Carbon isotope fractionation by an ancestral rubisco suggests biological proxies for CO2through geologic time should be re-evaluated

MLA

Renée Z. Wang, et al. Carbon Isotope Fractionation by an Ancestral Rubisco Suggests Biological Proxies for CO2through Geologic Time Should Be Re-Evaluated. June 2022. EBSCOhost, https://doi.org/10.1101/2022.06.22.497258.

APA

Renée Z. Wang, Robert J. Nichols, Albert K. Liu, Avi I. Flamholz, Juliana Artier, Doug M. Banda, David F. Savage, John M. Eiler, Patrick M. Shih, & Woodward W. Fischer. (2022). Carbon isotope fractionation by an ancestral rubisco suggests biological proxies for CO2through geologic time should be re-evaluated. https://doi.org/10.1101/2022.06.22.497258

Chicago

Renée Z. Wang, Robert J. Nichols, Albert K. Liu, Avi I. Flamholz, Juliana Artier, Doug M. Banda, David F. Savage, John M. Eiler, Patrick M. Shih, and Woodward W. Fischer. 2022. “Carbon Isotope Fractionation by an Ancestral Rubisco Suggests Biological Proxies for CO2through Geologic Time Should Be Re-Evaluated,” June. doi:10.1101/2022.06.22.497258.