A Future Multi-Platform Atmospheric Chemistry Measurement Campaign to Study Oxidation in Mixed Anthropogenic-Biogenic Air Masses
- 1UPEC (Université Paris-Est Créteil), UP (Université de Paris), CNRS (UMR7583), IPSL (Institut Pierre Simon Laplace), LISA (Laboratoire Interuniversitaire des Systemes Atmospheriques, Creteil, France
- *A full list of authors appears at the end of the abstract
It is well known that the high population density of urban regions leads to significant degradation of the quality of the air because of the emissions of pollutants that are by-products of energy production, transportation, and industry. The composition and chemistry of urban air has been studied for many decades and these studies have led to detailed understanding of the factors controlling, for example, the formation of ozone, peroxyacetyl nitrate and other secondary species. In the last 20 to 30 years, significant progress has been made in reducing emissions of volatile organic compounds (VOCs) and oxides of nitrogen (NOx) in urban atmospheres. Substantial reductions in the abundance of secondary compounds, though, have been more elusive.
Research has continued to reveal more and more details of the complex processes involved in the atmospheric degradation of wide varieties of volatile organic compounds (VOCs) of anthropogenic and biospheric (BVOCs) origins. BVOCs include isoprene, monoterpenes and sesquiterpenes, and oxygenated VOCs (OVOCs, such as small alcohols). Emissions of BVOCs depend on several factors such as plant or tree species, temperature, and photosynthetically active radiation. They consist almost exclusively of unsaturated compounds with chemistry somewhat different from those of typical urban organic compound emissions. Oxidation of VOCs can lead to molecules of low volatility that are prone to uptake into the aerosol phase.
Recent studies conducted in megacities such as Paris, Mexico City, Los Angeles and those in China have led to significant advances in our understanding of the chemical evolution of urban plumes. However, important scientific questions remain on how mixing of anthropogenic and biogenic air masses modifies the composition of urban plumes and hence their impacts. Indeed, the proximity of cites to areas of strong biogenic emissions is not unusual. Many major cities at mid-latitudes are surrounded by forested areas.
ACROSS (Atmospheric ChemistRy Of the Suburban foreSt) is an integrative, innovative, multi-scale project awarded under the “Make Our Planet Great Again” (MOPGA) framework that seeks to definitively improve understanding of the impacts of mixing urban and biogenic air masses on the oxidation of atmospheric VOCs. The ACROSS working hypothesis is that this leads to changes in the production of oxygenated VOCs whose properties (e.g. vapor pressures) alter their importance in incorporation into SOA and their roles in production of ozone and other secondary species. Changes are also expected in the efficiency of radical recycling affecting the atmospheric oxidative capacity. Particularly important is NOx transport to suburban biogenic environments and the resulting modification of key chemical processes.
A key highlight of ACROSS is an intensive, multi-platform measurement campaign in the summer of 2022. It will use instruments staged on an airborne platform, a tower in the Rambouillet Forest near Paris, and other ground sites. The data collected from this campaign will be analyzed and studied to extract information about tropospheric oxidation chemistry generally, but also changes observed in the situation of mixed urban and biogenic air masses.
This presentation will summarize plans for the ACROSS campaign.
Christopher Cantrell (LISA) Vincent Michoud (LISA) Paola Formenti (LISA) Jean-Francois Doussin (LISA) Stephanie Alhajj Moussa (LISA) Manuela Cirtog (LISA) Aline Gratien (LISA) Bénédicte Picquet-Varrault (LISA) Bernard Aumont (LISA) Matthias Beekmann (LISA) Marie Camredon (LISA) Mathieu Cazaunau (LISA) Pascale Chelin (LISA) Servanne Chevaillier (LISA) Isabelle Coll (LISA) Patrice Coll (LISA) Juan Cuesta (LISA) Gaelle Dufour (LISA) Noel Grand (LISA) Gilles Foret (LISA) Rebecca Kutzner (LISA) Edouard Pangui (LISA) Pasquale Sellitto (LISA) Guillaume Siour (LISA) Pascal Zapf (LISA) Cyrielle Denjean (CNRM) Thierry Bourrianne (CNRM) Frederic Burnet (CNRM) Jean-Michel Etcheberry (CNRM) Brigitte Gaillard (CNRM) Sebastien Barrau (CNRM) Jean-Claude Etienne (CNRM) Olivier Garrouste (CNRM) Alexandre Paci (CNRM) Pierre-Marie Flaud (EPOC) Emilie Perraudin (EPOC) Eric Villenave (EPOC) Veronique Daele (ICARE) Max McGillen (ICARE) Wahid Mellouki (ICARE) Joel Brito (IMT-LD) Therese Salameh (IMT-LD) Sebastien Dusanter (IMT-LD) Laurence Depelchin (IMT-LD) Raluca Ciuraru (INRAE) Benjamin Loubet (INRAE) Martial Haeffelin (IPSL-SIRTA) Christian George (IRCELYON) Matthieu Riva (IRCELYON) Agnes Borbon (LaMP) Aurelie Colomb (LaMP) Evelyn Freney (LaMP) Gerard Ancellet (LATMOS) Francois Ravetta (LATMOS) Richard Wilson (LATMOS) Barbara D’Anna (LCE) Anne Monod (LCE) Francois Bernard (LPC2E) Valery Catoire (LPC2E) Gisele Krysztofiak (LPC2E) Sacha Kukui (LPC2E) Valerie Gros (LSCE) Jean-Eudes Petit (LSCE) Stephan Borrmann (MPIC) Johannes Schneider (MPIC) Thomas Botter (MPIC) Coralie Schoemaecker (PC2A) Piero Di Carlo (UNICH)
How to cite: Cantrell, C., Michoud, V., Formenti, P., Doussin, J.-F., Alhajj Moussa, S., Cirtog, M., Gratien, A., and Picquet-Varrault, B. and the ACROSS Team: A Future Multi-Platform Atmospheric Chemistry Measurement Campaign to Study Oxidation in Mixed Anthropogenic-Biogenic Air Masses, EGU General Assembly 2021, online, 19–30 Apr 2021, EGU21-15448, https://doi.org/10.5194/egusphere-egu21-15448, 2021.
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