4.7 Article

Pervasive aerobic nitrogen cycling in the surface ocean across the Paleoproterozoic Era

Journal

EARTH AND PLANETARY SCIENCE LETTERS
Volume 500, Issue -, Pages 117-126

Publisher

ELSEVIER SCIENCE BV
DOI: 10.1016/j.epsl.2018.08.007

Keywords

Paleoproterozoic; nitrogen isotopes; paleoredox; eukaryote evolution; Great Oxidation Event; Lomagundi Event

Funding

  1. NSF Graduate Research Fellowship [DGE-1256082]
  2. NSERC Discovery and Accelerator grants
  3. UW Department of Earth Space Sciences
  4. NASA Exobiology grant [NNX16A137G]

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Nitrogen isotope ratios in marine sedimentary rocks have become a widely used biogeochemical proxy that records information about nutrient cycling and redox conditions in Earth's distant past. While the past two decades have seen considerable progress in our understanding of the Precambrian sedimentary nitrogen isotope record, it is still compromised by substantial temporal gaps. Furthermore, quantitative links between nitrogen isotope data, marine redox conditions, and nutrient availability are largely lacking in a Precambrian context. Here we present new nitrogen isotope data from a suite of marine sedimentary rocks with ca. 2.4 to 1.8 Ga ages, spanning the Great Oxidation Event in the Paleoproterozoic, to better constrain the response of the nitrogen cycle to the first major redox transition in Earth's history. We further construct a simple box model to describe the major pathways that influenced the nitrogen isotope mass balance of the Precambrian ocean and use this as a platform to evaluate the Precambrian nitrogen isotope record. Within this framework, we find that consistently positive nitrogen isotope values, ranging from +1.1 to +7.7 parts per thousand, across the early Paleoproterozoic are strong evidence for an expansion of oxygenated surface waters. Since the isotopic signature of aerobic nitrogen cycling is recorded in the biomass of nitrate-assimilating organisms, this implicates widespread nitrate bioavailability in this time interval. The decline in offshore nitrogen isotope ratios in the Mesoproterozoic is consistent with the contraction of oxic waters, which could have inhibited the expansion of nitrate-fueled ecosystems to pelagic waters until the widespread oxygenation of the ocean in the latest Neoproterozoic to early Phanerozoic. (C) 2018 Elsevier B.V. All rights reserved.

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