Lightning has evoked a numinous response as well as powerful timeless references and symbols among ancient religions throughout the world. Thunder and lightning have also taken on various symbolic manifestations, some representing primary deities, as in the case of Zeus and Jupiter in the Greco/Roman tradition, and Thor in Norse myth. Similarly, lightning veneration played an important role to the ancient civilizations of Mesoamerica and Andean South America. Lightning veneration and the religious cults and their associated rituals represent to varying degrees a worship of nature and the forces that shape the natural world. The inter-relatedness of the cultural and natural environment is related to what may be called a widespread cultural perception of the natural world as sacred, a kind of mythic landscape. Comparative analysis of the Andes and Mesoamerica has been a recurring theme recently in part because two of the areas of "high civilization" in the Americas have much in common despite substantial ecological differences, and in part because there is some evidence, of varying quality, that some people had migrated from one area to the other. Lightning in the Andes and Mesoamerica is the first ever study to explore the symbolic elements surrounding lightning in their associated Pre-Columbian religious ideologies. Moreover, it extends its examination to contemporary culture to reveal how cultural perceptions of the sacred, their symbolic representations and ritual practices, and architectural representations in the landscape were conjoined in the ancient past. Ethnographic accounts and ethnohistoric documents provide insights through first-hand accounts that broaden our understanding of levels of syncretism since the European contact. The interdisciplinary research presented herein also provides a basis for tracing back Pre-Columbian manifestations of lightning its associated religious beliefs and ritual practices, as well as its mythological, symbolic, iconographic, and architectural representations to earlier civilizations. This unique study will be of great interest to scholars of Pre-Columbian South and Mesoamerica, and will stimulate future comparative studies by archaeologists and anthropologists.

CONTINGENCY PLANNING FOR INCREASED FLOODS AND DROUGHTS RESULTING FROM CLIMATE CHANGE TO PROTECT HUMAN HEALTH Hydrometeorological Extreme Events and Public Health outlines the links between climate change, trends in hydrometeorological extreme events, and the effects on human health, and describes new developments in health adaptation and disaster risk management. The work provides technical facts, examples of international and national approaches and scientific projects, and covers key issues such as multi-sectoral collaboration, disaster preparedness, response and recovery, as well as stakeholder involvement, and costs. Readers will find: Specific observed and projected health effects of heavy precipitation events, floods, and droughts A comprehensive analysis of recent studies on the health costs of extreme weather events A discussion of the impact and interdependency of international health and climate agreements For professionals working in the areas of hydrology, disaster management and prevention, and in the public health sector, Hydrometeorological Extreme Events and Public Health serves as a comprehensive resource on new challenges resulting from climate change and on how we can plan for and adapt to this uncharted territory to protect human lives and human health. The book is the fifth volume of the Hydrometeorological Extreme Events Series.

Measurements and experiments are made each and every day, in fields as disparate as particle physics, chemistry, economics and medicine, but have you ever wondered why it is that a particular experiment has been designed to be the way it is. Indeed, how do you design an experiment to measure something whose value is unknown, and what should your considerations be on deciding whether an experiment has yielded the sought after, or indeed any useful result? These are old questions, and they are the reason behind this volume. We will explore the origins of the methods of data analysis that are today routinely applied to all measurements, but which were unknown before the mid-19th Century. Anyone who is interested in the relationship between the precision and accuracy of measurements will find this volume useful. Whether you are a physicist, a chemist, a social scientist, or a student studying one of these subjects, you will discover that the basis of measurement is the struggle to identify the needle of useful data hidden in the haystack of obscuring background noise.

This volume provides an overview of current developments in theoretical aspects of atmosphere-ocean interactions. These include the fundamental influence of the ocean surface on the atmospheric dynamics and also the impact of atmospheric phenomena on the upper ocean. Both large scale ocean-atmosphere dynamics, including low frequency variability, as well as shorter time-scales, such as the physics of the atmospheric and oceanic boundary layers and their interactions with surface waves and related air-sea processes important in marine storms are considered. The text also includes some recent research results.

Mobilities Facing Hydrometeorological Extreme Events 1: Defining the Relevant Scales of Analysis provides a summary of the interdisciplinary work done over the past ten years on the exposure of daily mobility. Residential mobility, the way in which the occupation of the flood zones evolves with time, and the resulting immobile exposure are also at the heart of this work. In the face of recrudescence and the intensification of fast floods, the book seeks to understand how the interaction of hydro-meteorological, social and development dynamics combine to bring about an improvement or, on the contrary, a worsening of both mobile and immobile exposure. The book relies on different fields and studies conducted in the South East of France and more broadly on the Mediterranean basin to answer these questions and verify these hypotheses, with a forward challenge to better understand how population movements are exposed to these phenomena.

This book presents the outcomes of the workshop sponsored by the National Natural Sciences Foundation of China and the UK Newton Fund, British Council Researcher Links. The Workshop was held in Harbin, China, from 14 to 17 July 2017, and brought together some thirty young (postdoctoral) researchers from China and the UK specializing in geosciences, sensor signal networks and their applications to natural disaster recovery. The Workshop presentations covered the state of the art in the area of disaster recovery and blended wireless sensor systems that act as early warning systems to mitigate the consequences of disasters and function as post-disaster recovery vehicles. This book promotes knowledge transfer and helps readers explore and identify research opportunities by highlighting research outcomes in the internationally relevant area of disaster recovery and mitigation.

This thesis encompasses a study of past precipitation patterns based on six cave stalagmites from different parts of the Indian Himalaya. This is the first speleothem study in the Indian Himalaya that shows a direct relationship between past precipitation and the collapse of civilization. The stalagmites examined were KL-3 from Jammu and Kashmir; TCS and BR-1 from Himachal Pradesh; and DH-1, SA-1 and CH-1 from Uttarakhand. Based on the high-resolution palaeoclimatic reconstruction (35 U/th dates, 5 AMS dates, 1,500 samples for 18O and 13C values) obtained for the duration of the Pleistocene-Holocene transition (16.2-9.5 ka BP) and Mid-Holocene-Present (ca. 4.0 ka BP-Present), three major events were identified, namely the Older Dryas (OD), Bolling-Allerod (BA) period and Younger Dryas (YD) at ca. 14.3-13.9, 13.9-12.7 and 12.7-12.2 ka BP, respectively. The study showed a gradual reduction in the precipitation from 4 ka BP onwards for about a millennium with a peak arid period between 3.2 and 3.1 ka BP. According to the findings, the LIA (Little Ice Age) covers a time span from 1622-1820 AD, during which the climate was wetter than that in the post-LIA period (1820-1950 AD). In addition, this thesis supports the assumption that the WDs (Western Disturbances) contribute significantly to the total rainfall in the Himalaya region.

The third book in this magical series from best-selling author and illustrator, Laura Ellen Anderson! Rainbow Grey may be only ten years old but the future of the whole world depends on her! It's up to Ray to defeat Tornadia Twist - the greatest villain that ever lived . . . Ray has to figure out what her ultimate magical gift is and use this power to stop Tornadia before she destroys the Weatherlands and Earth. With epic adventures, magic galore and everything at stake, the battle for the skies is ON!

Ein Blick auf die morphologischen, physikalischen und chemischen Eigenschaften von Aerosolen aus den unterschiedlichsten naturlichen und anthropogenen Quellen tragt zum besseren Verstandnis der Rolle bei, die Aerosolpartikel bei der Streuung und Absorption kurz- und langwelliger Strahlung spielen. Dieses Fachbuch bietet Informationen, die sonst schwer zu finden sind, und vermittelt ausfuhrlich die Kenntnisse, die erforderlich sind, um die mikrophysikalischen, chemischen und Strahlungsparameter zu charakterisieren, die bei der Wechselwirkung von Sonnen- und Erdstrahlen so uberaus wichtig sind. Besonderes Augenmerk liegt auf den indirekten Auswirkungen von Aerosolen auf das Klima im Rahmen des komplexen Systems aus Aerosolen, Wolken und der Atmosphare. Auch geht es vorrangig um die Wirkungen naturlicher und anthropogener Aerosole auf die Luftqualitat und die Umwelt, auf die menschliche Gesundheit und unser kulturelles Erbe. Mit einem durchgangig loesungsorientierten Ansatz werden nicht nur die Probleme und Gefahren dieser Aerosole behandelt, sondern auch praktikable Loesungswege aufgezeigt.

Monitoring drought’s slow evolution and identifying the end of a drought is still a big challenge for scientists, natural resource managers, and decision makers. This comprehensive two-volume set with contributions from over 200 experts, and featuring case studies representing numerous countries throughout the world, discusses different aspects of drought from types, indices, and forecasting to monitoring, modeling, and mitigation measures. It also addresses how climate change is impacting drought and decision-making concluding with lessons learned about science, policy, and managing uncertainty. Features: Provides a global perspective on drought prediction and management and a synthesis of the recent state of knowledge. Covers a wide range of topics from essential concepts and advanced techniques for forecasting and modeling drought to societal impacts, consequences, and planning Presents numerous case studies with different management approaches from different regions and countries. Addresses how climate change impacts drought, the increasing challenges associated with managing drought, decision making, and policy implications. Includes contributions from hundreds of experts around the world. Professionals, researchers, academics, and postgraduate students with knowledge in Environmental Sciences, Ecology, Agriculture, Forestry, Hydrology, Water Resources Engineering, and Earth Sciences, as well as those interested in how climate change impacts drought management, will gain new insights from the experts featured in this two-volume handbook.

Adapting to Climate Change in Europe: Exploring Sustainable Pathways - From Local Measures to Wider Policies is a scientific synthesis of a four-year project on adaptation activities in Europe. It combines scientific assessments with real-world case descriptions to present specific tools and methods. This book aims at ensuring sustainable solutions in adaptation to climate change. The challenge of adaptation is still at an early stage; this book fills relevant gaps in current knowledge on climate adaptation, providing a crucial set of tools to support effective decision-making. It acts as a guide to practitioners and decision-makers along different steps of on-going adaptation processes. Adapting to Climate Change in Europe contains methods and tools for improving stakeholder's participation and analyzing costs and benefits of different adaptation measures. It is an essential resource for researchers, graduate students, and experts and policymakers working in climate change and adaptation.

This book is a survey of the research work done by the author over the last 15 years, in collaboration with various eminent mathematicians and climate scientists on the subject of tropical convection and convectively coupled waves. In the areas of climate modelling and climate change science, tropical dynamics and tropical rainfall are among the biggest uncertainties of future projections. This not only puts at risk billions of human beings who populate the tropical continents but it is also of central importance for climate predictions on the global scale. This book aims to introduce the non-expert readers in mathematics and theoretical physics to this fascinating topic in order to attract interest into this difficult and exciting research area. The general thyme revolves around the use of new deterministic and stochastic multi-cloud models for tropical convection and convectively coupled waves. It draws modelling ideas from various areas of mathematics and physics and used in conjunction with state-of-the-art satellite and in-situ observations and detailed numerical simulations. After a review of preliminary material on tropical dynamics and moist thermodynamics, including recent discoveries based on satellite observations as well as Markov chains, the book immerses the reader into the area of models for convection and tropical waves. It begins with basic concepts of linear stability analysis and ends with the use of these models to improve the state-of-the-art global climate models. The book also contains a fair amount of exercises that makes it suitable as a textbook complement on the subject.

This book discusses in detail the science and morphology of powerful hurricane detection systems. It broadly addresses new approaches to monitoring hazards using freely available images from the European Space Agency's (ESA's) Sentinel-1 SAR satellite and benchmarks a new interdisciplinary field at the interface between oceanography, meteorology and remote sensing. Following the launch of the first European Space Agency (ESA) operational synthetic aperture radar satellite, Sentinel-1, in 2014, synthetic aperture radar (SAR) data has been freely available on the Internet hub in real-time. This advance allows weather forecasters to view hurricanes in fine detail for the first time. As a result, the number of synthetic aperture radar research scientists working in this field is set to grow exponentially in the next decade; the book is a valuable resource for this large and budding audience.