• Bakwin, P. S., P. P. Tans, D. F. Hurst, and C. Zhao (1998), Measurements of carbon dioxide on very tall towers: Results of the NOAA/CMDL program, Tellus, Ser. B, 50, 401415.
  • Benson, D. A., S. W. Wheatcraft, and M. M. Meerschaert (2000), The fractional-order governing equation of Levy motion, Water Resour. Res., 36(6), 14131423.
  • Brody, D. C., D. W. Hook, and L. P. Hughston (2007), Unitarity, ergodicity and quantum thermodynamics, J. Phys. A, 40(26), f503f509.
  • Brutsaert, W. (1982), Evaporation into the Atmosphere: Theory, History, and Applications, D. Reidel, Norwell, Mass.
  • Brutsaert, W. (1998), Land-surface water vapor and sensible heat flux: Spatial variability, homogeneity, and measurement scales, Water Resour. Res., 34(10), 24332442.
  • Cava, D., U. Giostra, M. Siqueira, and G. G. Katul (2004), Organized motion and radiative perturbations in the nocturnal canopy sublayer above an even-aged pine forest, Boundary Layer Meteorol., 112, 129157.
  • Da Prato, G., and A. Debussche (2003), Ergodicity for the 3D stochastic Navier-Stokes equations, J. Math. Pure Appl., 82(8), 877947.
  • Deodatis, G. (1996), Simulation of ergodic multivariate stochastic processes, J. Eng. Mech., 122(8), 778787.
  • Ding, Q. S., L. D. Zhu, and H. F. Xiang (2011), An efficient ergodic simulation of multivariate stochastic processes with spectral representation, Probab. Eng. Mech., 26(2), 350356.
  • Eckmann, J. P., and D. Ruelle (1985), Ergodic—Theory of chaos and strange attractors, Rev. Mod. Phys., 57(3), 617656.
  • Evans, D. J., and D. J. Searles (2002), The fluctuation theorem, Adv. Phys., 51(7), 15291585.
  • Froidevaux, M., C. W. Higgins, V. Simeonov, P. Ristori, E. Pardyjak, I. Serikov, and M. B. Parlange (2013), A new Raman lidar to measure water vapor in the atmospheric boundary layer, Adv. Water Resour., 51, 345356.
  • Galanti, B., and A. Tsinober (2004), Is turbulence ergodic?, Phys. Lett. A, 330(3-4), 173180.
  • Higgins, C. W., M. Foidevaux, V. Simeonov, N. Vercauteren, C. Barry, and M. B. Parlange (2012), The effect of scale on the applicability of Taylor's frozen turbulence hypothesis in the atmospheric boundary layer, Boundary Layer Meteorol., 143(2), 379391.
  • Lesieur, M. (1990), Turbulence in Fluids, 412 pp., Kluwer Acad., Dordrecht, Netherlands.
  • Monin, A. S., and A. M. Obukhov (1954), Basic laws of turbulent mixing in the ground surface layer, Tr. Geophiz. Inst. Akad. Nauk. SSSR., 151, 163187.
  • Monin, A. S., and A. M. Yaglom (1971), Statistical Fluid Mechanics, 767 pp., MIT Press, Cambridge, Mass.
  • Stanisic, M. (1985), Mathematical Theory of Turbulence, 429 pp., Springer, New York.
  • Stull, R. B. (2003), An Introduction to Boundary Layer Meteorology, pp. 357358, Kluwer Acad., Dordrecht.
  • Veneziano, D., and A. Tabaei (2004), Nonlinear spectral analysis of flow through porous media with isotropic lognormal hydraulic conductivity, J. Hydrol., 294(1-3), 4017.