2016
DOI: 10.1002/2016jd024793
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First observations of elevated ducts associated with intermittent turbulence in the stable boundary layer over Bosten Lake, China

Abstract: Nocturnal radiative cooling is a main driver for atmospheric duct formation. Within this atmospheric process, the impacts of intermittent turbulence on ducting have seldom been studied. In this paper, we reported two confusing ducting events observed in the early morning in August 2014 over Bosten Lake, China, when a stable boundary layer (SBL) still survived, by using tethered high‐resolution GPS radiosondes. Elevated ducts with strong humidity inversions were observed during the balloon ascents but were abse… Show more

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Cited by 7 publications
(10 citation statements)
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“…The mean bulk-tnr of the current study is 0.83 and 5.60 in the troposphere and stratosphere, respectively. Because the bulk-tnr value of 0.83 in the troposphere is larger than 0.80, which is the minimum bulk-tnr in previous studies (Kantha & Hocking, 2011;Muhsin et al, 2016;Sun et al, 2016;Sunilkumar et al, 2015), an additional noise reduction process is not performed. The minimum detectable size of the turbulent layer can be obtained from the bulk-tnr in the troposphere and stratosphere of the individual profiles (Wilson et al, 2010, Figure 5), and only turbulent layers with sizes larger than this minimum detectable size are selected as the true turbulent layers.…”
Section: Methodsmentioning
confidence: 99%
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“…The mean bulk-tnr of the current study is 0.83 and 5.60 in the troposphere and stratosphere, respectively. Because the bulk-tnr value of 0.83 in the troposphere is larger than 0.80, which is the minimum bulk-tnr in previous studies (Kantha & Hocking, 2011;Muhsin et al, 2016;Sun et al, 2016;Sunilkumar et al, 2015), an additional noise reduction process is not performed. The minimum detectable size of the turbulent layer can be obtained from the bulk-tnr in the troposphere and stratosphere of the individual profiles (Wilson et al, 2010, Figure 5), and only turbulent layers with sizes larger than this minimum detectable size are selected as the true turbulent layers.…”
Section: Methodsmentioning
confidence: 99%
“…Given that the Thorpe analysis cannot distinguish between convectively induced turbulence (CIT) and shear‐induced turbulence (SIT; Thorpe, ), the turbulence can be overestimated near the surface during the daytime. With this in mind, for example, Sun et al () calculated the turbulence in the boundary layer only for nighttime. In order to use all profiles launched both in daytime and nighttime, in the present study, we show L T and ε exclusively in the free atmosphere, from 3 km above the station height to the top of the radiosonde profile.…”
Section: Methodsmentioning
confidence: 99%
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“…The electromagnetic waves are trapped within the ducting layer with weak propagation loss and enhanced propagation range, usually known as atmospheric ducting [1,2]. Turton et al [3] presented a classification of different radio-propagation conditions and corresponding atmospheric ducting effects.…”
Section: Introductionmentioning
confidence: 99%
“…The unit of dM/dr is M-units/km. Equations (2) and (3) are applied for all radio frequencies with little error. Referring to Almond and Clarke [39], dN/dr-which is the gradient of refractivity N with respect to altitude r-is used to classify the profiles and its unit is N-units/km.…”
Section: Phase-delay Modelmentioning
confidence: 99%