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The effect of millennial-scale changes in Arabian Sea denitrification on atmospheric CO2

Mark A. Altabet (), Matthew J. Higginson and David W. Murray
Additional contact information
Mark A. Altabet: School for Marine Science and Technology, University of Massachusetts Dartmouth
Matthew J. Higginson: School for Marine Science and Technology, University of Massachusetts Dartmouth
David W. Murray: Center for Environmental Studies, Brown University

Nature, 2002, vol. 415, issue 6868, 159-162

Abstract: Abstract Most global biogeochemical processes are known to respond to climate change, some of which have the capacity to produce feedbacks through the regulation of atmospheric greenhouse gases1. Marine denitrification—the reduction of nitrate to gaseous nitrogen—is an important process in this regard, affecting greenhouse gas concentrations directly through the incidental production of nitrous oxide, and indirectly through modification of the marine nitrogen inventory and hence the biological pump for CO2. Although denitrification has been shown to vary with glacial–interglacial cycles2,3, its response to more rapid climate change has not yet been well characterized. Here we present nitrogen isotope ratio, nitrogen content and chlorin abundance data from sediment cores with high accumulation rates on the Oman continental margin that reveal substantial millennial-scale variability in Arabian Sea denitrification and productivity during the last glacial period. The detailed correspondence of these changes with Dansgaard–Oeschger events recorded in Greenland ice cores4 indicates rapid, century-scale reorganization of the Arabian Sea ecosystem in response to climate excursions, mediated through the intensity of summer monsoonal upwelling. Considering the several-thousand-year residence time of fixed nitrogen in the ocean, the response of global marine productivity to changes in denitrification would have occurred at lower frequency and appears to be related to climatic and atmospheric CO2 oscillations observed in Antarctic ice cores between 20 and 60 kyr ago5.

Date: 2002
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DOI: 10.1038/415159a

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