2017
DOI: 10.5194/acp-2017-692
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The topography contribution to the influence of the atmospheric boundary layer at high altitude stations

Abstract: Abstract. High altitude stations are often emphasized as free tropospheric measuring sites but they remain influenced by atmospheric boundary layer (ABL) air masses due to convective transport processes. The local and meso-scale topographical features around the station are involved in the convective boundary layer development and in the formation of thermally induced winds leading to ABL air lifting. The station altitude is not a sufficient parameter to characterize the ABL influence. 20Topography data from t… Show more

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Cited by 4 publications
(3 citation statements)
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“…Chauvigné et al (2018) [57], also reports time spent in the FT for the Chacaltaya (CHC) (5240 m a.s.l, Bolivia) site, and found FT prevalence for 45% of the time as a yearly average, with no marked seasonal variations. The difference between the PUY and these sites is probably that the PUY is at a lower altitude, but also because the configuration of the topography is different (North-South orientated single mountain chain) [58].…”
Section: Classification Of Air Masses By Combining Four Criteriamentioning
confidence: 99%
“…Chauvigné et al (2018) [57], also reports time spent in the FT for the Chacaltaya (CHC) (5240 m a.s.l, Bolivia) site, and found FT prevalence for 45% of the time as a yearly average, with no marked seasonal variations. The difference between the PUY and these sites is probably that the PUY is at a lower altitude, but also because the configuration of the topography is different (North-South orientated single mountain chain) [58].…”
Section: Classification Of Air Masses By Combining Four Criteriamentioning
confidence: 99%
“…Many monitoring stations for air chemistry and greenhouse gases are located on mountain tops, which can be affected by these mechanisms [118]. This has led to the development of approaches to distinguish local effects due to atmospheric exchange processes from background concentrations measured at mountain top locations [119,120]. These approaches would greatly benefit from new datasets to explicitly characterize these exchange processes.…”
Section: Air Pollutionmentioning
confidence: 99%
“…Exceptions are, however, observed, for example, at CBW (western Europe) the median SAE reaches values of around 2.1. Indeed, both polluted air masses from the industrialized zones of the Benelux countries and clean air masses from the sea contribute to the presence of aerosol particles at this site (Crumeyrolle et al, 2010). Moreover, CBW is surrounded by several large cities at distances of approximately 20-40 km from the station, which may have contributed to the high SAE values measured in this geographical location.…”
Section: Variability Of Sae By Geographical Sectormentioning
confidence: 85%