2026 Richard Rotunno: Environmental Sciences Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Environmental Sciences	70	1666	1585	700	644	235	19041

Overview

Richard Rotunno is a researcher affiliated with the National Center for Atmospheric Research in the United States. Their primary areas of study lie within Earth and Planetary Sciences and Environmental Science, with a notable focus on atmospheric phenomena and climate-related topics.

The scientist has contributed extensively to the field of Atmospheric Science, supported by research in subfields such as Global and Planetary Change, Oceanography, Earth-Surface Processes, and Astronomy and Astrophysics. Their research topics include:

Tropical and Extratropical Cyclones Research
Meteorological Phenomena and Simulations
Climate variability and models
Ocean Waves and Remote Sensing
Coastal and Marine Dynamics
Fluid Dynamics and Turbulent Flows
Lightning and Electromagnetic Phenomena

Their frequent co-authors include Mario Marcello Miglietta, Alessandro Tiesi, Rossella Ferretti, Antonio Ricchi, and Mario Montopoli, showcasing collaborations within a diverse group of atmospheric researchers.

Richard Rotunno's publication record features a range of papers predominantly appearing in prominent scientific journals. Key publication venues include the Journal of the Atmospheric Sciences, Atmospheric chemistry and physics, Quarterly Journal of the Royal Meteorological Society, Atmospheric Research, and Geophysical Research Letters. Notably, the Journal of the Atmospheric Sciences hosts the largest number of their works.

Selected recent papers authored or co-authored by them are:

A large-eddy simulation study of deep-convection initiation through the collision of two sea-breeze fronts (2021) published in Atmospheric chemistry and physics
Role of moist and dry air advection in the development of Mediterranean tropical-like cyclones (medicanes) (2020) published in Quarterly Journal of the Royal Meteorological Society
Why Do the Maximum Intensities in Modeled Tropical Cyclones Vary Under the Same Environmental Conditions? (2020) published in Geophysical Research Letters
Consistent Impacts of Surface Enthalpy and Drag Coefficient Uncertainty between an Analytical Model and Simulated Tropical Cyclone Maximum Intensity and Storm Structure (2020) published in Journal of the Atmospheric Sciences
A Thermodynamic Perspective on Steady-State Tropical Cyclones (2020) published in Journal of the Atmospheric Sciences

Their body of work addresses various aspects of tropical cyclones, atmospheric convection, and the interplay of environmental factors affecting storm intensity and structure. This research contributes to advancing the understanding of meteorological phenomena through both observational and modeling approaches.

Best Publications

A Theory for Strong, Long-Lived Squall Lines

Richard Rotunno;Joseph B. Klemp;Morris L. Weisman

1798
Citations
An Air–Sea Interaction Theory for Tropical Cyclones. Part II: Evolutionary Study Using a Nonhydrostatic Axisymmetric Numerical Model

Richard Rotunno;Kerry A. Emanuel

1064
Citations
On the Rotation and Propagation of Simulated Supercell Thunderstorms

Richard Rotunno;Joseph Klemp

648
Citations
The Influence of the Shear-Induced Pressure Gradient on Thunderstorm Motion

Richard Rotunno;Joseph B. Klemp

647
Citations
Prediction of Landfalling Hurricanes with the Advanced Hurricane WRF Model

Christopher Davis;Wei Wang;Shuyi S. Chen;Yongsheng Chen

616
Citations
Low Froude Number Flow Past Three-Dimensional Obstacles. Part I: Baroclinically Generated Lee Vortices

Piotr K. Smolarkiewicz;Richard Rotunno

561
Citations
“A Theory for Strong Long-Lived Squall Lines” Revisited

Morris L. Weisman;Richard Rotunno

540
Citations
A Study of the Tornadic Region within a Supercell Thunderstorm

Joseph B. Klemp;Richard Rotunno

448
Citations
Effects of Moist Convection on Mesoscale Predictability

Fuqing Zhang;Chris Snyder;Richard Rotunno

427
Citations
Structure and Evolution of Numerically Simulated Squall Lines

Morris L. Weisman;Joseph B. Klemp;Richard Rotunno

418
Citations
HYMEX , a 10-year Multidisciplinary Program on the mediterranean water cycle.

P. Drobinski;Véronique Ducrocq;P. Alpert;E. Anagnostou

372
Citations
The Maximum Intensity of Tropical Cyclones in Axisymmetric Numerical Model Simulations

George H. Bryan;Richard Rotunno

367
Citations
Dropsonde Observations in Low-Level Jets over the Northeastern Pacific Ocean from CALJET-1998 and PACJET-2001: Mean Vertical-Profile and Atmospheric-River Characteristics

F. Martin Ralph;Paul J. Neiman;Richard Rotunno

357
Citations
Lessons on orographic precipitation from the Mesoscale Alpine Programme

Richard Rotunno;Robert A. Houze

344
Citations
On the Linear Theory of the Land and Sea Breeze

Richard Rotunno

331
Citations
Self-Stratification of Tropical Cyclone Outflow. Part I: Implications for Storm Structure

Kerry Emanuel;Richard Rotunno

329
Citations
Mesoscale Predictability of Moist Baroclinic Waves: Convection-Permitting Experiments and Multistage Error Growth Dynamics

Fuqing Zhang;Naifang Bei;Richard Rotunno;Chris Snyder

318
Citations
Mechanisms of Intense Alpine Rainfall

Richard Rotunno;Rossella Ferretti

308
Citations
The Use of Vertical Wind Shear versus Helicity in Interpreting Supercell Dynamics

Morris L. Weisman;Richard Rotunno

277
Citations
Polar lows as arctic hurricanes

Kerry A. Emanuel;Richard Rotunno

260
Citations

Frequent Co-Authors

Joseph B. Klemp National Center for Atmospheric Research

Fuqing Zhang Pennsylvania State University

Piotr K. Smolarkiewicz European Centre for Medium-Range Weather Forecasts

Kerry Emanuel MIT

Morris L. Weisman National Center for Atmospheric Research

Jimy Dudhia National Center for Atmospheric Research

David S. Nolan University of Miami

Robert A. Houze University of Washington

Frank S. Marzano Sapienza University of Rome

Norbert Kalthoff Karlsruhe Institute of Technology

External Links

Personal website of Richard Rotunno Google Scholar page

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