2018
DOI: 10.5194/acp-18-5415-2018
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Climatology and long-term evolution of ozone and carbon monoxide in the upper troposphere–lower stratosphere (UTLS) at northern midlatitudes, as seen by IAGOS from 1995 to 2013

Abstract: Abstract. In situ measurements in the upper troposphere–lower stratosphere (UTLS) have been performed in the framework of the European research infrastructure IAGOS (In-service Aircraft for a Global Observing System) for ozone since 1994 and for carbon monoxide (CO) since 2002. The flight tracks cover a wide range of longitudes in the northern extratropics, extending from the North American western coast (125° W) to the eastern Asian coast (135° E) and more recently over the northern Pacific Ocean. Several tro… Show more

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Cited by 67 publications
(102 citation statements)
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References 86 publications
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“…Ozone is particularly low (20-40 nmol mol -1 ) above Southeast Asia during boreal summer and autumn, likely due to deep convective uplift of low-ozone air masses (Ziemke et al, 2010;Cooper et al, 2013;Strode et al, 2017). While this analysis lacks observations above SE Asia during winter and spring, a recent IAGOS analysis of this region including observations through 2013 shows that upper tropospheric ozone peaks during the spring biomass burning season (40-50 nmol mol -1 ) (Cohen et al, 2018). In the tropics, relatively high ozone is found above regions known to be impacted by biomass burning, particularly over South America in SON (Yamasoe et al, 2015), and West Africa in DJF (Sauvage et al, 2005).…”
Section: Surface Ozonementioning
confidence: 87%
“…Ozone is particularly low (20-40 nmol mol -1 ) above Southeast Asia during boreal summer and autumn, likely due to deep convective uplift of low-ozone air masses (Ziemke et al, 2010;Cooper et al, 2013;Strode et al, 2017). While this analysis lacks observations above SE Asia during winter and spring, a recent IAGOS analysis of this region including observations through 2013 shows that upper tropospheric ozone peaks during the spring biomass burning season (40-50 nmol mol -1 ) (Cohen et al, 2018). In the tropics, relatively high ozone is found above regions known to be impacted by biomass burning, particularly over South America in SON (Yamasoe et al, 2015), and West Africa in DJF (Sauvage et al, 2005).…”
Section: Surface Ozonementioning
confidence: 87%
“…3) and can be linked to the occurrence -or absence -of stratospheric air sampling during ATom and HIPPO. However, it is straightforward to remove stratospheric airmasses from airborne data using filters based on meteorology (potential vorticity) or composition (H2O/O3) (e.g., Cohen et al, 2018). In the absence of stratospheric air mixing (< 8 km in Fig.…”
Section: Comparison To Ozonesondesmentioning
confidence: 99%
“…IAGOS O3 and CO observations in the northern Atlantic UTLS provide a measurementbased climatology at commercial aircraft cruise altitudes for comparison to ATom. Simultaneous measurements of O3 and CO are of particular interest because CO provides a long-lived tracer of continental emissions, which helps to differentiate O3 sources (Cohen et al, 2018). We note that while IAGOS measurements encompass hundreds of seasonal flights (depending on the region), ATom sampled within each latitude band and season on one or two flights only (Fig.…”
Section: Comparison To Iagosmentioning
confidence: 99%
“…Another source of data, but for the occurrence frequency of cirrus clouds originates from long-term analyses of satellite observations (Stubenrauch et al, 2010;Stubenrauch et al, 2013). In their 6-year climatology Stubenrauch et al (2010) report cirrus cloud coverage fractions for northern mid-latitudes of 35% in January and 27% in July from AIRS-LMD (2003, and respective fractions of 34% and 21% from TOVS -Path B 540 (1987to 1995, and 42% and 40% from CALIPSO (2006CALIPSO ( to 2007. The compilation of our annual cycle of ISSR occurrence and the respective observations from space-borne sensors is shown in Figure 12b.…”
Section: Issr Fraction and Cirrus Cloud Occurrencementioning
confidence: 99%