Oceanografi (hav)

This book gathers research chapters and an extensive review and analysis of regional and national practices from both States Parties and non-Party States to UNCLOS.

Science and Engineering of Freak Waves provides a holistic and interdisciplinary view of extreme ocean waves for both scientific and engineering applications. Readers will learn the fundamental theory of extreme waves and the implications they have on coastal structures and methods of prediction through chapters that review the definitions of extreme waves, their history and other important observations. After this, the book's authors describe the theory and modeling of extreme waves that occur in various situations. Final sections provide examples of the application of extreme wave research results to various engineering designs are presented. This book provides a comprehensive overview of the current status of our understandings on freak/rogue waves, the science of extreme waves, prediction, and their engineering applications. As such, it is a must read for physical oceanographers looking for a better understanding of prediction models and the history of these waves, and engineers looking for more information on preparedness and implications for offshore structures and shipping.

This book contains a collection of papers from the special issue on the global perspective on meteotsunami science, published in Vol. 106 (2) of the journal Natural Hazards. By topic, the contributions are covering overview studies, case studies of actual events, introduction of new insights into meteotsunami modelling, new techniques in meteotsunami monitoring and detection, and those describing meteotsunami operational and forecast systems. More than half of all papers describe specific meteotsunami events observed in most of the world ocean basins, some others at a rudimentary level recall previous extreme episodes, while several papers contain thorough analysis of either atmospheric conditions or oceanic sea-level response.The book is intended for specialists in oceanography and atmospheric sciences, tsunami and fluid dynamics scientists, climatologists, coastal hazard agencies and managers, ocean engineers and many others, including students and science policy-makers, inparticular in the regions affected by this potentially destructive coastal hazard.The chapters "Proudman resonance with tides, bathymetry and variable atmospheric forcings", "Long wave generation and coastal amplification due to propagating atmospheric pressure disturbances", "On the potential of ensemble forecasting for the prediction of meteotsunamis in the Balearic Islands: sensitivity to atmospheric model parameterizations", and "Combined hazard of typhoon-generated meteorological tsunamis and storm surges along the coast of Japan" are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.Previously published in Natural Hazards, Volume 106, Issue 2, 2021

"This book is intended as a graduate-level textbook and professional reference on the physical oceanography of the continental shelf and slope. Defined as water deeper than about three meters and shallower than a kilometer, this region of the ocean is important for a variety of scientific and practical reasons, from its high biological productivity and role in distributing outflows from the continents to its heavy usage in transportation and recreation. In recent years, research on the coastal ocean has expanded as the study of both short- and long-term anthropogenic change has become increasingly urgent. Yet there is no comprehensive treatment of the dynamics of this critical region. The book covers a range of topics involving currents and water properties, including turbulent boundary layers, wind driving, tides, buoyancy currents, waves, instabilities, and connections with the open, deep ocean. Brink's approach-informed by over a decade teaching the corresponding course in Woods Hole/MIT's joint program-centers on the dynamics of particular processes and combinations of processes, but also includes copious observational examples. Intended to be accessible to graduate students in a range of oceanographic specialties, the book assumes 2-3 years of university-level math and at least an introductory course in quantitative physical oceanography"--