Non-Linear Variability in Geophysics

1 — Turbulence and Geophysical Fluid Dynamics.- Ch. 1 — Energy spectrum and intermittency of semi-geostrophic flow.- Ch. 2 — Helicity fluctuations and coherence in developed turbulence.- Ch. 3 — Deterministic diffusion, effective shear and patchiness in tidal flows.- Ch. 4 — Scaling nonlinear variability in geodynamics: Multiple singularities, observables, universality classes.- Ch. 5 — Scaling and structure functions in shear flows.- 2 — Data Analysis Techniques.- Ch. 6 — Correlation dimension and data sample size.- Ch. 7 — On the determination of the codimension function.- Ch. 8 — Multifractal analysis techniques and the rain and cloud fields from 10?3 to 106m.- Ch. 9 — Eigen-structure of eddies; continuous weighting versus conditional sampling.- 3 — Modeling and Analysis of Clouds, Rain, and Other Atmospheric Fields.- Ch. 10 — Atmospheric boundary layer variability and its implications for CO2 flux measurements.- Ch. 11 — A fractal study of dielectric breakdown in the atmosphere.- Ch. 12 — On lognormality and scaling in spatial rainfall averages?.- Ch. 13 — Physically based rain and cloud modeling.- Ch. 14 — Fractal characterization of intertropical precipitation variability and anisotropy.- 4 — Modeling and Analysis of the Climate, Oceans and in Solid Earth Geophysics.- Ch. 15 — Fractal nature of surface geometry in a developed sea.- Ch. 16 — Fractal linear models of geophysical processes.- Ch. 17 — Extreme variability of climatological data: Scaling and intermittency.- Ch. 18 — On the existence of low dimensional climatic attractors.- Ch. 19 — The third generation WAM models for wind-generated ocean waves.- Ch. 20 — 1/f geology and seismic deconvolution.- Ch. 21 — The stochastic coherence and the dynamics ofglobal climate models and data.- 5 — Remote Sensing.- Ch. 22 — Landsat observations of fractal cloud structure.- Ch. 23 — Fractal dimension analysis of horizontal cloud pattern in the intertropical convergence zone.- Ch. 24 — Radiative transfer in multifractal clouds.