Synopses & Reviews
Most of us have heard the dire predictions about global warming. Some experts insist that warming has already started, and they warn of such impending disasters as the sea level rising to flood coastal cities. Others, however, have issued loud counterclaims, assuring us that global warming is a myth based on misleading data. How can we tell who is right, and how we should respond? And why is there no scientific consensus on a matter of such vital importance? George Philander addresses these questions in this book, as he guides the nonscientific reader through new ideas about the remarkable and intricate factors that determine the world's climate.
In simple, nontechnical language, Philander describes how the interplay between familiar yet endlessly fascinating phenomena--winds and clouds, light and air, land and sea--maintains climates that permit a glorious diversity of fauna and flora to flourish on Earth. That interplay also creates such potent weather disrupters as El Niño and La Niña, translates modest fluctuations in sunlight into global climate changes as dramatic as the Ice Age, and determines the Earth's response to the gases we are discharging into the atmosphere, such as those that led to the ozone hole over Antarctica and those that are likely to cause global warming. In his discussion of these matters, Philander emphasizes that our planet is so complex that the scientific results will always have uncertainties. To continue to defer action on environmental problems, on the grounds that more accurate scientific results will soon be available, could lead to a crisis. To make wise decisions, it will help if the public is familiar with the geosciences, which explore the processes that make ours a habitable planet.
The book is an excellent introduction to the basics of the Earth's climate and weather, and will be an important contribution to the debate about climate change and the relationship between scientific knowledge and public affairs.
"S. George Philander ... writes with skill and cool reserve. Is the Temperature Rising?
... is a careful, step-by-step look at confusing data and clarifying science. He is literate, quoting Shelley, Coleridge, and Eliot. And he is reasonably sure we are digging our own grave, though he says so with such understatement that it is easy to overlook the doom and gloom."--William J. Broad, The New York Times Book Review
"[The author] guides us through this learning experience with grace, wit, and clarity.... Dr. Philander has tried to help us gain ... appreciation [for how significantly human activity is changing atmospheric chemistry] ... and he succeeds."--Robert C. Cowen, Christian Science Monitor
"The author explains complex scientific concepts in a precise language and with delightful illustrations.... The book is a pleasure to read."--Hans von Storch, Nature
"In Is the Temperature Rising?
, S. George Philander examines the question historically, meteorologically, chemically and every other way. At the end of the well-written survey, you will know every detail of the subject. . ."--New Scientist
Ought to be required reading for every eco-preacher.
"Philander writes in a fluid an engaging style and puts passion into his arguments for science literacy. The issues he touches on. . .will be of great interest both to those who are merely curious about nature and to those who are concerned about the policy issues."--Laurence A. Marschall, Gettysburg College
Includes bibliographical references (p. -258) and index.
About the Author
S. George Philander is Professor of Geosciences at Princeton University. He is the author of El Niandntilde;o, La Niandntilde;a, and the Southern Oscillation.
Table of Contents
|1||Between the Idea and the Reality||3|
|2||Is Our Planet Fragile or Robust?||11|
|3||Light and Air||31|
|4||Why the Peak of a Mountain Is Cold||55|
|6||The Climate Tapestry||89|
|7||Weather, the Music of Our Sphere||106|
|8||The Ocean in Motion||125|
|9||El Nino, La Nina, and the Southern Oscillation||143|
|10||The Paradox of the Faint Sun but Warm Earth||161|
|11||Why Summer Is Warmer than Winter: The Cycles of Seasons and of Ice Ages||170|
|12||The Ozone Hole, a Cautionary Tale||183|
|13||Global Warming, Risky Business||191|
|App. A1.1||Exponential Growth and Decay||209|
|App. A1.2||Establishing a Chronology||210|
|App. A3.2||The Scattering of Light||217|
|App. A3.3||Blackbody Radiation||218|
|App. A3.4||Effective Temperatures of the Planets||219|
|App. A3.5||The Greenhouse Effect||221|
|App. A4.1||The Scale Height of the Atmosphere||226|
|App. A4.2||The Adiabatic Lapse Rate||228|
|App. A5.1||Measuring Moisture in the Atmosphere||231|
|App. A5.2||Earth's Energy Budget||232|
|App. A5.3||How Many of Your Molecules Have Been to the Moon?||233|
|App. A6.1||Conservation of Angular Momentum||234|
|App. A6.2||The Coriolis Force||235|
|App. A6.3||Shape of Earth||237|
|App. A6.4||Gradient Winds||237|
|App. A7.1||Predicting the Weather||240|
|App. A8.1||The Seasonal Thermocline||242|
|App. A8.2||The Perpetual Salt Fountain||242|
|App. 9||El Nino, La Nina, and the Southern Oscillation||244|
|App. A10.2||Properties of the Planets||247|
|App. 11||Earth's Sensitivity to Perturbations||248|
|App. 12||The Ozone Layer||249|
|App. 13||Global Warming||250|