posted on 2016-02-22, 05:23authored byHaihan Chen, Alexander Laskin, Jonas Baltrusaitis, Christopher A. Gorski, Michelle M. Scherer, Vicki H. Grassian
Anthropogenic coal fly ash (FA) aerosol may represent
a significant
source of bioavailable iron in the open ocean. Few measurements have
been made that compare the solubility of atmospheric iron from anthropogenic
aerosols and other sources. We report here an investigation of iron
dissolution for three FA samples in acidic aqueous solutions and compare
the solubilities with that of Arizona test dust (AZTD), a reference
material for mineral dust. The effects of pH, simulated cloud processing,
and solar radiation on iron solubility have been explored. Similar
to previously reported results on mineral dust, iron in aluminosilicate
phases provides the predominant component of dissolved iron. Iron
solubility of FA is substantially higher than of the crystalline minerals
comprising AZTD. Simulated atmospheric processing elevates iron solubility
due to significant changes in the morphology of aluminosilicate glass,
a dominant material in FA particles. Iron is continuously released
into the aqueous solution as FA particles break up into smaller fragments.
These results suggest that the assessment of dissolved atmospheric
iron deposition fluxes and their effect on the biogeochemistry at
the ocean surface should be constrained by the source, environmental
pH, iron speciation, and solar radiation.