Stable Sulfur Isotopic Evidence for Historical Changes of Sulfur Cycling in Estuarine Sediments from Northern Florida |
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Authors: | Volker Brüchert Lisa M. Pratt |
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Affiliation: | (1) Department of Biogeochemistry, Max Planck Institute of Marine Microbiology, D-28359 Bremen, Germany;(2) biogeochemical Laboratories, Department of Geological Sciences, Indiana University, Bloomington, IN-47408, USA |
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Abstract: | Data on abundance and isotopic composition of porewater and sedimentary sulfur species are reported for relatively uncontaminated and highly contaminated fine-grained anoxic sediments of St. Andrew Bay, Florida. A strong contrast in amount and composition of sedimentary organic matter at the two sites allows a comparative study of the historical effects of increased organic loading on sulfur cycling and sulfur isotopic fractionation. In the contaminated sediments, an increase in organic loading caused increased sedimentary carbon/sulfur ratios and resulted in higher rates of bacterial sulfate reduction, but a lower efficiency of sulfide oxidation. These differences are well reflected in the isotopic composition of dissolved sulfate, sulfide, and sedimentary pyrite. Concentration and isotopic profiles of dissolved sulfate, organic carbon, and total sulfur suggest that the anaerobic decomposition of organic matter is most active in the upper 8cm but proceeds at very slow rates below this depth. The rapid formation of more than 90% of pyrite in the uppermost 2 cm which corresponds to about 3 years of sediment deposition allows the use of pyrite isotopic composition for tracing changing diagenetic conditions. Sediment profiles of the sulfur isotopic composition of pyrite reflect present-day higher rates of bacterial sulfate reduction and lower rates of sulfide oxidation, and record a profound change in the diagenetic cycling of sulfur in the contaminated sediments coincident with urban and industrial development of the St. Andrew Bay area. |
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Keywords: | sulfate stable sulfur isotopes delta 34S porewaters bacterial sulfate reduction diffusion modeling sulfide reoxidation pyrite anthropogenic effects organic contamination stable carbon isotopes delta 13C estuarine sediments Florida St. Andrew Bay pulp mill effluent lignin lignocellulose |
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