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| Titel |
Characterization of the planetary boundary layer height and structure by Raman lidar: comparison of different approaches |
| VerfasserIn |
D. Summa, P. Di Girolamo, D. Stelitano, M. Cacciani |
| Medientyp |
Artikel
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| Sprache |
Englisch
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| ISSN |
1867-1381
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| Digitales Dokument |
URL |
| Erschienen |
In: Atmospheric Measurement Techniques ; 6, no. 12 ; Nr. 6, no. 12 (2013-12-10), S.3515-3525 |
| Datensatznummer |
250085134
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| Publikation (Nr.) |
 copernicus.org/amt-6-3515-2013.pdf |
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| Zusammenfassung |
The planetary boundary layer (PBL) includes the portion of the atmosphere
which is directly influenced by the presence of the earth's surface. Aerosol
particles trapped within the PBL can be used as tracers to study the
boundary-layer vertical structure and time variability. As a result of this,
elastic backscatter signals collected by lidar systems can be used to
determine the height and the internal structure of the PBL.
The present analysis considers three different methods to estimate the PBL
height. The first method is based on the determination of the first-order
derivative of the logarithm of the range-corrected elastic lidar signals.
Estimates of the PBL height for specific case studies obtained through this
approach are compared with simultaneous estimates from the potential
temperature profiles measured by radiosondes launched simultaneously to
lidar operation. Additional estimates of the boundary layer height are based
on the determination of the first-order derivative of the range-corrected
rotational Raman lidar signals. This latter approach results to be
successfully applicable also in the afternoon–evening decaying phase of the
PBL, when the effectiveness of the approach based on the elastic lidar
signals may be compromised or altered by the presence of the residual layer.
Results from these different approaches are compared and discussed in the
paper, with a specific focus on selected case studies collected by the
University of Basilicata Raman lidar system BASIL during the Convective and
Orographically-induced Precipitation Study (COPS). |
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