Aerosol transport to the high Alpine sites Jungfraujoch (3454 m asl) and
                        Colle Gnifetti (4452 m asl)

Lugauer, M.; Baltensperger, Urs; Furger, Markus; Gäggeler, H. W.; Jost, D.T.; Schwikowski, M.; Wanner, Heinz

doi:10.3402/tellusb.v50i1.16026

Cited by 97 publications

(65 citation statements)

References 11 publications

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“…In autumn (September-November), the LCBLH shows a less pronounced daily cycle than in spring and summer, this is probably due to the fact that the vertical transport of aerosol-rich air is reduced by the stabilization within the lower troposphere during this period (Lugauer et al, 1998).…”

Section: Lcblh Retrievalmentioning

confidence: 94%

“…Different sources and transport regimes towards the JFJ have been studied by many authors (e.g. Lugauer et al, 1998;Zellweger et al, 2003;Balzani Lööv et al, 2008;Henne et al, 2010;Collaud Coen et al, 2011Herrmann et al, 2015), showing that the JFJ resides most of the time in the undisturbed ("clean") lower FT. Nevertheless and especially in summer, the JFJ is influenced by thermally induced uplifted CBL air, and it is also influenced by additional lifting processes such as frontal passages and Föhn flows (Zellweger et al, 2003;Ketterer et al, 2014).…”

Section: Measurements Of Cbl Cal and Aerosol Properties At Jfjmentioning

confidence: 99%

“…Ketterer et al, 2014). Lugauer et al (1998) provide a 9-year climatological analysis of the vertical transport of aerosols to the JFJ and the corresponding synoptic conditions. The thermally induced transport is nearly absent in winter or under cyclonic conditions and it is strongest in summer under anticyclonic periods.…”

Section: Measurements Of Cbl Cal and Aerosol Properties At Jfjmentioning

confidence: 99%

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PathfinderTURB: an automatic boundary layer algorithm. Development, validation and application to study the impact on in situ measurements at the Jungfraujoch

et al. 2017

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Abstract. We present the development of the Pathfinder-TURB algorithm for the analysis of ceilometer backscatter data and the real-time detection of the vertical structure of the planetary boundary layer. Two aerosol layer heights are retrieved by PathfinderTURB: the convective boundary layer (CBL) and the continuous aerosol layer (CAL). PathfinderTURB combines the strengths of gradient-and variancebased methods and addresses the layer attribution problem by adopting a geodesic approach. The algorithm has been applied to 1 year of data measured by two ceilometers of type CHM15k, one operated at the Aerological Observatory of Payerne (491 m a.s.l.) on the Swiss plateau and one at the Kleine Scheidegg (2061 m a.s.l.) in the Swiss Alps. The retrieval of the CBL has been validated at Payerne using two reference methods: (1) manual detections of the CBL height performed by human experts using the ceilometer backscatter data; (2) values of CBL heights calculated using the Richardson's method from co-located radio sounding data. We found average biases as small as 27 m (53 m) with respect to reference method 1 (method 2). Based on the excellent agreement between the two reference methods, PathfinderTURB has been applied to the ceilometer data at the mountainous site of the Kleine Scheidegg for the period September 2014 to November 2015. At this site, the CHM15k is operated in a tilted configuration at 71 • zenith angle to probe the atmosphere next to the Sphinx Observatory (3580 m a.s.l.) on the Jungfraujoch (JFJ). The analysis of the retrieved layers led to the following results: the CAL reaches the JFJ 41 % of the time in summer and 21 % of the time in winter for a total of 97 days during the two seasons. The season-averaged daily cycles show that the CBL height reaches the JFJ only during short periods (4 % of the time), but on 20 individual days in summer and never during winter. During summer in particular, the CBL and the CAL modify the air sampled in situ at JFJ, resulting in an unequivocal dependence of the measured absorption coefficient on the height of both layers. This highlights the relevance of retrieving the height of CAL and CBL automatically at the JFJ.

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Section: Lcblh Retrievalmentioning

confidence: 94%

Section: Measurements Of Cbl Cal and Aerosol Properties At Jfjmentioning

confidence: 99%

Section: Measurements Of Cbl Cal and Aerosol Properties At Jfjmentioning

confidence: 99%

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PathfinderTURB: an automatic boundary layer algorithm. Development, validation and application to study the impact on in situ measurements at the Jungfraujoch

et al. 2017

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“…Transport of anthropogenic emissions in Europe to the high-altitude Alpine stations have been observed at SNB (Gros et al 2001;Jabbar et al 2012;Kaiser 2009;Kaiser et al 2007;Karl et al 2001a, b;Seibert et al 1998), ZUG/ZSF (Jabbar et al 2012;Kaiser et al 2007), CMN (Bonasoni et al 1997;Bonason 2009, 2013), KVV (Kaiser et al 2007), ARO Pochanart et al 2001), and JFJ Forrer et al 2000;Kaiser et al 2007;Kuebler et al 2001;Lanz et al 2009;Legreid et al 2008;Lugauer et al 1998;Pandey Deolal et al 2013;Seibert et al 1998;Tuzson et al 2011). The Po Basin is a densely populated and highly industrialized region located immediately adjacent to the Alps that is known to have a relatively high level of air pollution.…”

Section: Long-range Transport From Continental Sources Anthropogenic mentioning

confidence: 99%

“…Thermally induced processes were observed mainly in spring and summer, and processes at the regional and synoptic scales were observed during the entire year. Continuous measurements of the total and backward scattering coefficients, absorption coefficient, condensation nuclei concentrations, epiphaniometer signals, total suspended particulate matter (TSP) mass concentrations, and major PM 1 and TSP compounds at JFJ have shown distinct seasonal cycles with a summer maximum and a winter minimum (Baltensperger et al 1997;Cozic et al 2008;Henning et al 2003;Lugauer et al 1998;Nyeki et al 1998a, b). The seasonal cycles of SO 4 2− , NO 3 − , and NH 4 + of aerosols at SNB also showed a summer maximum and a winter minimum .…”

Section: Long-range Transport From Continental Sources Anthropogenic mentioning

confidence: 99%

A review of atmospheric chemistry observations at mountain sites

Okamoto

Tanimoto

2016

Prog. in Earth and Planet. Sci.

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Located far from anthropogenic emission sources, high-altitude mountain stations are considered to be ideal sites for monitoring climatic and environmentally important baseline changes in free tropospheric trace gases and aerosols. In addition, the observations taken at these stations are often used to study the long-range transport of dust as well as anthropogenic and biomass burning pollutants from source regions and to evaluate the performance of global and regional models. In this paper, we summarize the results from past and ongoing field measurements of atmospheric constituents at high-altitude stations across the globe, with particular emphasis on reactive trace species including tropospheric ozone, along with its precursors such as carbon monoxide, nitrogen oxides, total reactive nitrogen, and nonmethane hydrocarbons. Over the past decades, our understanding of the temporal variability and meteorological mechanisms of long-range transport has advanced in tandem with progress in instrumentation and modeling. Finally, the future needs of atmospheric chemistry observations at mountain sites are addressed.

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Analysis of long‐term aerosol size distribution data from Jungfraujoch with emphasis on free tropospheric conditions, cloud influence, and air mass transport

et al. 2015

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Six years of aerosol size distribution measurements between 20 and 600 nm diameters and total aerosol concentration above 10 nm from March 2008 to February 2014 at the high-alpine site Jungfraujoch are presented. The size distribution was found to be typically bimodal with mode diameters and widths relatively stable throughout the year and the observation period. New particle formation was observed on 14.5% of all days without a seasonal preference. Particles typically grew only into the Aitken mode and did not reach cloud condensation nucleus (CCN) sizes on the time scale of several days. Growth of preexisting particles in the Aitken mode, on average, contributed very few CCN. We concluded that the dominant fraction of CCN at Jungfraujoch originated in the boundary layer. A number of approaches were used to distinguish free tropospheric (FT) conditions and episodes with planetary boundary layer (PBL) influence. In the absence of PBL injections, the concentration of particles larger than 90 nm (N 90 , roughly corresponding to the CCN concentration) reached a value~40 cm À3 while PBL influence caused N 90 concentrations of several hundred or even 1000 cm À3 . Comparing three criteria for free tropospheric conditions, we found FT prevalence for 39% of the time with over 60% during winter and below 20% during summer. It is noteworthy that a simple criterion based on standard trace gas measurements appeared to outperform alternative approaches.

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Aerosol transport to the high Alpine sites Jungfraujoch (3454 m asl) and Colle Gnifetti (4452 m asl)

Cited by 97 publications

References 11 publications

PathfinderTURB: an automatic boundary layer algorithm. Development, validation and application to study the impact on in situ measurements at the Jungfraujoch

PathfinderTURB: an automatic boundary layer algorithm. Development, validation and application to study the impact on in situ measurements at the Jungfraujoch

A review of atmospheric chemistry observations at mountain sites

Analysis of long‐term aerosol size distribution data from Jungfraujoch with emphasis on free tropospheric conditions, cloud influence, and air mass transport

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