Sulfur and oxygen isotope characterization of an Eocene playa deposit, northern High Plains, and rainwater sulfate, Baton Rouge, USA

Identifier

etd-04152005-100640

Author

Kathryn Ann Jenkins, Louisiana State University and Agricultural and Mechanical CollegeFollow

Degree

Master of Science (MS)

Department

Geology and Geophysics

Document Type

Thesis

Abstract

This thesis is composed of two independent chapters which are linked through the application of multiple stable isotope measurements of sulfate. Chapter 1 compares two Cenozoic playa deposits in the northern High Plains. Anomalous playa sulfate was discovered at Scotts Bluff which is speculated to have originated via the oxidation of volcanically emitted reduced sulfur gases. A question arises, then, is a volcanic origin of sulfate common for other Cenozoic playa deposits in the region. A complete stable isotope characterization was performed on the gypsum sulfate collected at Wolf Butte (nearby apparent playa setting) to determine if the sulfate has a similar origin to that in the Scotts Bluff playa. No¹⁷O anomaly was found in the sulfate at Wolf Butte and the δ³⁴S values range from +12.2 to +14.8‰. Potential sources of sulfate at Wolf Butte include weathering of Cretaceous shale and leaching of volcanic ashes. It is concluded that Scotts Bluff and Wolf Butte represent two different playa gypsum deposits that existed during the Cenozoic in the High Plains. Chapter 2 looks into atmospheric chemical reactions that form tropospheric sulfate in Baton Rouge area. Multiple stable isotope compositions of atmospheric sulfate in La Jolla, California (Lee 2001) revealed competing oxidation pathways exist between ozone (O₃) and hydrogen peroxide (H₂O₂). To elucidate the source and origin of atmospheric sulfate in Baton Rouge air shed, oxygen and sulfur isotopic compositions were analyzed. The outcome of this survey found that the sulfate isotopic composition data range from 0.25 to 1.43‰ and 11.8 to 19.3‰ for ∆¹⁷O and δ¹⁸O, respectively, and -1.4 to 3.8‰ for δ³⁴S. High ∆¹⁷O values were not favored in the winter season as was seen in the study preformed in California (Lee 2001). The sulfate δ³⁴S appear to be slightly depleted with respect to those in La Jolla rainwater and may be due to a predominately anthropogenic (δ³⁴S~0‰) rather than marine (δ³⁴S~+9.9‰ ±6‰) source of sulfate. Also, sulfate concentrations in rainwater were more than twice that measured in two nearby Louisiana monitoring stations, which may be due to the sampling site’s close proximity to oil refinery facilities.

Date

2005

Document Availability at the Time of Submission

Release the entire work immediately for access worldwide.

Recommended Citation

Jenkins, Kathryn Ann, "Sulfur and oxygen isotope characterization of an Eocene playa deposit, northern High Plains, and rainwater sulfate, Baton Rouge, USA" (2005). LSU Master's Theses. 3015.
https://repository.lsu.edu/gradschool_theses/3015

Committee Chair

Huiming Bao

DOI

10.31390/gradschool_theses.3015