Observation of nighttime new particle formation over the French Landes forest

Improving the understanding of processes related to atmospheric particle sources is essential to better assess future climate. Especially, how biogenic volatile organic compounds (BVOCs) are involved in new particle formation (NPF) is still unclear, highlighting the need for field studies in sites t...

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Veröffentlicht in:The Science of the total environment 2018-04, Vol.621, p.1084-1092
Hauptverfasser: Kammer, J., Perraudin, E., Flaud, P.-M., Lamaud, E., Bonnefond, J.M., Villenave, E.
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Sprache:eng
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Zusammenfassung:Improving the understanding of processes related to atmospheric particle sources is essential to better assess future climate. Especially, how biogenic volatile organic compounds (BVOCs) are involved in new particle formation (NPF) is still unclear, highlighting the need for field studies in sites that have not yet been explored. Weakly anthropised, mostly composed of maritime pines (known as strong monoterpene emitters), vast and under the influence of sea spray inputs, the Landes forest (located in the southwestern part of France) is a suitable ecosystem to explore these questions. The aim of the present work was to investigate for the first time NPF in the Landes forest, and to identify the conditions for NPF. During a field campaign conducted in July 2015, clear NPF was observed during nighttime, at a high frequency rate (37.5%), whereas only two daytime episodes were observed. Growth rates during NPF events were in the range 9.0–15.7nmh−1, and nucleation rates (J10) in the range 0.8–8 particles cm3s−1, typically in the range of reported values from rural sites. Nocturnal NPF started at sunset, lagging the reductions of temperature and ozone concentration as well as the increase of relative humidity, atmospheric stability and monoterpene concentration. We established that NPF occurred during more stratified atmosphere episodes, reflecting that NPF is more influenced by local processes at the Landes forest site (Bilos). Concentration of the sum of monoterpenes, here mainly α- and β-pinene, was observed to be maximal during NPF episodes. On the contrary, ozone concentration was lower, which may indicate a larger consumption during nights where NPF episodes occur. Results strongly suggest the contribution of BVOC oxidation to nocturnal NPF, in both nucleation and the growth stages. [Display omitted] •Nocturnal new particle formation (NPF) was emphasized.•Monoterpene concentrations, mainly α- and β-pinene, were maximal during NPF.•Results suggest that BVOC oxidation is involved in nocturnal NPF.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2017.10.118