Tropical Meteorology, 2013
An Introduction
Springer Atmospheric Sciences Series

The Zonally Averaged Tropical Circulation.- Zonally Asymmetric Features in the Tropics.- The Intertropical Convergence Zone.- Heat Induced Circulations.- Monsoons.- Tropical Waves and Tropical Depressions.- The Madden Julian Oscillation.- Scale Interaction in the Tropics.- El Nino and Southern Oscillation.- Diabatic Potential Vorticity Over the Global Tropics.- Tropical Cloud Ensembles.- Tropical boundary layer.- Radiative Forcing.- Dry and moist static stability.- Hurricane Observations.- Genesis, Tracks and Intensification of Hurricanes.- Modeling and Forecasting of Hurricanes.- Sea Breeze and Diurnal Change Over the Tropics.- Tropical Squall Lines and Mesoscale convective systems.

T.N. Krishnamurti is Professor of Meteorology at Florida State University. He obtained his PhD in 1959 at the University of Chicago. His research interests are in the following areas: high resolution hurricane forecast (tracks, landfall, and intensity), monsoon forecasts on short, medium range, and monthly time scale and studies of interseasonal and interannual variability of the tropical atmosphere. As a participant in the meteorology team in tropical field projects, he has been responsible for the acquisition and analysis of meteorological data, which extends over most of the tropical atmosphere over several years and is now being assembled and analyzed. Phenomenological interests include hurricanes, monsoons, jet streams, and the meteorology of arid zones.

Dr. Lydia Stefanova is an assistant research scientist at the Center for Ocean-Atmospheric Prediction Studies (COAPS).  Her current research interests are in the area of understanding the nature and manifestations of climate variability and long term climate change, and understanding, quantifying, and improving the quality and usefulness of climate prediction and projection products. Her research includes the analysis of large scale and regional climate variability, dynamical climate forecasting with a focus on near-surface processes at various scales and the applications of climate forecasts to hydrological, ecological and agricultural modeling. She has worked on ENSO, Pacific Decadal Oscillation, Atlantic Multidecadal Oscillation and Arctic Oscillation as modulators of US climate.

Dr. Vasu Misra is an associate Professor at COAPS whose research interests are in climate variability and predictability. He works with a variety of numerical models to understand climate variations and climate change. These numerical tools include regional atmospheric models, atmospheric general circulation models and coupled ocean-atmosphere models. He is keen on understanding the predictability of a model,