Peter Bernath. Old Dominion University, Norfolk, VA and University of Waterloo, Waterloo, ON

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THE ATMOSPHERIC CHEMISTRY EXPERIMENT (ACE): Greenhouse Gas Measurements of CO 2, CFCs and HFCs Peter Bernath Old Dominion University, Norfolk, VA and University of Waterloo, Waterloo, ON

ACE Satellite (Limb View) Fourier transform spectrometer, 750-4400 cm -1, 0.02 cm -1 resolution, solar occultation http://www.ace.uwaterloo.ca/ Bernath, JQSRT 186, 3 (2017).

1. CO 2 2. CH 4 3. CFCs/HCFCs/ HFCs 4. N 2 O Indirect GHGs 1. CO 2. VOCs 3. NO x Aerosols Greenhouse Gases (IPCC 2013) All significant gases and aerosols associated with climate change are measured by ACE mission.

ACE-FTS Version 4.0 Species Tracers: H 2 O, O 3, N 2 O, NO, NO 2, HNO 3, N 2 O 5, H 2 O 2, HO 2 NO 2, O 2, N 2, SO 2 Halogen-containing gases: HCl, HF, ClO, ClONO 2, CFC-11, CFC-12, CFC-113, COF 2, COCl 2, COFCl, CF 4, SF 6, CH 3 Cl, CCl 4, HCFC-22, HCFC-141b, HCFC- 142b, HFC-134a, HFC-23 Carbon-containing gases: CO, CH 4, CH 3 OH, H 2 CO, HCOOH, C 2 H 2, C 2 H 6, OCS, HCN, CH 3 C(O)CH 3, CH 3 CN, PAN, high and low altitude CO 2 as well as pressure and temperature from CO 2 lines Isotopologues: H 2 18 O, H 2 17 O, HDO, O 13 CO, OC 18 O, OC 17 O, O 13 C 18 O, 18 OO 2, O 18 OO, O 17 OO, OO 17 O, N 15 NO, 15 NNO, N 2 18 O, N 2 17 O, 13 CO, C 18 O, C 17 O, 13 CH 4, CH 3 D, OC 34 S, O 13 CS, 15 NO 2, H 15 NO 3 New routine species are in red. ACE is now in its 15 th year on orbit. This longevity makes trend analysis feasible (with care). The change in atmospheric composition is the primary driver of climate change.

Low Altitude CO 2 (Chris Boone) CO 2 is used to retrieve temperature, pressure and pointing (tangent height). However, at high altitude (above about 65 km) pointing is known so the CO 2 VMR can be determined. For v.4, below 17 km, temperature and pressure come from Canadian weather forecast model (GEM) and tangent height is determined from the N 2 continuum (collision-induced absorption). CO 2 can therefore be retrieved from 5-17 km. 19.3 km New ACE data product is CO 2 VMR at low altitude: upper troposphere and extratropical lower stratosphere (5-17 km) 2400 2500 2600 11 km 6.3 km

Montreal Protocol (1987) with Amendments and Adjustments Montreal Protocol bans Cl- and Br-containing source gases that deplete the ozone layer and are also potent greenhouse gases. Montreal Protocol is considered to be the most successful international treaty: universal acceptance. CFC and Halon production is phased out now; HCFCs, which are transitional compounds with lower ozone depleting potential, are being phased out; HFCs were the final replacement compounds (no chlorine so no potential to deplete ozone), but are very powerful greenhouse gases. Kigali amendment will phase out HFCs by replacing them with molecules with no chlorine and a much smaller global warming potential (HFOs). ACE-FTS measures nearly 20 halogen-containing gases including all the main CFC, HCFC and HFC source gases, the Cl 2 CO, FClCO, F 2 CO intermediates as well as the final HCl and HF product gases. ACE monitors compliance with the Montreal Protocol.

Montreal Protocol Metrics Daily profiles for HCl, CFC-11 and CFC-12, plus long term trends now on the web HCl CFC-11 CFC-12

HCl Trends Is global ozone recovering? By W. Steinbrecht, et al. Comptes Rendus Geoscience, Special Issue for the 30 th anniversary of the Montreal Protocol HCl near 50 km / 0.7 hpa 60 S to 60 N HCl [ppbv] 3.6 3.4 3.2 3 GOZCARDS ACE-FTS (-0.14 ppb) ESC (scale on right) 2.8 2.7 2.6 2.5 2.4 ESC [ppbv] 1990 2000 2010 2020

Hydrofluorocarbons, HFCs HFC-134a (CF 3 CFH 2 ) is used primarily for car air conditioners and is the most abundant HFC in the atmosphere. HFC-23 (CHF 3 ) is the second most abundant HFC, produced as a byproduct of HCFC-22 (CHClF 2 ) production.

HFC-134a (CF 3 CFH 2 ) JQSRT 151, 210 (2015) New ACE-FTS retrieval by Chris Boone uses Q-branch of ν 6 mode at 1105 cm -1 (not ν 5 band at 1186 cm -1 used previously by Nassar et al. 2006); strong interference from ozone.

Global Distribution of HFC-134a Lifetime= 13.4 yr; GWP = 1370 (100 yr); note anomalies in near extratropical tropopause at 9.5 km

Global HFC-134a Trends Note the anomalies near 9.5 km altitude.

HCFC-134a Trends ACE trend is +7%/year.

HFC-23 (CHF 3 ) JQSRT 130, 359 (2013) New ACE-FTS retrieval by Chris Boone uses Q-branch of ν 5 mode at 1157 cm -1 (same band as used previously by Harrison et al. 2012).

HFC-23 Global Distribution Lifetime = 228 yr; GWP = 12,400 (100 yr) cross-sections? spectral interferers?

HFC-23 Trends ACE trend is +3%/year.

Acknowledgements Robin Chris Boone Scott Jones Johnny Steffen Dennis Cok Mahdi Yousefi Anton Fernando

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