the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Sources, solubility, and acid processing of aerosol iron and phosphorous over the South China Sea: East Asian dust and pollution outflows vs. Southeast Asian biomass burning
Abstract. Iron and phosphorous are essential to marine microorganisms in vast regions in oceans worldwide. Atmospheric inputs are important allochthonous sources of Fe and P. The variability in airborne Fe deposition is hypothesized to serve an important function in previous glacial–interglacial cycles, contributing to the variability in atmospheric CO2 and ultimately the climate. Understanding the mechanisms underlying the mobilization of airborne Fe and P from insoluble to soluble forms is critical to evaluate the biogeochemical effects of these elements. In this study, we present a robust power-law correlation between fractional Fe solubility and non-sea-salt-sulfate / Total-Fe (nss-sulfate / FeT) molar ratio independent of distinct sources of airborne Fe of natural and/or anthropogenic origins over the South China Sea. This area receives Asian dust and pollution outflows and Southeast Asian biomass burning. This correlation is also valid for nitrate and total acids, demonstrating the significance of acid processing in enhancing Fe mobilization. Such correlations are also found for P, yet source dependent. These relationships serve as straightforward parameters that can be directly incorporated into available atmosphere–ocean coupling models that facilitate the assessment of Fe and P fertilization effects. Although biomass burning activity may supply Fe to the bioavailable Fe pool, pyrogenic soils are possibly the main contributors, not the burned plants. This finding warrants a multidisciplinary investigation that integrates atmospheric observations with the resulting biogeochemistry in the South China Sea, which is influenced by atmospheric forcings and nutrient dynamics with monsoons.
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- RC C6975: 'Comments on Sources, solubility and acid processing of aerosol iron and Phosphorous over the South China Sea: … Hsu et al', Anonymous Referee #1, 12 Sep 2014
- RC C7160: 'Referee Comment', Anonymous Referee #2, 17 Sep 2014
- RC C7293: 'Referee Comment', Anonymous Referee #3, 20 Sep 2014
- RC C6975: 'Comments on Sources, solubility and acid processing of aerosol iron and Phosphorous over the South China Sea: … Hsu et al', Anonymous Referee #1, 12 Sep 2014
- RC C7160: 'Referee Comment', Anonymous Referee #2, 17 Sep 2014
- RC C7293: 'Referee Comment', Anonymous Referee #3, 20 Sep 2014
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- Use of isotopic compositions of nitrate in TSP to identify sources and chemistry in South China Sea H. Xiao et al. 10.1016/j.atmosenv.2015.03.006