Nitrogen cycling during the Cretaceous, Cenomanian- Turonian Oceanic Anoxic Event II

Christopher K. Junium, Michael A. Arthur

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Abstract

Low δ15N values, ranging from +1.2% to -3.9%, and atomic carbon/nitrogen (C/N) ratios of 25-50 are characteristic of "black shales" deposited during the Cenomanian-Turonian boundary interval and Oceanic Anoxic Event II (OAE II). An observed antithetic relationship between C/N ratios and δ15N could suggest a predominance of terrestrially derived organic matter or a diagenetic control on δ15N variability shifting bulk δ15N values lower. However, Hydrogen Indices (HI) generally >450, and a positive correlation of HI with C/N mitigates against a significant terrestrial organic matter fraction. High C/N values are likely the result preferential degradation of labile, N-rich compounds during early diagenesis and loss of N as ammonium from sediments through time. A hypothetical model that considers the degradation of a 15N-enriched labile protein fraction yields only small, 1-2% negative shifts in δ15N. However, 15N depletion during diagenesis is contrary to normal isotope kinetics which should result in 15N enrichment of bulk organic matter. Therefore we conclude that the bulk δ15N values in this study reflect primary changes in the nitrogen cycle. The δ15N data support the hypothesis of expanded nitrogen fixation driven by upwelling of nutrient-nitrogen poor, phosphorus replete waters during OAE II and from the mid-Cenomanian to Santonian at Demerara Rise. The low δ15N values, which are significantly lower than bulk δ15N values in modern regions where nitrogen fixation is known to be important, probably result from a more significant fraction of dissolved inorganic nitrogen being produced by nitrogen fixation. During the peak of OAE II a marked shift to lower δ15N values is observed. This shift possibly reflects greater utilization of 15N-depleted ammonium during a chemocline upward excursion (CUE). Dominance of low δ15N values from other periods of more widespread marine anoxia is likely the result of similar processes.

Original languageEnglish (US)
Article numberQ03002
JournalGeochemistry, Geophysics, Geosystems
Volume8
Issue number3
DOIs
StatePublished - Mar 2007

All Science Journal Classification (ASJC) codes

  • Geophysics
  • Geochemistry and Petrology

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