2013
DOI: 10.5194/amt-6-2115-2013
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Measurements of atmospheric aerosol vertical distributions above Svalbard, Norway, using unmanned aerial systems (UAS)

Abstract: Atmospheric aerosol vertical distributions were measured above Svalbard, Norway, in April 2011 during the Cooperative Investigation of Climate-Cryosphere Interactions campaign (CICCI). Measurements were made of the particle number concentration and the aerosol light absorption coefficient at three wavelengths. A filter sample was collected on each flight at the altitude of maximum particle number concentration. The filters were analyzed for major anions and cations. The aerosol payload was flown in a NOAA/PMEL… Show more

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Cited by 85 publications
(58 citation statements)
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“…It should be noted that there are a number of existing publications on vertical aerosol measurements over the Arctic using aircraft (e.g. Yamanouchi et al, 2005;Engvall et al, 2008), as well as unmanned aerial systems (Bates et al, 2013). However, these studies have predominantly taken place at lower latitudes than the ASCOS study, where additional atmospheric mechanisms and processes are of importance.…”
Section: P Kupiszewski Et Al: Vertical Profiling Of Aerosol Particlmentioning
confidence: 99%
“…It should be noted that there are a number of existing publications on vertical aerosol measurements over the Arctic using aircraft (e.g. Yamanouchi et al, 2005;Engvall et al, 2008), as well as unmanned aerial systems (Bates et al, 2013). However, these studies have predominantly taken place at lower latitudes than the ASCOS study, where additional atmospheric mechanisms and processes are of importance.…”
Section: P Kupiszewski Et Al: Vertical Profiling Of Aerosol Particlmentioning
confidence: 99%
“…While such campaigns can provide substantial insight and have the unique ability to deploy a variety of instruments to the same location, the cost of such efforts is unsustainable for routine observing. UAS can play a central role in decreasing the cost associated with making aerosol measurements at altitude in the high latitude atmosphere, and to date there have been limited UAS-based measurement campaigns (e.g., Bates et al, 2013;Platis et al, 2015;Altstädter et al, 2015). Of additional interest is the impact of the aerosol and associated cloud particles on the transfer of energy through the Earth's atmosphere.…”
Section: Introductionmentioning
confidence: 99%
“…Interest in such deployments stems from the ability of these platforms to collect information on spatial variability of key atmospheric properties and the underlying surface, and provide profiles of atmospheric quantities related to aerosols (e.g., Corrigan et al, 2008;Bates et al, 2013;Platis et al, 2015), clouds (e.g., Ramana et al, 2007), thermodynamics (e.g., Lawrence and Balsley, 2013), turbu-lence (e.g., van den Kroonenberg et al, 2012), and radiation (e.g., Ramana et al, 2007;Valero et al, 1996). Additionally, their use has been buoyed by the potential to deploy these aircraft to areas difficult to sample with manned platforms (e.g., Lin, 2006;Elston et al, 2011), including the near surface environment at high latitudes (e.g., Curry et al, 2004;Cassano et al, 2010), and by the potential for significant cost-savings relative to routine deployment of manned aircraft with continued miniaturization of instrumentation and platforms alike.…”
Section: Introductionmentioning
confidence: 99%
“…With the prospect of conducting in situ aerosol measurements at a fraction of the cost of that needed for traditional air campaigns various research groups are focusing on the development of miniaturized instruments in order to match the tight restrictions on volume, mass, and power consumption (Ramana et al, 2007;Corrigan et al, 2008;Bates et al, 2013;de Boer et al, 2016;Murphy et al, 2016;Gao et al, 2016). These restrictions furthermore put a value on a minimal set of aerosol instruments that can collect a comprehensive set of aerosol properties at adequate accuracies.…”
Section: Introductionmentioning
confidence: 99%