You have Guest access.
Log In
Christos Zerefos, Georgios Contopoulos and Gregory Skalkeas
i-xii
Front matter
3-19
I / Opening Ceremony
3-4
Welcome Address
5-8
Statement from the Executive Secretary for the Vienna Convention and the Montreal Protocol
9-11
Opening Address
13-19
Science Inspiring Diplomacy: The Improbable Montreal Protocol
23-70
II / Keynote Speeches
23-66
Stratospheric Ozone Depletion
67-70
Atmospheric N2O Releases from Biofuel Production Systems: A Major Factor Against “CO2 Emission Savings”: A Global View
73-131
III / The Long History of Ozone Measurements and the Early Search for Signs of a Trend
73-110
The History of Total Ozone Measurements; the Early Search for Signs of a Trend and an Update
111-117
The Long History of Ozone: Analyses of Recent Measurements
119-131
The Long History of Ozone Measurements: Climatological Information Derived from Long Ozone Records
135-259
IV / Ozone Measurements
135-156
International Multi-Instruments Ground-Based Networks: Recent Developments Within the Network for the Detection of Atmospheric Composition Changes
157-172
International Balloon Measurements for Ozone Research
173-182
The Role of Airborne Science in the Study of Polar Ozone
183-189
Role of Satellite Measurements in the Discovery of Stratospheric Ozone Depletion
191-200
Estimating When the Antarctic Ozone Hole will Recover
201-212
The European Arctic Ozone Campaigns
213-236
Operational Monitoring of the Antarctic Ozone Hole: Transition from GOME and SCIAMACHY to GOME-2
237-249
An Overview of Strategic Ozone Sounding Networks: Insights into Ozone Budgets, UT/LS Processes and Tropical Climate Signatures
251-259
Global Observations—The Key to Model Development and Improved Assessments
263-356
V / Ozone and Climate-Dynamics
263-272
The Rise and Fall of Dynamical Theories of the Ozone Hole
273-277
Investigations of Climate–Ozone Connections with Coupled Climate–Chemistry Models (CCMs): Another Step Forward
279-290
Stratospheric Ozone Depletion and Tropospheric Chemistry
291-295
Tropospheric Ozone Climate–Chemistry Interaction: Aspects of Climate Changes
297-326
Metrics for Ozone and Climate: Three-Dimensional Modeling Studies of Ozone Depletion Potentials and Indirect Global Warming Potentials
327-347
Stratosphere—Troposphere Interactions in a Chemistry-Climate Model
349-356
Winter Ozone Transport Variations and the Montreal Protocol Impact as Revealed by the Total Ozone Ground-Based Measurements over the Russian Territory in 1973–2005
359-384
VI / Solar Ultraviolet Measurements and Effects
359-368
Solar UV: Measurements and Trends
369-380
Ozone and Ultraviolet Radiation: Informing the Public
381-384
A Contemporary Strategy for Sun Exposure
387-403
VII / Initiatives – Recent Reports
387-391
Findings from the 2006 Ozone Scientific Assessment for the Montreal Protocol
393-403
SPARC Science Supporting the Montreal Protocol
407-458
VIII / Industry and the Importance of Science to Business
407-428
How Science Guides Industry Choice of Alternatives to Ozone-Depleting Substances
429-437
The Importance of Chemical Substitutes to Chlorofluorocarbons (CFCs)
439-440
Perspectives on the Roles of Science, Scientific Assessments, the Science/Policy Interface and Industry
441-458
The Role of Financial Assistance by the Multilateral Fund in Technology Change to Protect the Ozone Layer
461-464
IX / Conclusion
Athens Statement
465-470
Back matter
This page requires script.
Frequently asked questions General info on journals and books Send us your feedback Impressum Contact us
© Springer, Part of Springer Science+Business Media Privacy, Disclaimer, Terms & Conditions, and Copyright Info