Mathematics – Logic
Scientific paper
Aug 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004e%26psl.224..577b&link_type=abstract
Earth and Planetary Science Letters, Volume 224, Issue 3-4, p. 577-587.
Mathematics
Logic
7
Sulfate, O-17 Anomaly, Atacama, Leaching, Solubility
Scientific paper
Sulfate is one of the major salts accumulated in the hyperarid Atacama Desert, Chile. Its origin has been attributed to local weathering, volcanic source, sea salt, and atmosphere deposition. Previous studies concluded that atmospheric sulfate is present in the desert, but this term was poorly defined in terms of chemical origin, and its contribution to the total sulfate budget in soil is debated. The contribution of each potential sulfate source is expected to vary geographically due to different source locations. Efforts to quantify the contribution from each source have been hampered by the lack of well-defined isotopic compositions for its end-members. In this study, we discard the vague term of ``atmospheric sulfate'' by recognizing two major sulfate sources on the basis of their formation pathways: primary and secondary sulfate. Primary sulfate, including those from rock weathering, sea salt, and volcanic ash leachates, do not have an 17O anomaly. Secondary sulfate, derived from the oxidation of reduced sulfur gases (biological or volcanic emissions) by atmospheric ozone or hydrogen peroxide, however, has an 17O anomaly. We developed a method to extract water-soluble anions sequentially or entirely from bulk soil samples, and analyzed the sulfate concentrations and 17O anomalies for four geographically representative soil profiles in the central Atacama Desert (23°S to 25.5°S).
We found that sequential sulfate extractions on the same soil sample produce sulfate with decreasing Δ17O values. Except for a positive bulge at 20 to 50 cm in depth, there is a general increase in the Δ17O value for total sulfate with soil depth for all the four soil profiles that we examined. These findings are consistent with the hypothesis that secondary sulfates (17O-anomalous sulfates) are more soluble and thus preferentially leached in liquid water than primary sulfate. The finding also warns that incomplete sulfate extraction from sulfate-rich soils yields unpredictable results. We infer a Δ17O value of ~4.6‰ for secondary sulfate based on data from partial sulfate extraction experiments. Total contribution of secondary sulfate in the central Atacama Desert is estimated to range from 9% to 24%, with the highest percentage in the Central Depression.
Bao Huiming
Chong Diaz Guillermo
Jenkins Kathryn A.
Khachaturyan Margarita
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