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Fine-scale structure observed in a stable atmospheric boundary layer by sodar and kite-borne tethersonde
Co-located high resolution profiles of acoustic backscatter,wind vector and potential temperature are presented, measured within the stable atmosphericboundary layer over an Antarctic ice shelf. Acoustic profiles from a monostaticacoustic radar (Sodar) indicate complex structure within the boundary...
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Published in: | Boundary-layer meteorology 2003-05, Vol.107 (2), p.323-351 |
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container_title | Boundary-layer meteorology |
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creator | ANDERSON, P. S |
description | Co-located high resolution profiles of acoustic backscatter,wind vector and potential temperature are presented, measured within the stable atmosphericboundary layer over an Antarctic ice shelf. Acoustic profiles from a monostaticacoustic radar (Sodar) indicate complex structure within the boundary layer, whilstwind and temperature profiles from a tethersonde show corresponding bands of differingstability. Internal waves and fossil convection are shown to invalidate attemptsto compare backscatter measurements with theoretical estimates based on local wind and temperature gradients, but during ideal conditions, a qualitative agreementis observed.[PUBLICATION ABSTRACT] |
doi_str_mv | 10.1023/A:1022171009297 |
format | article |
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source | Springer Nature |
subjects | Acoustics Atmospheric boundary layer Boundary layers Convection, turbulence, diffusion. Boundary layer structure and dynamics Earth, ocean, space Exact sciences and technology External geophysics Ice shelves Icebergs Internal waves Marine Meteorology Temperature gradients |
title | Fine-scale structure observed in a stable atmospheric boundary layer by sodar and kite-borne tethersonde |
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