97 / 2024-09-08 11:33:38
Effects of CO2 on the Nitrogen Isotopic Composition of Marine Diazotrophic Cyanobacteria
Marine Diazotrophic Cyanobacteria,N2 fixation,isotope effect
Session 3 - The nitrogen cycle towards a sustainable ocean: from microbes to global biogeochemistry
Abstract Accepted
Zuozhu Wen / Xiamen University
Ruotong Jiang / Xiamen University
Tianli He / Xiamen University
Thomas Browning / GEOMAR Helmholtz Centre for Ocean Research Kiel
Haizheng Hong / Xiamen University
Shuh-ji Kao / Hainan University
Jinyu Yang / Xiamen University
Dalin Shi / Xiamen University
Biological N2 fixation has been crucial for sustaining early life on Earth. Very negative δ15N values detected in Archean sediments, which are not observed in present-day environments, have been attributed to the low efficiency of proto-nitrogenases. Alternatively, variations in early atmospheric CO2 may also play a role. Here we examine the effects of varying CO2 concentrations on the biomass δ15N signatures of the cyanobacterial diazotrophs Trichodesmium erythraeum and Crocosphaera watsonii, which utilize Mo-Fe nitrogenase (the most common form of the enzyme). Our results show that these organisms produce biomass with δ15N values up to ~3‰ lower under both decreased and elevated CO2 concentrations compared to modern levels (~380 µatm). These deviations from modern CO2 levels reduces nitrogenase enzyme efficiency, leading to increased organismal isotopic fractionation during N2 fixation. This study offers an alternative explanation for the observed fluctuations in geological δ15N records and provides new insights into the past nitrogen cycle on Earth.