Constraints on N 2 O budget changes since pre-industrial time from new firn air and ice core isotope measurements
International audience A historical record of changes in the N 2 O isotope composition is important for a better understanding of the global N 2 O atmospheric budget. Here we have combined measurements of trapped gases in the firn and in ice cores of one Arctic site (North GReenland Ice core Project...
Main Authors: | , , , , , , |
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Other Authors: | , , , , , , , , , , |
Format: | Article in Journal/Newspaper |
Language: | English |
Published: |
HAL CCSD
2005
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Subjects: | |
Online Access: | https://hal.science/hal-00327958 https://hal.science/hal-00327958/document https://hal.science/hal-00327958/file/acpd-5-7547-2005.pdf |
Summary: | International audience A historical record of changes in the N 2 O isotope composition is important for a better understanding of the global N 2 O atmospheric budget. Here we have combined measurements of trapped gases in the firn and in ice cores of one Arctic site (North GReenland Ice core Project – NGRIP) and one Antarctic site (Berkner Island). We have performed measurements of the 18 O and position dependent 15 N isotopic composition of N 2 O. By comparing these data to simulations carried out with a firn air diffusion model, we have reconstructed the temporal evolution of the N 2 O isotope signatures since pre-industrial times. The decrease observed for all signatures is consistent from one pole to the other. Results obtained from the air occluded in the ice suggest a decrease of about -2.8‰, -2.4‰, -3.2‰ and -1.6‰ for d 15 N, 1 d 15 N, 2 d 15 N and d 18 O, respectively, since 1700 AD. Firn air data imply a decrease of about -1.1‰, -1.2‰, -1.0‰ and -0.6‰ for d 15 N, 1 d 15 N, 2 d 15 N and d 18 O, respectively, since 1970 AD. These results imply consistent trends from firn and ice measurements for d 15 N and d 18 O. The trends for the intramolecular distribution of 15 N are less well constrained than the bulk 15 N trends because of the larger experimental error for the position dependent 15 N measurements. The decrease in the heavy isotope content of atmospheric N 2 O can be explained by the increasing importance of agriculture for the present atmospheric N 2 O budget. |
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