ISSN:
1573-1472
Keywords:
Stable boundary layer
;
Turbulence structure
;
Profile forms
;
Greenland ice sheet
Source:
Springer Online Journal Archives 1860-2000
Topics:
Geosciences
,
Physics
Notes:
Abstract Turbulence measurements from a 30 m tower in the stably stratifiedboundary layer over the Greenland ice sheet are analyzed. The observationsinclude profile and eddy-correlation measurements at various levels. Atfirst, the analysis of the turbulence data from the lowest level (2 m aboveground) shows that the linear form of the non-dimensional wind profile(ϕm) is in good agreement with the observations for z/L 〈0.4, whereL represents the Obukhov length. A linear regression yieldsϕm=1+5.8z/L. The non-dimensional temperature profile (ϕh) at the2m level shows no tendency to increase with increasing stability. The datafrom the upper levels of the tower are analyzed in terms of both localscaling and surface-layer scaling. The ϕm and the ϕh values show atendency to level off at large stability (z/Λ〉0.4) where Λrepresents the local Obukhov length. Hence, the linear form of the ϕfunctions is no longer appropriate under such conditions. The bestcorrespondence to the data can be achieved when using the expression ofBeljaars and Holtslag for ϕm and ϕh. The vertical profiles of theturbulent fluxes, the wind velocity variances and temperature variance arealso determined. The momentum flux profile and the profiles of wind speedvariances are in general agreement with other observations if a welldeveloped low-level wind maximum occurs, and the height of this maximum isused as a height scale.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1023/A:1000466827210
Permalink