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Drought: Past Problems and Future Scenarios [Kõva köide]

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(Princeton University, USA), (Princeton University, USA)
  • Formaat: Hardback, 248 pages, kõrgus x laius: 246x189 mm, kaal: 620 g
  • Ilmumisaeg: 30-Mar-2011
  • Kirjastus: Earthscan Ltd
  • ISBN-10: 1849710821
  • ISBN-13: 9781849710824
Teised raamatud teemal:
Drought: Past Problems and Future ScenariosSuurem pilt
  • Formaat: Hardback, 248 pages, kõrgus x laius: 246x189 mm, kaal: 620 g
  • Ilmumisaeg: 30-Mar-2011
  • Kirjastus: Earthscan Ltd
  • ISBN-10: 1849710821
  • ISBN-13: 9781849710824
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9781849710824.html
Märksõnad:
Drought is one of the likely consequences of climate change in many regions of the world. Together with an increased demand for water resources to supply the world's growing population, it represents a potentially disastrous threat to water supplies, agriculture and food production, leading to famine and environmental degradation. Yet predicting drought is fraught with difficulty.

The aim of this book is to provide a review of the historical occurrence of global drought, particularly during the twentieth century and assess the likely potential changes over the twenty-first century under climate change. This includes documentation of the occurrence and impacts of major twentieth century drought events and analysis of the contributing climatic and environmental factors that act to force, prolong and dissipate drought. Contemporary drought is placed in the context of climate variability since the last ice age, including the many severe and lengthy drought events that contributed to the demise of great civilizations, the disappearance of lakes and rivers, and the conversion of forests to deserts.

The authors discuss the developing field of drought monitoring and seasonal forecasting and describe how this is vital for identifying emerging droughts and for providing timely warning to help reduce the impacts. The book provides a broad overview of large scale drought, from historic events such as the US Dust Bowl and African Sahel, and places this in the context of climate variability and change. The work is soundly based on detailed research that has looked at drought occurrence over the twentieth century, global drought monitoring, modeling and seasonal prediction, and future projections from climate models.

Arvustused

'This long awaited, comprehensive book on global drought will serve as a standard textbook for all researchers of drought study around the world for many decades.'Professor Kuniyoshi Takeuchi, Director of UNESCO International Centre for Water Hazard and Risk Management (ICHARM), Tsukuba, Japan'This is an extraordinarily important book. It will be helpful for our current studies on drought forecasting, monitoring, and impact assessment, as well as improving our strategy and policy on mitigating the losses caused by drought.'Professor Jiang Tong, Chief Scientist, National Climate Centre, China Meteorological Administration'The authors have documented and summarised a huge amount of material regarding all aspects of droughts, and the result is well-targeted to their audience of students and practitioners of environmental science and management.'Professor Neville Nicholls, Monash University, and President, Australian Meteorological & Oceanographic Society'I recommend this book to anyone interested in understanding the science of droughts: past, present, and future. The authors' engaging style puts this complex topic into a perfect text for students with multi-disciplinary backgrounds.'Professor Michael J. Hayes, Director, National Drought Mitigation Center, University of Nebraska-Lincoln, USA'This book provides a great and easily readable overview of the phenomenon of -large scale- drought with a strong emphasis on the last two centuries. I recommend this book to anyone who is interested in drought.'Dr. ir. Peter J. van Oevelen, Director, International Global Energy and Water Cycle Experiment (GEWEX) Project Office

Figures, tables, boxes and plates
v
Preface xi
Acknowledgements xiii
Chapter 1 Introduction
1(8)
Drought Today
1(2)
Drought and Global Change
3(2)
The Motivation for this Book
5(1)
An Overview of the Book
6(3)
Chapter 2 What is Drought?
9(8)
The Hazard of Drought
9(2)
Defining Drought
11(6)
Chapter 3 The Science of Drought
17(26)
Introduction
17(1)
The Hydrological Cycle
17(1)
Spatial and Temporal Patterns of Hydrology
18(12)
What Causes Drought?
30(8)
Summary
38(5)
Chapter 4 Quantifying Drought
43(28)
Introduction
43(1)
Drought Data
44(1)
Monitoring Drought from Space
45(5)
Modelling Drought
50(4)
Palaeoclimate Data: Reconstructing Drought over Millennia
54(2)
Quantifying Drought: Characteristics and Indices
56(9)
Summary
65(6)
Chapter 5 Palaeo-drought: The Occurrence of Drought over Past Millennia
71(28)
Introduction
71(2)
Climate of the Holocene
73(4)
Drought in the Holocene
77(2)
The Last 2000 Years
79(2)
The Last 1000 Years
81(7)
Drought in Recent Centuries
88(3)
Global Mechanisms and Connections
91(1)
Summary
92(7)
Chapter 6 Drought in the 20th Century
99(24)
Introduction
99(1)
Climate of the 20th Century
100(2)
The Global Extent of 20th-Century Drought
102(4)
Characteristics of Global Drought
106(1)
Regional Drought over the 20th Century
107(5)
Global Variability in Soil Moisture and Links with Large-Scale Climate Variability
112(2)
Global Variability in Drought and Links with Large-Scale Climate Variability
114(5)
Summary
119(4)
Chapter 7 Major Drought Events of the 20th Century
123(42)
Introduction
123(1)
North America
123(6)
South America
129(5)
Europe
134(6)
Africa
140(3)
Asia
143(8)
Oceania
151(4)
The Most Severe Droughts of the 20th Century
155(10)
Chapter 8 Drought in the 21st Century
165(30)
Introduction
165(4)
Mechanisms of Changes in Drought
169(3)
Climate Models, Emission Scenarios and Future Projections
172(2)
Drought Estimation
174(3)
Projected Future Changes in Drought
177(8)
Potential Impacts of Future Drought
185(10)
Chapter 9 Summary and Recommendations
195(8)
Conclusions
202(1)
Index 203
Justin Sheffield is a research hydrologist at Princeton University, New Jersey, USA. He has a PhD in hydroclimatology from Wageningen University in the Netherlands. Dr. Sheffield has carried out research for the past 20 years in the UK and USA on a wide range of hydrologic problems, including the interaction of hydrology with climate variability and change, the characterization of hydrologic extremes, and the use of computer models and remote sensing data to understand the global water and energy cycles.

Eric F. Wood is Professor of Civil and Environmental Engineering at Princeton University, where he has taught since 1976. He received a ScD in Civil Engineering from the Massachusetts Institute of Technology. His research interests include hydroclimatology with an emphasis on land atmosphere interactions, terrestrial remote sensing, and seasonal hydrologic prediction. Dr. Wood is a fellow of the American Meteorological Society (AMS) and the American Geophysical Union, and a recent recipient of the European Geosciences Union's John Dalton Medal and the AMS's Jule Charney Award.