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Introduction to Weather and Climate Science is a freshman-level undergraduate introductory textbook. It is geared specifically to the non-scientist, and requires no prior knowledge of meteorology. Written in a conversational tone, the book is ideal for first courses in the subject. It emphasizes the application of basic ideas to improve understanding of the kinds of weather systems encountered on a daily basis. Introduction to Weather and Climate Science covers the following topics: - The Chemical Composition of the Atmosphere - Radiative Transfer of Energy - Moisture in the Atmosphere - The Production of Clouds and Precipitation - The Nature of Mid-latitude - Tropical Weather Systems This book gives instructors all the elements needed for an excellent course requiring minimal background preparation. It can be used effectively by any scientifically-literate non-meteorologist. Jonathan E. Martin is a Professor in the Department of Atmospheric and Oceanic Sciences at the University of Wisconsin, Madison, where he has taught since 1994. He has received numerous accolades for his teaching, including the Underkofler Excellence in Teaching Award. Professor Martin is a Fellow in the Teaching Academy of the University of Wisconsin. He also has the distinction of being named a Mark H. Ingraham Distinguished Faculty and a Hamel Faculty Fellow by the university's College of Arts and Letters. In addition to teaching, Professor Martin has research expertise in the study of mid-latitude weather systems.
METEOROLOGY TODAY,9e, International Edition, is one of the most widely used and authoritative texts for the introductory meteorology course. This ninth edition helps you understand and appreciate the dynamic nature of the inevitable weather phenomena that continually influence our lives. The text’s clear and inviting narrative is supplemented by numerous pedagogical features that encourage observing, calculating, and synthesizing information.
Weather can be enjoyable, be merely tolerated or even change a good day to a bad one. On some occasions, it can become extreme and dramatically impact your life. Written in a friendly, easy-to-understand style, Ahrens/Samson/Reed's EXTREME WEATHER AND CLIMATE, 2nd Edition clearly explains the science of how hurricanes, tornadoes, lightning, floods and extreme temperatures can occur, how they can sometimes be life-changing and how they may be impacted by global climate change. Vividly illustrated, this text will give you a new appreciation for the power of nature.
As climate has warmed over recent years, a new pattern of more frequent and more intense weather events has unfolded across the globe. Climate models simulate such changes in extreme events, and some of the reasons for the changes are well understood. Warming increases the likelihood of extremely hot days and nights, favors increased atmospheric moisture that may result in more frequent heavy rainfall and snowfall, and leads to evaporation that can exacerbate droughts. Even with evidence of these broad trends, scientists cautioned in the past that individual weather events couldn't be attributed to climate change. Now, with advances in understanding the climate science behind extreme events and the science of extreme event attribution, such blanket statements may not be accurate. The relatively young science of extreme event attribution seeks to tease out the influence of human-cause climate change from other factors, such as natural sources of variability like El Niño, as contributors to individual extreme events. Event attribution can answer questions about how much climate change influenced the probability or intensity of a specific type of weather event. As event attribution capabilities improve, they could help inform choices about assessing and managing risk, and in guiding climate adaptation strategies. This report examines the current state of science of extreme weather attribution, and identifies ways to move the science forward to improve attribution capabilities.
Our Amazing Atmosphere: An Introduction to Weather and Climate provides students with a comprehensive exploration of the earth's atmosphere. The text places special emphasis on relationships between fundamental variables, such as temperature, pressure, winds, and moisture, and how these variables underlie atmospheric phenomena. This approach allows students to acquire a unified and holistic understanding of the atmosphere. The text begins with chapters covering the basic anatomy of the atmosphere and various influences that govern its behavior. Subsequent chapters explore cloud types and precipitation, along with different types of weather systems, such as thunderstorms, mid-latitude low cyclones, and hurricanes. The book includes a detailed description on how weather forecasts are made and a thorough presentation of weather and climate anomalies, as exemplified by El Nino. Students learn how anomalies like El Nino influence long-term weather worldwide, providing them with a glimpse of the interdependence of the atmosphere and other components of the Earth system. The final chapter addresses the all-important issue of climate change, with emphasis on its scientific basis, using concepts introduced in previous chapters. In providing students with foundational knowledge on weather, climate, and atmosphere, Our Amazing Atmosphere is suitable for introductory courses in geology, geosciences, physics, climatology, or any course that studies climate change. Eugene Robl has a Ph.D. in meteorology from the University of Utah, M.S. in physics from Missouri University of Science and Technology, and B.A. in physics from Loyola-Marymount University. He is an instructor in the Department of Atmospheric Sciences at the University of Utah as well as an adjunct professor at Westminster College of Salt Lake City, where he has taught courses in meteorology, astronomy, chemistry, and physics.
As global temperatures rise under the forcing hand of humanity’s greenhouse gas emissions, new questions are being asked of how societies make sense of their weather, of the cultural values, which are afforded to climate, and of how environmental futures are imagined, feared, predicted, and remade. Weather, Climate, and Geographical Imagination contributes to this conversation by bringing together a range of voices from history of science, historical geography, and environmental history, each speaking to a set of questions about the role of space and place in the production, circulation, reception, and application of knowledges about weather and climate. The volume develops the concept of “geographical imagination” to address the intersecting forces of scientific knowledge, cultural politics, bodily experience, and spatial imaginaries, which shape the history of knowledges about climate.
A timely and accessible analysis of one of the most crucial and contentious issues facing the world today – the processes and consequences of natural and human induced changes in the structure and function of the climate system. Integrating the latest scientific developments throughout, the text centres on climate change control, addressing how weather and climate impact on environment and society.
In this Very Short Introduction, Mark Maslin looks at all aspects of climate, from the physical and chemical factors that drive it and how climate differs from weather, to how climate has affected human settlements and the cyclic features of it. He ends with a look at climate change and our current approaches to solving it.
While it is widely acknowledged that climate change is among the greatest global challenges of our times, it has local implications too. This volume forefronts these local issues, giving anthropology a voice in this great debate, which is otherwise dominated by natural scientists and policy makers. It shows what an ethnographic focus can offer in furthering our understanding of the lived realities of climate debates. Contributors from communities around the world discuss local knowledge of, and responses to, environmental changes that need to feature in scientifically framed policies regarding mitigation and adaptation measures if they are to be effective.