstract

Atmospheric iron (Fe) can be a significant source of nutrition for phytoplankton inhabiting remote oceans, which in turn has a large influence on the Earth's climate. The bioavailability of Fe in aerosols depends mainly on the fraction of soluble Fe (= [Fe Sol ]/[Fe Total ], where [Fe Sol ] and [Fe Total ] are the atmospheric concentrations of soluble and total Fe, respectively). However, the numerous factors affect-ing the soluble Fe fraction have not been fully understood. In this study, the Fe species, chemical composition, and solu-ble Fe concentrations in aerosols collected in Tsukuba, Japan were investigated over a year (nine samples from Decem-ber 2002 to October 2003) to identify the factors affecting the amount of soluble Fe supplied into the ocean. The soluble Fe concentration in aerosols is correlated with those of sul-fate and oxalate originated from anthropogenic sources, sug-gesting that soluble Fe is mainly derived from anthropogenic sources. Moreover, the soluble Fe concentration is also cor-related with the enrichment factors of vanadium and nickel emitted by fossil fuel combustion. These results suggest that the degree of Fe dissolution is influenced by the magnitude of anthropogenic activity, such as fossil fuel combustion. X-ray absorption fine structure (XAFS) spectroscopy was performed in order to identify the Fe species in aerosols. Fit-ting of XAFS spectra coupled with micro X-ray fluorescence analysis (µ-XRF) showed the main Fe species in aerosols in Tsukuba to be illite, ferrihydrite, hornblende, and Fe(III) sulfate. Moreover, the soluble Fe fraction in each sample measured by leaching experiments is closely correlated with the Fe(III) sulfate fraction determined by the XAFS spec-trum fitting, suggesting that Fe(III) sulfate is the main solu-ble Fe in the ocean. Another possible factor that can control the amount of soluble Fe supplied into the ocean is the to-tal Fe(III) concentration in the atmosphere, which was high in spring due to the high mineral dust concentrations during spring in East Asia. However, this factor does not contribute to the amount of soluble Fe to a larger degree than the ef-fect of Fe speciation, or more strictly speaking the presence of Fe(III) sulfate. Therefore, based on these results, the most significant factor influencing the amount of soluble Fe in the North Pacific region is the concentration of anthropogenic Fe species such as Fe(III) sulfate that can be emitted from megacities in Eastern Asia.

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