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

Cite

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.}
}