02734oam 2200517 450 99641819150331620210529080109.03-030-60963-410.1007/978-3-030-60963-4(CKB)4100000011643573(DE-He213)978-3-030-60963-4(MiAaPQ)EBC6421120(PPN)252516486(EXLCZ)99410000001164357320210529d2020 uy 0engurnn|008mamaatxtrdacontentcrdamediacrrdacarrierModal view of atmospheric variability applications of normal-mode function decomposition in weather and climate research /Nedjeljka Zagar, Joseph Tribbia, editors1st ed. 2020.Cham, Switzerland :Springer,[2020]©20201 online resource (XIII, 318 p. 114 illus., 50 illus. in color.) Mathematics of planet Earth ;Volume 83-030-60962-6 3D Normal Mode Functions (NMFs) Of a Global Baroclinic Atmospheric Model -- Normal Mode Functions and Initialization -- Normal-Mode Functions and Atmospheric Data Assimilation -- 3D Modal Variability and Energy Transformations On The Sphere -- Generalization of Baroclinic Instability and Rossby Wave Saturation Theory -- Applications to Predictions And Climate Studies.This book reviews the theory and applications of the normal-mode functions in numerical weather prediction and weather and climate dynamics. The normal-mode functions, the eigensolutions of the linearized primitive equations describing the evolution of atmospheric winds and mass variables, have been used for a long time. They have played an important role in the development of data assimilation schemes and the initialization of numerical weather prediction models. Chapters also present how the normal modes can be applied to many theoretical and numerical problems in the atmospheric sciences, such as equatorial wave dynamics, baroclinic instability, energy transfers, and predictability across scales.Mathematics of planet Earth ;Volume 8.Weather forecastingMathematical modelsAtmospheric scienceEnvironmental sciencesWeather forecastingMathematical models.Atmospheric science.Environmental sciences.551.63Zagar NedjeljkaTribbia JosephMiAaPQMiAaPQUtOrBLWBOOK996418191503316Modal view of atmospheric variability2208292UNISA