Spectral similarity between scalars at very low frequencies in the unstable atmospheric surface layer over the Tibetan plateau
Author:
Publisher
Springer Science and Business Media LLC
Subject
Atmospheric Science
Link
http://link.springer.com/content/pdf/10.1007/s10546-006-9096-y.pdf
Reference81 articles.
1. Albertson JD, Parlange MB, Katul GG, Chu C-R, Stricker H, Tyler S (1995) Sensible heat flux from arid regions: a simple flux-variance method. Water Resour Res 31(4):969–973
2. Andreas EL, Hill RJ, Gosz JR, Moore DI, Otto WD, Sarma AD (1998) ‘Statistics of surface-layer turbulence over terrain with metre-scale heterogeneity. Boundary-Layer 86:379–408
3. Asanuma J, Brutsaert W (1999a) The effect of chessboard variability of the surface fluxes on the aggregated turbulence fields in a convective atmospheric surface layer. Boundary-Layer Meteorol 91(1):37–50
4. Asanuma J, Brutsaert W (1999b) Turbulence variance characteristics of temperature and humidity in the unstable atmospheric surface layer above a variable pine forest. Water Resour Res 35(2):515–521
5. Asanuma J, Ishikawa H, Tamagawa I, Ma Y, Hayashi T, Qi Y, Wang J (2005) Application of bandpass covariance technique to portable flux measurements over tibetan plateau. Water Resour Res 41(9): W9407
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