© 2010

IUTAM Symposium on Turbulence in the Atmosphere and Oceans

Proceedings of the IUTAM Symposium on Turbulence in the Atmosphere and Oceans, Cambridge, UK, December 8 ─ 12, 2008

  • David Dritschel
Conference proceedings

Part of the IUTAM Bookseries book series (IUTAMBOOK, volume 28)

Table of contents

  1. Front Matter
    Pages I-XXI
  2. Waves and Imbalance

  3. Turbulence and Convection

    1. Front Matter
      Pages 75-75
    2. P. A. Davidson, P. J. Staplehurst, S. B. Dalziel
      Pages 95-104
    3. Daan D. J. A. van Sommeren, George F. Carnevale, Rudolf C. Kloosterziel, Paolo Orlandi
      Pages 105-115
    4. James C. McWilliams
      Pages 131-141
    5. Jackson R. Herring, Yoshifumi Kimura
      Pages 143-154
    6. Antoine Venaille, Joel Sommeria
      Pages 155-167
  4. Instability and Vortex Dynamics

    1. Front Matter
      Pages 195-195
    2. Axel Deloncle, Paul Billant, Jean-Marc Chomaz
      Pages 197-206

About these proceedings


This book stems from the IUTAM symposium “Rotating Stratified Turbulence and Turbulence in the Atmosphere and Oceans” which took place at the Isaac Newton Institute for Mathematical Sciences in Cambridge from 8 to 12 December 2008, and came at the end of a four-month Programme on “High Reynolds Number Turbulence”.

This symposium, widely attended by researchers from around the world, aimed to better understand the complex nature of fluid flows found in Nature, particularly in the Earth’s atmosphere and oceans, but also in other planetary atmospheres and in the Sun’s interior. Talks covered a broad range of subjects, from theoretical studies of fundamental vortex interactions, to laboratory experiments and observations, and to state-of-the-art computational studies.

The present volume presents a cross-section of the research presented at the symposium, or in some cases, of the research inspired by it. Herein, 23 peer-reviewed papers are collected (39 talks were presented). The research is loosely divided into four main topics: (1) Waves and Imbalance, (2) Turbulence and Convection, (3) Instability and Vortex Dynamics, and (4) Jets: Formation and Structure.


Dynamics Ocean Scale Tide algorithms atmosphere convection magnetohydrodynamics modeling spheric

Editors and affiliations

  • David Dritschel
    • 1
  1. 1.Dept. MathematicsUniversity of St. AndrewsSt. Andrews, FifeUnited Kingdom

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