Seasonal evaluation of tropospheric CO2 over the Asia-Pacific region observed by the CONTRAIL commercial airliner measurements

Measurement of atmospheric carbon dioxide (CO2) is indispensable for top-down estimation of surface CO2 sources/sinks by an atmospheric transport model. Despite the growing importance of Asia in the global carbon budget, the region has only been sparsely monitored for atmospheric CO2 and our underst...

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Bibliographic Details
Published in:Atmospheric chemistry and physics 2018-10, Vol.18 (20), p.14851-14866
Main Authors: Umezawa, Taku, Matsueda, Hidekazu, Sawa, Yousuke, Niwa, Yosuke, Machida, Toshinobu, Zhou, Lingxi
Format: Article
Language:English
Subjects:
Air masses
Air parcels
Anthropogenic factors
Anticyclones
Atmospheric models
Atmospheric transport
Atmospheric transport models
Carbon budget
Carbon dioxide
Carbon dioxide atmospheric concentrations
Carbon dioxide flux
Carbon dioxide measurements
Carbon dioxide variations
Carbon monoxide
Climatology
Computer simulation
Constraint modelling
Contrails
Convective transport
Decay
Evaluation
Evolution
Fluxes
Gases
Human influences
Monsoons
Profiles
Satellite observation
Satellites
Seasonal variation
Seasonal variations
Seasons
Spatial distribution
Summer
Summer monsoon
Surface fluxes
Switches
Trace gases
Transport
Troposphere
Upper troposphere
Uptake
Vertical profiles
Wind
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Summary:Measurement of atmospheric carbon dioxide (CO2) is indispensable for top-down estimation of surface CO2 sources/sinks by an atmospheric transport model. Despite the growing importance of Asia in the global carbon budget, the region has only been sparsely monitored for atmospheric CO2 and our understanding of atmospheric CO2 variations in the region (and thereby that of the regional carbon budget) is still limited. In this study, we present climatological CO2 distributions over the Asia-Pacific region obtained from the CONTRAIL (Comprehensive Observation Network for TRace gases by AIrLiner) measurements. The high-frequency in-flight CO2 measurements over 10 years reveal a clear seasonal variation in CO2 in the upper troposphere (UT), with a maximum occurring in April–May and a minimum in August–September. The CO2 mole fraction in the UT north of 40∘ N is low and highly variable in June–August due to the arrival of air parcels with seasonally low CO2 caused by the summertime biospheric uptake in boreal Eurasia. For August–September in particular, the UT CO2 is noticeably low within the Asian summer monsoon anticyclone associated with the convective transport of strong biospheric CO2 uptake signal over South Asia. During September as the anticyclone decays, a spreading of this low-CO2 area in the UT is observed in the vertical profiles of CO2 over the Pacific Rim of continental East Asia. Simulation results identify the influence of anthropogenic and biospheric CO2 fluxes in the seasonal evolution of the spatial CO2 distribution over the Asia-Pacific region. It is inferred that a substantial contribution to the UT CO2 over the northwestern Pacific comes from continental East Asian emissions in spring; but in the summer monsoon season, the prominent air mass origin switches to South Asia and/or Southeast Asia with a distinct imprint of the biospheric CO2 uptake. The CONTRAIL CO2 data provide useful constraints to model estimates of surface fluxes and to the evaluation of the satellite observations, in particular for the Asia-Pacific region.
ISSN:1680-7316
1680-7324
DOI:10.5194/acp-18-14851-2018