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Proc Natl Acad Sci U S A ; 109(7): 2269-74, 2012 Feb 14.
Artículo en Inglés | MEDLINE | ID: mdl-22315397

RESUMEN

The Mesozoic is marked by several widespread occurrences of intense organic matter burial. Sediments from the largest of these events, the Cenomanian-Turonian Oceanic Anoxic Event (OAE 2) are characterized by lower nitrogen isotope ratios than are seen in modern marine settings. It has remained a challenge to describe a nitrogen cycle that could achieve such isotopic depletion. Here we use nitrogen-isotope ratios of porphyrins to show that eukaryotes contributed the quantitative majority of export production throughout OAE 2, whereas cyanobacteria contributed on average approximately 20%. Such data require that any explanation for the OAE nitrogen cycle and its isotopic values be consistent with a eukaryote-dominated ecosystem. Our results agree with models that suggest the OAEs were high-productivity events, supported by vigorous upwelling. Upwelling of anoxic deep waters would have supplied reduced N species (i.e., NH(4)(+)) to primary producers. We propose that new production during OAE 2 primarily was driven by direct NH(4)(+)-assimilation supplemented by diazotrophy, whereas chemocline denitrification and anammox quantitatively consumed NO(3)(−) and NO(2)(−). A marine nitrogen reservoir dominated by NH(4)(+), in combination with known kinetic isotope effects, could lead to eukaryotic biomass depleted in (15)N.

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