An investigation into the vertical structures of low‐altitude atmosphere over the Central Taklimakan Desert in summer

An investigation into the vertical structures of low‐altitude atmosphere over the Central Taklimakan Desert in summer

In this study, 1‐month continuous radiosonde observational data were applied to present the low‐altitude vertical structures and their evolutions over the Central Taklimakan Desert (CTD). The primary focus is to highlight the vertical structures near the ground with the high‐resolution (10 m in heig...

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Veröffentlicht in:Atmospheric science letters 2021-09, Vol.22 (9), p.n/a
Hauptverfasser: Yin, Jinfang, Gu, Haodong, Huang, Jie, Wang, Minzhong
Format: Artikel
Sprache:eng
Schlagworte:
Altitude
Atmospheric boundary layer
Atmospheric sciences
Boundary layers
Cooling
Data
Datasets
Daytime
Deserts
Diurnal variations
Inversion
Inversion layers
Inversions
Investigations
Radiation
Radiosonde data
radiosonde observation
Radiosondes
Rain
Solar radiation
Structures
superadiabatic and inversion
Surface cooling
the Central Taklimakan Desert
Vertical profiles
vertical structure of the atmosphere
Wind profiles
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Gu, Haodong
Huang, Jie
Wang, Minzhong
description In this study, 1‐month continuous radiosonde observational data were applied to present the low‐altitude vertical structures and their evolutions over the Central Taklimakan Desert (CTD). The primary focus is to highlight the vertical structures near the ground with the high‐resolution (10 m in height and 6 hr in time) radiosonde data. One of the unique features evident in our results is an obvious diurnal transition in lower layers near the ground due to strong surface heating or cooling. Unlike a traditional vertical structure in the boundary layer observed over a nondesert surface, both superadiabatic and inversion layers are distinct during the day. More specifically, the superadiabatic layer is obvious in the daytime because of strong solar radiation over the desert, and the superadiabatic can reach up to 0.2 km. In contrast, an apparent inversion layer forms in the nighttime due to the surface cooling. It is found that the surface forcing mainly dominates the structures in the boundary layer. At last, the vertical structures from the observations are compared with those from the ERA‐Interim and MERRA2 reanalysis data sets. The results indicate that both reanalysis products can provide similar vertical profile patterns and diurnal variations. However, the diurnal transitions of temperature and wind profiles over the CTD are underestimated severely by both reanalysis data. Besides, the reanalysis data sets completely miss the superadiabatic near the ground in the daytime. There is an obvious diurnal transition in lower layers near the ground over the Central Taklimakan Desert. A clear presence of the superadiabatic layer is obvious in the daytime, and an apparent inversion layer forms in the nighttime.
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The primary focus is to highlight the vertical structures near the ground with the high‐resolution (10 m in height and 6 hr in time) radiosonde data. One of the unique features evident in our results is an obvious diurnal transition in lower layers near the ground due to strong surface heating or cooling. Unlike a traditional vertical structure in the boundary layer observed over a nondesert surface, both superadiabatic and inversion layers are distinct during the day. More specifically, the superadiabatic layer is obvious in the daytime because of strong solar radiation over the desert, and the superadiabatic can reach up to 0.2 km. In contrast, an apparent inversion layer forms in the nighttime due to the surface cooling. It is found that the surface forcing mainly dominates the structures in the boundary layer. At last, the vertical structures from the observations are compared with those from the ERA‐Interim and MERRA2 reanalysis data sets. The results indicate that both reanalysis products can provide similar vertical profile patterns and diurnal variations. However, the diurnal transitions of temperature and wind profiles over the CTD are underestimated severely by both reanalysis data. Besides, the reanalysis data sets completely miss the superadiabatic near the ground in the daytime. There is an obvious diurnal transition in lower layers near the ground over the Central Taklimakan Desert. A clear presence of the superadiabatic layer is obvious in the daytime, and an apparent inversion layer forms in the nighttime.</abstract><cop>Chichester, UK</cop><pub>John Wiley &amp; Sons, Ltd</pub><doi>10.1002/asl.1042</doi><tpages>9</tpages><orcidid>https://orcid.org/0000-0003-2236-4633</orcidid><oa>free_for_read</oa></addata></record>
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subjects Altitude
Atmospheric boundary layer
Atmospheric sciences
Boundary layers
Cooling
Data
Datasets
Daytime
Deserts
Diurnal variations
Inversion
Inversion layers
Inversions
Investigations
Radiation
Radiosonde data
radiosonde observation
Radiosondes
Rain
Solar radiation
Structures
superadiabatic and inversion
Surface cooling
the Central Taklimakan Desert
Vertical profiles
vertical structure of the atmosphere
Wind profiles
title An investigation into the vertical structures of low‐altitude atmosphere over the Central Taklimakan Desert in summer
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