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149 results in Atmospheric Science and Meteorology

Page 1 of 8

Meteorology and Climate of the Southern Hemisphere
  • Edited by Andréa S. Taschetto, Thando Ndarana, Tercio Ambrizzi
  • Coming soon
  • Expected online publication date:
    January 2026
    Print publication:
    31 January 2026
  • This book brings together insights from over a hundred experts in meteorology and climatology to expand existing knowledge of climate variability across the various timescales that shape weather patterns in South America, Africa, Australasia, and Antarctica. It describes the atmospheric circulation in the tropics and southern extratropics and puts into perspective its northern counterpart. The discovery of the different types of El Niño Southern Oscillation, Indian Ocean Dipole, and trends in the Southern Annular Mode are a few examples of phenomena discussed. The chapters also examine the role of the oceans in the climate, highlight the impact of extreme events and observed changes, explore future projections in a warming world, and discuss the current state and challenges of climate modelling. This book will be a key resource for researchers and graduate students in meteorology, atmospheric science, and climatology, particularly in the Southern Hemisphere.

Earth System Modeling, Data Assimilation and Predictability
  • Atmosphere, Oceans, Land and Human Systems
  • 2nd edition
  • Eugenia Kalnay, Safa Mote, Cheng Da
  • Published online:
    21 March 2025
    Print publication:
    31 October 2024
  • Since the publication of the first edition of this highly regarded textbook, the value of data assimilation has become widely recognized across the Earth sciences and beyond. Data assimilation methods are now being applied to many areas of prediction and forecasting, including extreme weather events, wildfires, infectious disease epidemics, and economic modeling. This second edition provides a broad introduction to applications across the Earth systems and coupled Earth–human systems, with an expanded range of topics covering the latest developments of variational, ensemble, and hybrid data assimilation methods. New toy models and intermediate-complexity atmospheric general circulation models provide hands-on engagement with key concepts in numerical weather prediction, data assimilation, and predictability. The inclusion of computational projects, exercises, lecture notes, teaching slides, and sample exams makes this textbook an indispensable and practical resource for advanced undergraduate and graduate students, researchers, and practitioners who work in weather forecasting and climate prediction.

The Weather Observer's Handbook
  • 2nd edition
  • Stephen Burt
  • Published online:
    21 May 2024
    Print publication:
    25 April 2024
  • This handbook provides a comprehensive, practical, and independent guide to all aspects of making weather observations. The second edition has been fully updated throughout with new material, new instruments and technologies, and the latest reference and research materials. Traditional and modern weather instruments are covered, including how best to choose and to site a weather station, how to get the best out of your equipment, how to store and analyse your records and how to share your observations. The book's emphasis is on modern electronic instruments and automatic weather stations. It provides advice on replacing 'traditional' mercury-based thermometers and barometers with modern digital sensors, following implementation of the UN Minamata Convention outlawing mercury in the environment. The Weather Observer's Handbook will again prove to be an invaluable resource for both amateur observers choosing their first weather instruments and professional observers looking for a comprehensive and up-to-date guide.

The Science of Our Changing Climate
  • Michael A. Box, Gail P. Box
  • Published online:
    05 April 2024
    Print publication:
    02 May 2024
  • This compelling textbook provides a broad overview of the science underpinning our understanding of our climate, and how it is changing. Presented in clear and accessible language, and requiring only minimal algebra, it enables students to understand how our planet “behaves” under “normal conditions” and how human activity has moved us away from that normal. It walks the student comprehensively through the basic science, including how greenhouse gases absorb radiation and, crucially, a chapter on aerosols, major players in climate change. Diverse case studies and examples illuminate the impact and connections to real world events while review questions and exercises consolidate knowledge. Including the latest results from the IPCC 6th Assessment Report, it concludes by exploring climate modelling, equipping students with an understanding of how to simulate both past climate changes and projections of future climate change. Online resources include lecture slides, solutions and Excel code.

Introduction to Dual Polarization Weather Radar
  • Fundamentals, Applications, and Networks
  • V. Chandrasekar, Robert M. Beauchamp, Renzo Bechini
  • Published online:
    03 August 2023
    Print publication:
    17 August 2023
  • An interdisciplinary and easy-to-understand introduction to the subject, covering fundamental theory and practical applications, and using numerous operational examples. This balanced text will allow you to begin from what the radar observes and move deeper through electromagnetic scattering theory and cloud microphysics to understand and interpret data as it appears on the display. It uses illustrations and figures of real radar observations to convey concepts and theory of atmospheric processes typically observed with weather radar, as well presenting a working knowledge of the radar system itself. In addition to covering fundamentals of scattering and atmospheric physics, topics include system hardware, signal processing, and radar networks. This is the perfect tool for scientists and engineers working on weather radars or using radars and their data, as well as senior undergraduate and graduate students studying weather radars.

The Atmospheric General Circulation
  • John M. Wallace, David S. Battisti, David W. J. Thompson, Dennis L. Hartmann
  • Published online:
    26 May 2023
    Print publication:
    20 April 2023
  • An engaging, comprehensive, richly illustrated textbook about the atmospheric general circulation, written by leading researchers in the field. The book elucidates the pervasive role of atmospheric dynamics in the Earth System, interprets the structure and evolution of atmospheric motions across a range of space and time scales in terms of fundamental theoretical principles, and includes relevant historical background and tutorials on research methodology. The book includes over 300 exercises and is accompanied by extensive online resources, including solutions manuals, an animations library, and an introduction to online visualization and analysis tools. This textbook is suitable as a textbook for advanced undergraduate and graduate level courses in atmospheric sciences and geosciences curricula and as a reference textbook for researchers.

An Introduction to Space Weather
  • 2nd edition
  • Mark Moldwin
  • Published online:
    12 November 2022
    Print publication:
    01 December 2022
  • Our space age technology enables global communication, navigation, and power distribution that has given rise to our 'smart', interconnected and spacefaring world. Much of the infrastructure modern society depends on, to live on Earth and to explore space, is susceptible to space weather storms originating from the Sun. The Second Edition of this introductory textbook is expanded to reflect our increased understanding from more than a dozen scientific missions over the past decade. Updates include discussions of the rapidly expanding commercial space sector, orbital debris and collision hazards, our understanding of solar-terrestrial connections to climate, and the renewed emphasis of human exploration of the Moon and Mars. It provides new learning features to help students understand the science and solve meaningful problems, including some based on real-world data. Each chapter includes learning objectives and supplements that provide descriptions of the science and learning strategies to help students and instructors alike.

Principles of Data Assimilation
  • Seon Ki Park, Milija Zupanski
  • Published online:
    22 September 2022
    Print publication:
    29 September 2022
  • Data assimilation is theoretically founded on probability, statistics, control theory, information theory, linear algebra, and functional analysis. At the same time, data assimilation is a very practical subject, given its goal of estimating the posterior probability density function in realistic high-dimensional applications. This puts data assimilation at the intersection between the contrasting requirements of theory and practice. Based on over twenty years of teaching courses in data assimilation, Principles of Data Assimilation introduces a unique perspective that is firmly based on mathematical theories, but also acknowledges practical limitations of the theory. With the inclusion of numerous examples and practical case studies throughout, this new perspective will help students and researchers to competently interpret data assimilation results and to identify critical challenges of developing data assimilation algorithms. The benefit of information theory also introduces new pathways for further development, understanding, and improvement of data assimilation methods.

Global Atmospheric and Oceanic Modelling
  • Fundamental Equations
  • Andrew N. Staniforth
  • Published online:
    08 April 2022
    Print publication:
    28 April 2022
  • Combining rigorous theory with practical application, this book provides a unified and detailed account of the fundamental equations governing atmospheric and oceanic fluid flow on which global, quantitative models of weather and climate prediction are founded. It lays the foundation for more accurate models by making fewer approximations and imposing dynamical and thermodynamical consistency, moving beyond the assumption that the Earth is perfectly spherical. A general set of equations is developed in a standard notation with clearly stated assumptions, limitations, and important properties. Some exact, non-linear solutions are developed to promote further understanding and for testing purposes. This book contains a thorough consideration of the fundamental equations for atmospheric and oceanic models, and is therefore invaluable to both theoreticians and numerical modellers. It also stands as an accessible source for reference purposes.

The Changing Flow of Energy Through the Climate System
  • Kevin E. Trenberth
  • Published online:
    25 February 2022
    Print publication:
    13 January 2022
  • Kevin E. Trenberth emphasizes the fundamental role of energy flows in the climate system and anthropogenic climate change. The distribution of heat, or more generally, energy, is the main determinant of weather patterns in the atmosphere and their impacts. The topics addressed cover many facets of climate and the climate crisis. These include the diurnal cycle; the seasons; energy differences between the continents and the oceans, the poles and the tropics; interannual variability such as Niño; natural decadal variability; and ice ages. Human-induced climate change rides on and interacts with all of these natural phenomena, and the result is an unevenly warming planet and changing weather extremes. The book emphasizes the need to not only slow or stop climate change, but also to better prepare for it and build resilience. Students, researchers, and professionals from a wide range of backgrounds will benefit from this deeper understanding of climate change.

Atmospheric Lidar Fundamentals
  • Laser Light Scattering from Atoms and Linear Molecules
  • Chiao-Yao She, Jonathan S. Friedman
  • Published online:
    24 February 2022
    Print publication:
    03 March 2022
  • Lidar is a remote sensing technique that employs laser beams to produce a high-resolution, four-dimensional probe, with important applications in atmospheric science. Suitable as a detailed reference or an advanced textbook for interdisciplinary courses, this book discusses the underlying principles of light-scattering theory and describes widely used lidar systems in current research, exploring how they can be employed effectively for atmospheric profiling. This self-contained text provides a solid grounding in the essential physics of light-matter interactions and the fundamentals of atmospheric lidars through a discussion of the principles that govern light-matter interactions and an exploration of both historical and recent scientific developments in lidar technology. This is an essential resource for physicists, optical engineers and other researchers in atmospheric science and remote sensing.

Numerical Methods for Atmospheric and Oceanic Sciences
  • A. Chandrasekar
  • Published online:
    22 February 2022
    Print publication:
    10 November 2022
  • Numerical Methods for Atmospheric and Oceanic Sciences caters to the needs of students of atmospheric and oceanic sciences in senior undergraduate and graduate courses as well as students of applied mathematics, mechanical and aerospace engineering. The book covers fundamental theoretical aspects of the various numerical methods that will help both students and teachers in gaining a better understanding of the effectiveness and rigour of these methods. Extensive applications of the finite difference methods used in the processes involving advection, barotropic, shallow water, baroclinic, oscillation and decay are covered in detail. Special emphasis is given to advanced numerical methods such as Semi-Lagrangian, Spectral, Finite Element and Finite Volume methods. Each chapter includes various exercises including Python codes that will enable students to develop the codes and compare the numerical solutions obtained through different numerical methods.

Climate Variability and Tropical Cyclone Activity
  • Pao-Shin Chu, Hiroyuki Murakami
  • Published online:
    17 February 2022
    Print publication:
    10 March 2022
  • This book presents a comprehensive summary of research on tropical cyclone variability at various time scales, from intraseasonal and interannual to interdecadal and centennial. It covers the fundamental theory, statistics and numerical modelling techniques used when considering climate variability in relation to tropical cyclone activity. Major climate oscillations including the Madden-Julian, El Niño, Atlantic Meridional Mode, and Pacific Decadal oscillations are covered, and their impacts on tropical cyclone activity in the Pacific and Atlantic oceans are discussed. Hurricane landfalls in the United States, Caribbean and East Asia are also considered. Climate models and numerical simulations are used to show how prediction models of tropical cyclones are developed, while looking to the future, particular attention is paid to predicting how tropical cyclones will change in response to increased concentrations of greenhouse gases. This book ideal for researchers and practitioners in atmospheric science, climatology, oceanography and civil and environmental engineering.

Weather
  • A Concise Introduction
  • 2nd edition
  • Gregory J. Hakim, Jérôme Patoux
  • Published online:
    26 October 2021
    Print publication:
    28 October 2021
  • The second edition of this concise, affordable textbook is ideal for curious undergraduate majors and non-majors taking a first course in meteorology. The first two chapters introduce readers to the main concepts and tools used to analyze weather patterns. Chapters 3-8 provide a foundational understanding of the fundamental processes taking place in the atmosphere, and in Chapters 9-12 these physical concepts are applied to specific weather phenomena. Weather concepts are then used in Chapters 13-15 to explain weather forecasting, air pollution, and the impact of climate change on weather. Key concepts are illustrated through a running case study of a single mid-latitude cyclone, providing students with an opportunity to progressively develop their understanding of weather phenomena with a familiar example approached from multiple perspectives. This edition includes expanded and updated coverage of precipitation types and formation, satellite and radar technology, tornadoes, and more. It also features thought-provoking end-of-chapter review questions, new visual analysis exercises, an expanded test bank and nearly 100 new figures.

Downscaling Techniques for High-Resolution Climate Projections
  • From Global Change to Local Impacts
  • Rao Kotamarthi, Katharine Hayhoe, Linda O. Mearns, Donald Wuebbles, Jennifer Jacobs, Jennifer Jurado
  • Published online:
    05 February 2021
    Print publication:
    11 February 2021
  • Downscaling is a widely used technique for translating information from large-scale climate models to the spatial and temporal scales needed to assess local and regional climate impacts, vulnerability, risk and resilience. This book is a comprehensive guide to the downscaling techniques used for climate data. A general introduction of the science of climate modeling is followed by a discussion of techniques, models and methodologies used for producing downscaled projections, and the advantages, disadvantages and uncertainties of each. The book provides detailed information on dynamic and statistical downscaling techniques in non-technical language, as well as recommendations for selecting suitable downscaled datasets for different applications. The use of downscaled climate data in national and international assessments is also discussed using global examples. This is a practical guide for graduate students and researchers working on climate impacts and adaptation, as well as for policy makers and practitioners interested in climate risk and resilience.

Clouds and Climate
  • Climate Science's Greatest Challenge
  • Edited by A. Pier Siebesma, Sandrine Bony, Christian Jakob, Bjorn Stevens
  • Published online:
    18 September 2020
    Print publication:
    20 August 2020
  • Cloud research is a rapidly developing branch of climate science that's vital to climate modelling. With new observational and simulation technologies our knowledge of clouds and their role in the warming climate is accelerating. This book provides a comprehensive overview of research on clouds and their role in our present and future climate, covering theoretical, observational, and modelling perspectives. Part I discusses clouds from three different perspectives: as particles, light and fluid. Part II describes our capability to model clouds, ranging from theoretical conceptual models to applied parameterised representations. Part III describes the interaction of clouds with the large-scale circulation in the tropics, mid-latitudes, and polar regions. Part IV describes how clouds are perturbed by aerosols, the land-surface, and global warming. Each chapter contains end-of-chapter exercises and further reading sections, making this an ideal resource for advanced students and researchers in climatology, atmospheric science, meteorology, and climate change.

Pressure Broadening of Spectral Lines
  • The Theory of Line Shape in Atmospheric Physics
  • Peter Joseph Rayer
  • Published online:
    26 June 2020
    Print publication:
    06 August 2020
  • Presenting the quantum mechanical theory of pressure broadening and its application in atmospheric science, this is a unique treatment of the topic and a useful resource for researchers and professionals alike. Rayer proceeds from molecular processes to broad scale atmospheric physics to bring together both sides of the problem of remote sensing. Explanations of the relationship between a series of increasingly general theoretical papers are provided and all key expressions are fully derived to provide a firm understanding of assumptions made as the subject evolved. This book will help the atmospheric physicist to cross into the quantum world and appreciate the more theoretical aspects of line shape and its importance to their own work.

Physical Oceanography and Climate
  • Kris Karnauskas
  • Published online:
    04 May 2020
    Print publication:
    02 April 2020
  • Climate research over recent decades has shown that the interaction between the ocean and atmosphere drives the global climate system. This engaging and accessible textbook focuses on climate dynamics from the perspective of the upper ocean, and specifically on the interaction between the atmosphere and ocean. It describes the fundamental physics and dynamics governing the behavior of the ocean, and how it interacts with the atmosphere, giving rise to natural climate variability and influencing climate change. Including end-of-chapter questions and turn-key access to online, research-quality data sets, the book allows readers the chance to apply their knowledge and work with real data. Comprehensive information is also provided on the data sets used to produce the numerous illustrations, allowing students to dive deeper into the data themselves. Providing an accessible treatment of physical oceanography, it is perfect for intermediate-advanced students wishing to gain an interdisciplinary introduction to climate science and oceanography.

Weather
  • A Concise Introduction
  • Gregory J. Hakim, Jérôme Patoux
  • Published online:
    17 August 2019
    Print publication:
    28 December 2017
  • From a world-renowned team at the Department of Atmospheric Sciences at the University of Washington, Seattle, Weather: A Concise Introduction is an accessible and beautifully illustrated text covering the foundations of meteorology in a concise, clear, and engaging manner. Designed to provide students with a strong foundation in the physical, dynamical, and chemical processes taking place in the atmosphere, this introductory textbook will appeal to students with a wide range of mathematical and scientific backgrounds. This textbook features: a single case study of a mid-latitude cyclone which is referred to throughout the whole book to illustrate the basic principles driving atmospheric dynamics and phenomena; boxes on more advanced topics; appendices for additional coverage; chapter summaries listing the 'take-home' points discussed; and colour figures and charts illustrating the fundamental concepts. Key terms are evident throughout, and a glossary explains the terms that students will need to understand and become familiar with.

Air Pollution
  • Concepts, Theory, and Applications
  • Christian Seigneur
  • Published online:
    19 June 2019
    Print publication:
    20 June 2019
  • This textbook covers the entire spectrum of topics required to completely understand air pollution. It emphasizes the atmospheric processes governing air pollution (emissions, atmospheric dispersion, chemical transformations, deposition on surfaces and ecosystems). Other areas of focus include air pollutant emission control technologies, health and environmental impacts, regulations and public policies, and interactions between climate change and air pollution. Topics are first presented conceptually, and then in terms of their fundamental aspects. Actual case studies are incorporated throughout to illustrate major air pollution phenomena, such as the dispersion of pollutants in the atmosphere, and the development of strategies to reduce urban air pollution, mitigate acid rain, and improve atmospheric visibility. Graduate students, researchers, and air quality professionals will find the full coverage of these important matters to be well suited to their needs.

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