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Earth’s weather and climate are complex nonlinear systems of dynamical/thermodynamical processes that are highly variable on all spatiotemporal scales. The analysis and prediction of those processes and their feedbacks with the other systems of the biosphere (land and ocean), from the viewpoints of both atmospheric science and dynamics/thermodynamics, can improve our knowledge and have a great impact on society. The main aim of this Special Issue was to gather observational, theoretical and modeling studies on the dynamics of the atmosphere and the climate system, as well as on their predictability at different spatiotemporal scales.
Research & information: general --- drought --- forecasting --- Latin America --- Lagrangian numerical method --- ocean modeling --- ocean mixing --- atmospheric sounding --- Costa Rica --- GPS --- MODIS --- precipitable water vapor --- Blizzards --- blowing snow --- climatology --- self-organizing maps --- synoptic typing --- anthropogenic land cover changes --- hydrological model MIKE-SHE --- time-series statistical analysis --- trend analysis --- Spercheios river basin --- cold fronts --- Mediterranean --- identification scheme --- Frontal Tracking Scheme (FTS) --- MedFTS
Choose an application
Earth’s weather and climate are complex nonlinear systems of dynamical/thermodynamical processes that are highly variable on all spatiotemporal scales. The analysis and prediction of those processes and their feedbacks with the other systems of the biosphere (land and ocean), from the viewpoints of both atmospheric science and dynamics/thermodynamics, can improve our knowledge and have a great impact on society. The main aim of this Special Issue was to gather observational, theoretical and modeling studies on the dynamics of the atmosphere and the climate system, as well as on their predictability at different spatiotemporal scales.
drought --- forecasting --- Latin America --- Lagrangian numerical method --- ocean modeling --- ocean mixing --- atmospheric sounding --- Costa Rica --- GPS --- MODIS --- precipitable water vapor --- Blizzards --- blowing snow --- climatology --- self-organizing maps --- synoptic typing --- anthropogenic land cover changes --- hydrological model MIKE-SHE --- time-series statistical analysis --- trend analysis --- Spercheios river basin --- cold fronts --- Mediterranean --- identification scheme --- Frontal Tracking Scheme (FTS) --- MedFTS
Choose an application
Earth’s weather and climate are complex nonlinear systems of dynamical/thermodynamical processes that are highly variable on all spatiotemporal scales. The analysis and prediction of those processes and their feedbacks with the other systems of the biosphere (land and ocean), from the viewpoints of both atmospheric science and dynamics/thermodynamics, can improve our knowledge and have a great impact on society. The main aim of this Special Issue was to gather observational, theoretical and modeling studies on the dynamics of the atmosphere and the climate system, as well as on their predictability at different spatiotemporal scales.
Research & information: general --- drought --- forecasting --- Latin America --- Lagrangian numerical method --- ocean modeling --- ocean mixing --- atmospheric sounding --- Costa Rica --- GPS --- MODIS --- precipitable water vapor --- Blizzards --- blowing snow --- climatology --- self-organizing maps --- synoptic typing --- anthropogenic land cover changes --- hydrological model MIKE-SHE --- time-series statistical analysis --- trend analysis --- Spercheios river basin --- cold fronts --- Mediterranean --- identification scheme --- Frontal Tracking Scheme (FTS) --- MedFTS --- drought --- forecasting --- Latin America --- Lagrangian numerical method --- ocean modeling --- ocean mixing --- atmospheric sounding --- Costa Rica --- GPS --- MODIS --- precipitable water vapor --- Blizzards --- blowing snow --- climatology --- self-organizing maps --- synoptic typing --- anthropogenic land cover changes --- hydrological model MIKE-SHE --- time-series statistical analysis --- trend analysis --- Spercheios river basin --- cold fronts --- Mediterranean --- identification scheme --- Frontal Tracking Scheme (FTS) --- MedFTS
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