• Becker, F., and Z. L. Li (1990), Towards a local split window method over land surfaces, Int. J. Remote Sens., 11, 369393.
  • Brutsaert, W. (1975), The roughness length for water vapour, sensible heat, and other scalars, J. Atmos. Sci., 32, 20282031.
  • Civerolo, K. L., G. Sistla, S. T. Rao, and D. J. Nowak (2000), The effects of land use in meteorological modelling: Implications for assessment of future air quality scenarios, Atmos. Environ., 34, 16151621.
  • De Ridder, K., and C. Mensink (2003), Surface fluxes and atmospheric stability obtained from a surface energy balance model with parameters estimated from satellite remote sensing, Int. J. Environ. Pollut., 19, 2231.
  • De Ridder, K., and G. Schayes (1997), The IAGL land surface model, J. Appl. Meteorol., 36, 167182.
  • European Commission (1994), CORINE land cover technical guide, EUR 12585 EN, OPOCE, Luxembourg.
  • Garratt, J. R. (1992), The Atmospheric Boundary Layer, 316 pp., Cambridge Univ. Press, New York.
  • Gutman, G., and A. Ignatov (1998), The derivation of the green vegetation fraction from NOAA/AVHRR data for use in numerical weather prediction models, Int. J. Remote Sens., 19, 15331543.
  • Khan, S. M., and R. W. Simpson (2001), Effect of a heat island on the meteorology of a complex urban airshed, Boundary Layer Meteorol., 100, 487506.
  • Kusaka, B. H., F. Kimura, H. Hirakuchi, and M. Mizutori (2000), The effects of land-use alteration on the sea breeze and daytime heat island in the Tokyo metropolitan area, J. Meteorol. Soc. Jpn., 78, 405420.
  • Lemonsu, A., and V. Masson (2002), Simulation of a summer urban breeze over Paris, Boundary Layer Meteorol., 104, 463490.
  • Martilli, A., A. Clappier, and M. W. Rotach (2002), An urban surface exchange parameterization for mesoscale models, Boundary Layer Meteorol., 104, 261304.
  • Masson, V. (2000), A physically-based scheme for the urban energy balance in atmospheric models, Boundary Layer Meteorol., 94, 357397.
  • Piringer, M., and K. Baumann (1999), Modifications of a valley wind system by an urban area—Experimental results, Meteorol. Atmos. Phys., 71, 117125.
  • Sun, W. Y., and C. Z. Chang (1986), Diffusion model for a convective layer. Part I: Numerical simulation of convective layer, J. Climate Appl. Meteor., 25, 14451453.
  • Tang, Y., and M. Miao (1998), A numerical case study on the impact of surface characteristics variations associated with urbanization on local climate, Contrib. Atmos. Phys., 71, 347357.
  • Voogt, J. A., and C. J. B. Grimmond (2000), Modelling surface sensible heat flux using surface radiative temperatures in a simple urban area, J. Appl. Meteorol., 39, 16791699.
  • Wittich, K. P., and D. Hansing (1995), Area-averaged vegetative cover fraction estimated from satellite data, Int. J. Biometeorol., 38, 209215.
  • Xue, M., K. K. Droegemeier, and V. Wong (2000), The Advanced Regional Prediction System (ARPS)—A multiscale nonhydrostatic atmospheric simulation and prediction tool. Part I: Model dynamics and verification, Meteorol. Atmos. Phys., 75, 161193.
  • Xue, M., K. K. Droegemeier, V. Wong, A. Shapiro, K. Brewster, F. Carr, D. Weber, Y. Liu, and D.-H. Wang (2001), The Advanced Regional Prediction System (ARPS)—A multiscale nonhydrostatic atmospheric simulation and prediction tool. Part II: Model physics and applications, Meteorol. Atmos. Phys., 76, 134165.