Book contents
- Frontmatter
- Contents
- Introduction to the First Edition
- Introduction to the Second Edition
- 1 Global Warming and Climate Change
- 2 The Greenhouse Effect
- 3 The Greenhouse Gases
- 4 Climates of the Past
- 5 Modelling the Climate
- 6 Climate Change Under Business-as-usual
- 7 The Impacts of Climate Change
- 8 Why Should We Be Concerned?
- 9 Weighing the Uncertainty
- 10 Strategy for Action to Slow and Stabilize Climate Change
- 11 Energy and Transport for the Future
- 12 The Global Village
- Glossary
- Index
9 - Weighing the Uncertainty
- Frontmatter
- Contents
- Introduction to the First Edition
- Introduction to the Second Edition
- 1 Global Warming and Climate Change
- 2 The Greenhouse Effect
- 3 The Greenhouse Gases
- 4 Climates of the Past
- 5 Modelling the Climate
- 6 Climate Change Under Business-as-usual
- 7 The Impacts of Climate Change
- 8 Why Should We Be Concerned?
- 9 Weighing the Uncertainty
- 10 Strategy for Action to Slow and Stabilize Climate Change
- 11 Energy and Transport for the Future
- 12 The Global Village
- Glossary
- Index
Summary
This book is intended to present clearly the current scientific position on global warming. A key part of this presentation must concern the uncertainty associated with all parts of the scientific description, especially with the prediction of future climate change, which forms an essential consideration when decisions regarding action are being taken. However, uncertainty is a relative term; utter certainty is not often demanded on everyday matters as a prerequisite for action. Here the issues are complex; we need to consider how uncertainty is weighed against the cost of possible action.
The scientific uncertainty
In earlier chapters I explained in some detail the science underlying the problem of global warming and the scientific methods which are employed for the prediction of climate change due to the increases in greenhouse gases. The basic physics of the greenhouse effect is well understood. If atmospheric carbon dioxide concentration doubles and nothing else changes apart from atmospheric temperature, then the average global temperature near the surface will increase by about 1.2 °C. That figure is not disputed among scientists.
However, the situation is complicated by feedbacks and regional variations. Numerical models run on computers are the best tools available for addressing these problems. Although highly complex and at a relatively early stage of development, climate models are already capable of giving useful information of a predictive kind.
- Type
- Chapter
- Information
- Global WarmingThe Complete Briefing, pp. 156 - 173Publisher: Cambridge University PressPrint publication year: 1997