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| Titel |
Analysis of 13C and 18O isotope data of CO2 in CARIBIC aircraft samples as tracers of upper troposphere/lower stratosphere mixing and the global carbon cycle |
| VerfasserIn |
S. S. Assonov, C. A. M. Brenninkmeijer, T. J. Schuck, P. Taylor |
| Medientyp |
Artikel
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| Sprache |
Englisch
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| ISSN |
1680-7316
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| Digitales Dokument |
URL |
| Erschienen |
In: Atmospheric Chemistry and Physics ; 10, no. 17 ; Nr. 10, no. 17 (2010-09-14), S.8575-8599 |
| Datensatznummer |
250008770
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| Publikation (Nr.) |
 copernicus.org/acp-10-8575-2010.pdf |
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| Zusammenfassung |
| The project CARIBIC (http://caribic-atmospheric.com) aims to study
atmospheric chemistry and transport by regularly measuring many compounds in
the free troposphere and the upper troposphere/lowermost stratosphere
(UT/LMS) by using passenger aircraft. Here we present CO2
concentrations and isotope results, and analyze the data together with
supporting trace gas data. 509 CARIBIC-2 samples (highest precision and
accuracy δ13C(CO2) and δ18O(CO2) data)
from June 2007 until March 2009, together with CARIBIC-1 samples (flights
between November 1999 and April 2002, 350 samples in total, 270 for NH,
mostly δ13C(CO2) data) give a fairly extensive, unique
data set for the NH free troposphere and the UT/LMS region. Total
uncertainty of the data is the same as reported for the global monitoring
program by NOAA-ESRL. To compare data from different years a de-trending is
applied. In the UT/LMS region δ13C(CO2), δ18O(CO2) and CO2 are found to correlate well with stratospheric tracers, in particular N2O; δ18O(CO2)
appears to be a useful, hitherto unused, tracer of atmospheric transport in
the UT/LMS region and also inter-hemispheric mixing. By filtering out the
LMS data (based on N2O distributions), the isotope variations for the
free and upper troposphere are obtained. These variations have only small
latitudinal gradients, if any, and are in good agreement with the data of
selected NOAA stations in NH tropics. Correlations between δ13C(CO2)
and CO2 are observed both within single flight(s)
covering long distances and during certain seasons. The overall variability
in de-trended δ13C(CO2) and CO2 for CARIBIC-1 and
CARIBIC-2 are similar and are generally in agreement, which underscores
agreement between high and low resolution sampling. Based on all
correlations, we infer that the CO2 distribution in the NH troposphere
along CARIBIC flight routes is chiefly regulated by uplift and pole-wards
transport of tropical air up to approximately 50° N. The main reason
for variability of signals in the troposphere (which is larger for the
higher resolution sampling during CARIBIC-2) is mixing of different
tropospheric air masses affected by different CO2 sources and sinks.
The effect of stratospheric flux appears to be limited. All in all it is
demonstrated that CARIBIC produced new important and reliable data sets for
little explored regions of the atmosphere. A logical next step will be
global scale modeling of 13C and especially 18O, which is linked
to the hydrological cycle. |
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