Download presentation
Presentation is loading. Please wait.
Published byWillow Huske Modified over 10 years ago
1
Ozone Depletion Stratospheric ozone and its importance J(Hans) van Leeuwen – The hole story
2
Solar Spectrum
3
The Ultraviolet Spectrum UV light: 100 to 400 nm UV spectrum – 4 regions o Far UV: 100 – 200 nm o UV – C : 200 – 280 nm o UV – B : 280 – 315 nm o UV – A : 315 – 400 nm RadioIR Visible Light UVX-Rays UV-AUV-BUV-C Far UV 400nm100nm DNA damaging range 200nm300nm
4
DNA Damaging Range of UV Light
5
Ultraviolet Radiation 230-280 nm damages nucleic acids Stops reproduction of cells by breaking apart the DNA bonds Ozone production peaks at 185nm Ozone absorbance and destruction at 200-320nm Ozone destruction Ozone formation
6
UV ozone generation and destruction: equilibrium O 2 + h 185 2O. O. + O 2 + M O 3 + M O 3 + h 254 O 2 + O. Equilibrium between production and destruction
7
Atmospheric Layers
8
Ozone Formation and Depletion
10
The catalyzed cycle of stratospheric ozone production and destruction 1.h + O 2 2O. 2.O. + O 2 O 3 3.O 3 + X O 2 + OX 4. OX + O. O 2 + X X could be Cl from a CFC
12
ozone: Halogen catalysis of ozone destruction
13
Halogen removal from atmosphere Cl + CH 4 HCl + CH 3. ClO + NO 2 ClONO 2 Both HCl and ClONO 2 inactive: rain out Br + O 3 BrO + O 2 Br + CH 4 HBr + CH 3. HBr can photolytically provide Br again Halons and CH 3 Br provide Br
14
List of ozone depleting substances Table 8.13 Masters http://www.epa.gov/ozone/ods.html Ozone Depleting Substances Halons
15
Antarctic Ozone Problems
16
Strong circulatory winds around Antarctica isolate the air in the lower and middle stratosphere Ice crystals form in vortex Antarctic Vortex during Winter
17
Antarctic Reactions Winter reactions Polar vortex: -90 o C Ice clouds ClONO 2 + H 2 O HOCl + HNO 3 HOCl + HCl Cl 2 + H 2 O Spring reactions Cl 2 + h 2 Cl in early spring Cl + O 3 ClO + O 3 destructive loop HNO 3 + Cl ClONO 2 in photocatalysis
18
Ozone in Stratosphere: Dobson Units (DU) If 100 DU of ozone were brought to the Earth's surface, it would form a layer 1 millimeter thick. In the tropics, ozone levels are typically between 250 and 300 DU year-round. In temperate regions, seasonal variations can produce large swings in ozone levels. For instance, measurements in Leningrad have recorded ozone levels as high as 475 DU and as low as 300 DU.
19
Record ozone hole, 2006
21
Ozone hole altitude profile
22
Ozone hole severity
23
Ozone hole extent
24
Global total ozone change
27
http://jwocky.gsfc.nasa.gov/
31
The Nobel Prize in Chemistry 1995 "for their work in atmospheric chemistry, particularly concerning the formation and decomposition of ozone" The Netherlands USA USA Max-Planck-Institute MIT, USA Department of Chemistry, for Chemistry Mainz, Germany Cambridge, MA University of California Irvine, CA, USA 1933 - 1943 - 1927 - Paul J. Crutzen Mario J. Molina F. Sherwood Rowland
39
Ozone Hole Growth: 29y October 27, 1980 September 21, 2006September 17, 2009 http://www.youtube.com/watch?v=brblHxZctsA
40
Ozone Hole 2009
44
Ozone hole size in recent years
45
http://www.cmdl.noaa.gov/ozwv/ozsondes/spo/ozone_anim2004.html
Similar presentations
© 2025 SlidePlayer.com. Inc.
All rights reserved.