Richardson Biogeochemistry Lab

Investigating Terrestrial to Marine Biogeochemical Processes

Effects of early marine diagenesis and site-specific depositional controls on carbonate-associated sulfate: Insights from paired S and O isotopic analyses


Journal article


J. A. Richardson, A. Lepland, O. Hints, A. Prave, W. Gilhooly, A. Bradley, D. Fike
Chemical Geology, 2021

Semantic Scholar DOI
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APA   Click to copy
Richardson, J. A., Lepland, A., Hints, O., Prave, A., Gilhooly, W., Bradley, A., & Fike, D. (2021). Effects of early marine diagenesis and site-specific depositional controls on carbonate-associated sulfate: Insights from paired S and O isotopic analyses. Chemical Geology.


Chicago/Turabian   Click to copy
Richardson, J. A., A. Lepland, O. Hints, A. Prave, W. Gilhooly, A. Bradley, and D. Fike. “Effects of Early Marine Diagenesis and Site-Specific Depositional Controls on Carbonate-Associated Sulfate: Insights from Paired S and O Isotopic Analyses.” Chemical Geology (2021).


MLA   Click to copy
Richardson, J. A., et al. “Effects of Early Marine Diagenesis and Site-Specific Depositional Controls on Carbonate-Associated Sulfate: Insights from Paired S and O Isotopic Analyses.” Chemical Geology, 2021.


BibTeX   Click to copy

@article{j2021a,
  title = {Effects of early marine diagenesis and site-specific depositional controls on carbonate-associated sulfate: Insights from paired S and O isotopic analyses},
  year = {2021},
  journal = {Chemical Geology},
  author = {Richardson, J. A. and Lepland, A. and Hints, O. and Prave, A. and Gilhooly, W. and Bradley, A. and Fike, D.}
}