Sulfur, carbon, and oxygen isotopes of coexisting sulfides and carbonates in gas and oil seeps from the Gulf of Mexico

Electronic Thesis or Dissertation Microbial processes consisting of bacterial sulfate reduction (BSR), bacterial disproportionation of sulfur (BDS), and BSR coupled with anaerobic oxidation of methane (BSR-AOM) occur in the Gulf of Mexico (GOM) at sites where hydrocarbon oil and gas seep through con...

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Bibliographic Details
Main Author: Morelli, Erica C.
Other Authors: Wielicki, Matthew, Aharon, Paul, Dimova, Natasha T., Olson, Julie B., Andrus, Fred
Format: Thesis
Language:English
Published: University of Alabama Libraries 2019
Subjects:
Geology
Geobiology
Geochemistry
Methane hydrate
Online Access:http://ir.ua.edu/handle/123456789/6678
Description
Summary:Electronic Thesis or Dissertation Microbial processes consisting of bacterial sulfate reduction (BSR), bacterial disproportionation of sulfur (BDS), and BSR coupled with anaerobic oxidation of methane (BSR-AOM) occur in the Gulf of Mexico (GOM) at sites where hydrocarbon oil and gas seep through conduits to the seafloor. Thus far, no studies have measured the solid-phase sulfides from GOM seeps in-situ that provide a superior analogue to sulfides from the geologic record. This study employs in-situ sulfur isotope measurements by secondary ion mass spectrometry (SIMS) in authigenic sulfides associated with barites and carbonates, and isotope measurements of carbon and oxygen by isotope ratio mass spectrometry (IRMS) in coexisting carbonates from 5 sites (GC-140, GC-185, GC-272, MC-929, and GB-382) in the GOM. Pyrite grains (FeS₂) yield variable δ³⁴S values and are considerably more ³⁴S-depleted in seeps with dominant carbonate phase (GC-140 & GC-185: range of -50.5 to -9.0‰ CDT) compared to seeps with minor to dominant barite phase (GC-272 & MC-929: range -23.9 to 19.5 ‰ CDT; GB-382: range 5.3 to 25.9‰). Measurements of carbonate reveals variably ¹³C-depleted and ¹⁸O-enriched δ¹³C and δ¹⁸O values in all seeps (GC-140 & GC-185: -36.7 to -3.5‰ VPDB and 2.5 to 5.3‰ VPDB, respectively; GC-272 & MC-929: -38.0 to -1.2‰ VPDB and 1.6 to 2.5‰ VPDB, respectively; GB-382: -31.4 to -1.2‰ VPDB and -0.5 to 4.1‰ VPDB; respectively). The isotope data suggest a strong influence of: (i) BSR and BDS processes using crude oil and unlimited SO₄²⁻ supply near the sediment-water interface (GC-140 & GC-185); (ii) BSR using crude oil/ non-methane sublimated gas hydrate and variable availability of SO₄²⁻ at depth within the sediment column (GC-272 & MC-929; GB-382), or (iii) possible BSR-AOM using sublimated methane hydrate and SO₄²⁻ near the sulfate-methane transition zone (GC-272 and GB-382). Additionally, Fe-oxides reported in association with pyrites at GC-140, GC-185, and GC-272, could potentially influence ...

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