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The influence of large-scale forcing on the katabatic wind regime at Adélie Land, Antarctica (1993)

Parish, T. R. ; Pettré, P. ; Wendler, G.

Springer

Meteorology and atmospheric physics 51 (1993), S. 165-176

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ISSN: 1436-5065

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Summary The Adélie Land coastal section of East Antarctica is known for strong katabatic winds. Although the primary forcing of these persistent drainage flows has been attributed to the radiative cooling of the sloping ice topography, effects of ambient horizontal pressure gradients can play a central role in shaping the Antarctic surface wind regime as well. Oberrvations of the katabatic wind at the near-coastal Adélie Land station D-10 have been sorted into strong and weak wind classes. Concurrent radiosonde ascents at nearby Dumont D'Urville have been used to depict the timeaveraged large scale conditions accompanying the katabatic wind classes. Results suggest that strong katabatic wind cases are associated with low pressure over the coastal margin and easterly upper level motions. Numerical simulations have been conducted to examine the effect of prescribed large scale forcing on the evolution of the katabatic wind. The model runs indicate that the ambient environment plays a key role in the development and intensity of the katabatic wind regime.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01030492

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Study of the influence of katabatic flows on the Antarctic circulation using GCM simulations (1990)

Pettré, P. ; Renaud, M. F. ; Renaud, R. ; [et al.]

Springer

Meteorology and atmospheric physics 43 (1990), S. 187-195

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ISSN: 1436-5065

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Summary A one dimensional analytical model of katabatic wind over the Antarctica has been developed. This parametric model is derived from the bulk two-layer model of Ball including the surface friction and taking into account the Earth's rotation and the geostrophic wind in the upper layer. This model is validated using the data set (70 soundings) collected during IAGO experiment at D47 (67°24′S, 138°43′E, altitude 1 564m), 110 km inland from the coast of Adélie Land. The parameteric model is then introduced into a GCM which is a spectral global version of the operational numerical weather prediction model used by the French weather service. The most significant effect of the parameterization is a 50 m increase of the geopotential height over the South Pole. The surface temperature at the South Pole increases (2°C) reducing the pole-midlatitude thermal gradient. The westerly circulation at 50° S is slowed down (4m/s at 850 hPa), and the surface pressure at the South Pole increases (4hPa). These results, consistent with an increase of katabatic winds, would however be improved by a better coupling between the parameterization and the GCM boundary layer.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01028121

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Sodar performance and preliminary results after one year of measurements at Adelie land coast, east Antarctica (1996)

Argentini, S. ; Mastrantonio, G. ; Viola, A. ; [et al.]

Springer

Boundary layer meteorology 81 (1996), S. 75-103

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ISSN: 1573-1472

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Dumont d'Urville, on the Antarctic coast, is an area well known for the presence of strong katabatic winds blowing from the Antarctic plateau toward the sea almost all year. Since January 1993, a three-axis Doppler sodar has been operating in this area to investigate the variability of the boundary layer structure and dynamics. In this paper, the capabilities, behavior and advantages of using this ground-based remote-sensing system in Antarctica are evaluated after one year of measurements. This instrument may play an important role in boundary layer studies in remote regions where other profiling techniques (e.g., kitoons, slow ascent balloons) are difficult and expensive. All year long, except in summer when the signal-to-noise ratio was dramatically reduced by the noise of a large group of Adelie penguins, reliable measurements were available up to 900 m. The reliability of the vertical wind velocity has been checked and the influence of the local topography on the flow pattern has been evaluated. Some preliminary results regarding the statistical analysis of the horizontal and vertical velocities and an overview of the main physical processes are also shown. The statistical analysis of the wind speed shows that the wind blows from the 30 ° angular sectors centered at 90 °, 150 °, 180 °, and 0 °. The winds from 90 ° and 150 ° constitute the main local circulation and have, most of the time, the characteristics of a katabatic flow, whereas the winds blowing from 180 °, arising from the surface temperature difference between the sea and the land, are land breezes. Strong winds coming from the ocean (0 °), attributable to the inland penetration of depressions, have been observed in May, October, and November. Finally, some examples of the observed thermal structures, as depicted in the facsimile recording, are shown.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00119401

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Climatology of the three coastal Antarctic stations Dumont D'urville, Neumayer and Halley (1998)

König-Langlo, Gert ; King, J. ; Pettré, P.

In: EPIC3Journal of geophysical researchD9, 103, pp. 10935-10946

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Publication Date: 2019-12-03

Description: Long term air and snowfall chemistry measurements have beenperformed at the three coastal Antarctic stations Dumont dÚrville(66°40ŽS, 140°1ŽE), Neumayer (70°39ŽS, 8°15ŽW), and Halley(75°35ŽS, 26°19ŽW). The results have to be interpreted andcompared with respect to the regional meteorological conditions.In this study the 3-hourly synoptic surface observations taken at thethree stations between 1991 and 1995, as well as the dailyupper air soundings from 1993, are analyzed to describe theaspects of station climatologies relevant for the air and snowfall chemistrymeasurements discussed in the papers of this special section. Although the threestations are comparable, being situated close to the coastline of Antarctica, themeteorological conditions differ. While at Dumont dŽUrville katabatic winds causeprediminant strong and relatively dry surface winds from the interior of Antarctica,Neumayer and Halley are frequently influenced by easterly winds associated mostlywith eastwardmoving cyclones. From April through October the wind field above 5 km isgoverned by a circumpolar vortex with westerly winds increasing with height.Dumont dÚrville represents a station at the edge of this vortexwith extreme stratospheric wind velocities above 50 m/s. Neumayer and Halley aremostly situated within the vortex and isolated from airmasses advecting fromlower latitudes into the upper troposphere and lower stratosphere during theAustral winter.

Repository Name: EPIC Alfred Wegener Institut

Type: Article , isiRev

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