As usual, by clicking on the above image, you will be able to access the presentation. He cited some interesting papers that you will find below. On the butterfly effect, you can also see this my previous post, to which I think the literature cited by Richards add something important.
References (In the order in which they are cited)
- Charney, J.G; Fjörtoft, R and von Neumann, Numerical integration of the barotropic vorticity equation, Tellus, 2:4, 237-254, DOI: 10.3402/tellusa.v2i4.8607, 1950
- Lynch, P., The origins of computer weather prediction and climate modeling” , J Comp Phys, doi:10.1016/j.jcp.2007.02.034, 2008
- Thompson, P.D., “Uncertainty of Initial State as a Factor in the Predictability of Large Scale Atmospheric Flow Patterns”, Tellus IX, 1957
- Lorenz, E.N., “The Predictability of a Flow which Possesses Many Scales of Motion” E. N. Lorenz, Tellus XX1, 1969
- Palmer, T.N; Döring, A.; Seregin, G. The Real Butterfly Effect”. 27,9, R123, Nonlinearity 2014
- Lilly, D.K., “Numerical Simulation Studies of Two-Dimensional Turbulence: II. Stability and Predictability Studies” Geophysical Fluid Dynamics, 4(1), 1972
- Tennekes, H, Turbulent flow in two and three dimensions, Bull. Amer. Met. Soc., 59(1), 1978
- Skamarock, W.C., Evaluating Mesoscale NWP Models Using Kinetic Energy Spectra, Monthly Weather Review, 2004
- Patton, E.g. and Sullivan, P.P, Atmospheric stability influences on coupled boundary-layer-canopy turbulence, Journal of Atmos. Sci., https://doi.org/10.1175/JAS-D-15-0068.1, 2016
- Falko, J., Insights into Atmospheric Predictability through Global Convection-Permitting Model Simulations, Journal of Atmos. Sci., https://doi.org/10.1175/JAS-D-17-0343.1, 2018
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