Extreme Events and Climate Change

A Multidisciplinary Approach
Standards Information Network (Verlag)
  • 1. Auflage
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  • erschienen am 26. April 2021
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  • 240 Seiten
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978-1-119-41364-6 (ISBN)
An authoritative volume focusing on multidisciplinary methods to estimate the impacts of climate-related extreme events to society

As the intensity and frequency of extreme events related to climate change continue to increase, there is an urgent need for clear and cohesive analysis that integrates both climatological and socioeconomic impacts. Extreme Events and Climate Change provides a timely, multidisciplinary examination of the impacts of extreme weather under a warming climate. Offering wide-ranging coverage of the methods and analysis that relate changes in extreme events to their societal impacts, this volume helps readers understand and overcome the methodological challenges associated with extreme event analysis.

Contributions from leading experts from across disciplines describe the theoretical requirements for analyzing the complex interactions between meteorological phenomena and the resulting outcomes, discuss new approaches for analyzing the impacts of extreme events on society, and illustrate how empirical and theoretical concepts merge to form a unified plan that enables informed decision making. Throughout the text, innovative frameworks allow readers to find solutions to the modeling and statistical challenges encountered when analyzing extreme events. Designed for researchers and policy makers alike, this important resource:
* Discusses topics central to understanding how extreme weather changes as the climate warms
* Provides coverage of analysis methods that relate changes in extreme events to their societal impacts
* Reviews significant theoretical and modeling advances in the physical aspects of climate science
* Presents a comprehensive view of state of the science, including new ways of using data from different sources

Extreme Events and Climate Change: A Multidisciplinary Approach is an indispensable volume for students, researchers, scientists, and practitioners in fields such as hazard and risk analysis, climate change, atmospheric and ocean sciences, hydrology, geography, agricultural science, and environmental and space science.
weitere Ausgaben werden ermittelt
Dr. Federico Castillo, Specialist Researcher, Department of Environmental Science, Policy and Management, University of California-Berkeley, Berkeley, CA, USA.

Dr. Michael Wehner, Senior Scientist, Computational Research Division, Lawrence Berkeley National Laboratory, Berkeley, CA, USA.

Dr. Dáithí A. Stone, Climate Scientist, Global Climate Adaptation Partnership, Oxford, UK.


1. Synthesizing Observed Impacts of Extreme Weather Events across Systems
Dáithí A. Stone

2. The Impact of Heat Waves on Agricultural Labor Productivity and Output
Federico Castillo, Armando Sánchez Vargas, J. K. Gilless, and Michael Wehner

3. Weather Extremes That Affect Various Agricultural Commodities
Richard Grotjahn

4. Economics of the Impact of Climate Change on Agriculture
Xuemei Lu, Jesse Buchsbaum, and David Zilberman

5. Agricultural Losses in a Telecoupled World: Modeling the Impacts of Regional Crop Failures on Global Land Use
John P. Casellas Connors, Anthony Janetos, and Yasmin Romitti

6. Perceptions of Extreme Weather Events and Adaptation Decisions: A Case Study of Maize and Bean Farmers in Guatemala and Honduras

Milagro Saborío-Rodríguez, Francisco Alpízar, Leyla Aguilar-Solano, M. Ruth Martínez-Rodríguez, Raffaele Vignola, Bárbara Viguera, and Celia A. Harvey

7. Simulation Model Based on Agents for Land Use Change and Cost-Benefit Analysis of Land Management Policies
Armando Sánchez Vargas, D. Martínez Ventura, C. Gay García, A. L. Herrera Merino, and Bernardo Olvera

8. Climate Extremes, Political Participation, and Migration Intentions of Farmers: A Case Study in Western China
Yan Tan and Xuchun Liu

9. Effects of Extreme Weather Events on Internal Migration in Rural Guatemala
Deicy Lozano Sivisaca, Juan Robalino, Adriana Chacón Cascante, Pablo Imbach, and Catalina Sandoval

10. Extreme Heat Exposure and Occupational Health in a Changing Climate
Jennifer Vanos, Sally Moyce, Bruno Lemke, and Tord Kjellstrom

11. Tropical Cyclone Impacts
Jennifer M. Collins and Charles Paxton

12. On the Relationship Between Heat Waves and Extreme Precipitation in a Warming Climate
Ajay Raghavendra and Shawn M. Milrad

13. Evaluating Economic Output at Risk to Climate Change: A Sectoral Comparison of the Economic Sensitivity to Weather
Colin Shaw, Samuel G. Evans, and Joshua Turner



Climate change has continued unabated since the second assessment report of the Intergovernmental Panel on Climate Change concluded in 1995 that "the balance of evidence suggests a discernible human influence on global climate" (Houghton et al., 1996, p. 4). Since then, confidence in the attribution of the human cause of global warming has increased to the point that by 2018 the Fourth United States National Climate Assessment report found that there is "no convincing evidence that natural variability can account for the amount of global warming observed over the industrial era" and that at best estimate, human changes to the composition of the atmosphere, mainly through the consumption of fossil fuels, accounted for all of that warming (Wuebbles et al., 2017). Because significant climate change is certain to continue into the future, attention to its impacts has become critically important (Field et al., 2014; Jay et al., 2018). As noted in the Fifth Assessment Report of the Intergovernmental Panel on Climate Change:

Global, regional, and local socioeconomic, environmental, and governance trends indicate that vulnerability and exposure of communities or social-ecological systems to climate hazards related to extreme events are dynamic and thus vary across temporal and spatial scales (high confidence). Effective risk reduction and adaptation strategies consider these dynamics and the inter-linkages between socioeconomic development pathways and the vulnerability and exposure of people.

(Oppenheimer et al., 2014)

Effective risk reduction therefore depends on multidisciplinary research that explores how past, current, and future extreme weather occurrence interacts with risk perceptions, adaptation efforts, and resilience mechanisms. For example, heat wave analysis has emphasized the impacts on health and on health care systems (Guirguis et al., 2014; Ostro et al., 2009; Stoecklin-Marois et al., 2013) whereas the impact of floods, hurricanes, and drought on migration patterns has been mostly undertaken from a social science perspective (Hugo, 2011; Landry et al., 2007; Piguet et al., 2011). The need to approach the impacts of extreme events from a multidisciplinary approach provided the editors with the spark to organize the 2016 AGU Fall Meeting session, "Multidisciplinary Methods to Estimate the Impact of Climate-Related Extreme Events," which is the genesis of this book.

This book presents a selection of contributions concerning the impacts of climate change. The authors are international experts in their fields, and their work represents the state of the art in attribution and socioeconomic impact analysis of extreme events. The work presented in this book is indicative of the multidisciplinary approaches that are needed to have a full assessment of the impact of extreme weather on society.

Chapter 1 by Stone begins our discussion by outlining a detection and attribution approach to the general question of synthesizing the impacts of extreme weather in a changing climate. Using Arctic coast erosion as an example, Stone demonstrates the causal chain that must be developed to attribute individual impacts on anthropogenic climate change. The book then focuses on specific agricultural impacts for five chapters. In Chapter 2 Castillo et al. analyze the impact of heat waves on outdoor labor, particularly on agricultural labor in California. Using a Cobb-Douglas production function approach and drawing from the medical literature, they use crop-specific labor requirements together with climate and socioeconomic variables to determine the impact of heat on labor productivity and its resulting impact on crop productivity. They find that the impact of heat is crop specific, with particularly large impacts on crops that are labor intensive.

In Chapter 3 Grotjahn then takes a more targeted approach asking "What weather extremes affect various agricultural commodities?" He discusses the series of extreme weather events that can set in motion a series of changes affecting agricultural productivity. In Chapter 4 Lu et al. develop a theoretical framework that assesses the impact of extreme events on agricultural production systems. Using a stylized dynamic model, they suggest that an increase in temperatures will result in a geographical shift of agricultural production toward the poles and that there will be a transition from cold-weather crops to hot-weather crops. Despite this, due to the production costs in the new locations, there is a risk of supply shocks in the future. In Chapter 5 Casellas Connors and Janetos explore the teleconnection between regional crop failures finding that mitigation policies, including carbon taxes, will alter the geographic distribution of these impacts. In Chapter 6 Saborío-Rodríguez et al. model adoption of adaptation practices among small bean and corn producers in Honduras and Guatemala in the presence of weather extremes. They find that the implementation of adaptation strategies is positively correlated with perceptions of repeated exposure and frequency of extreme event occurrence as well as human capital capacity building and land tenure regime, among others.

The book then turns to the climate change impacts on the more complicated behavioral changes of land use and migration. In Chapter 7 Sanchez Vargas et al. analyze individuals' behavior and the impact of extreme heat when considering socioeconomic and weather variables. Using a Cobb-Douglas utility function framework they find that individuals' socioeconomic characteristics interact well in explaining the impact of extremes on individuals' welfare. In Chapter 8 Tan and Liu use the latest migration theory to analyze the relationship between extreme event occurrence and migration patterns in China and extend it to include the concept of adaptative capacity. They further analyze how an individual's political participation affects his or her migration decision when considered in the context of extreme event occurrence. Their findings suggest that in order for individuals to adapt to weather variability, local governments should provide financial incentives and social assistance programs. Furthermore, Tan and Liu suggest that citizens' participation is key to increasing adaptive capacity in the presence of weather variability. In Chapter 9 Lozano et al. estimate the impact of extreme weather events on internal migration in Guatemala for the 1997-2002 period. They find that drought occurrence in the municipality of origin significantly reduces migration, whereas extreme precipitation increases migration.

In Chapter 10 Vanos et al. then demonstrate that heat exposure is both a physical and mental health risk in many occupations. They further describe the physiological effects of extreme heat and provide metrics for quantifying these effects. In Chapter 11 Collins and Paxton focus on tropical cyclones, the largest and most intense storms on the planet. They begin with outlining the wind and rainfall processes that present danger to coastal and even inland communities, and they conclude with practices that can be undertaken before the storm to mitigate losses as well as techniques after the storm to measure losses. In Chapter 12 Raghavendra and Milrad find a relationship between heat waves in Florida and extreme precipitation events a few days later. The compound nature of such sequential extreme events exacerbates the impacts that would be experienced by just one or the other.

Finally, in Chapter 13 Shaw et al. analyze the impact of weather-related variables on economic activity for 12 sectors of the US economy, including retail, forestry, agriculture, manufacturing, construction, and finance. They use a nonlinear framework to show that increases in temperature improve economic outcomes up to a threshold temperature where economic activity is then negatively affected. Results are particularly strong for construction, forestry, and mining.

This book focuses on the impacts of changes in extreme weather in a warming climate because this is the principal way that climate change directly affects human systems. Climate change impacts on agriculture are particularly apparent, and many of these chapters reflect this. The book is intended to survey topics and methods and is by no means a complete list of the impacts of extreme weather. Readers will find that some of these methods can be transferred from the applications in this book to other climate change impact topics in their own interest.

This book is dedicated to the memory of Professor Anthony Janetos. Tony was an enthusiastic supporter of this book and recognized the urgent need to bring physical and social climate scientists together.

Federico Castillo
Michael Wehner
Dáithí A. Stone


  1. Field, C. B., D.J. Barros, V. R., D.J. Dokken, D. J., K.J. Mach, K. J., M.D. Mastrandrea, M. D., T.E. Bilir, T. E., Chatterjee, M., K.L. Ebi, K. L., Y.O. Estrada, Y. O., R.C. Genova, R. C., Girma, B., Kissel, E. S., Levy, A. N., MacCracken, S., Mastrandrea, P. R., & White, L. L. (Eds.) (2014). Climate change 2014: Impacts, adaptation, and vulnerability. Part A: Global and sectoral aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press.
  2. Guirguis, K., Gershunov, A., Tardy, A., & Basu, R. (2014). The impact of recent heat waves on human health in California. Journal of Applied Meteorology...

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