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1974 Sherwood Rowland & Mario Molina Calculated that CFCs were lowering the average concentration of Ozone in the stratosphere. Chemical Time Bomb: Spray.

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Presentation on theme: "1974 Sherwood Rowland & Mario Molina Calculated that CFCs were lowering the average concentration of Ozone in the stratosphere. Chemical Time Bomb: Spray."— Presentation transcript:

1 1974 Sherwood Rowland & Mario Molina Calculated that CFCs were lowering the average concentration of Ozone in the stratosphere. Chemical Time Bomb: Spray cans Leaky refrigeration and air conditioning equipment Production and burning of foam plastics trichlorofluoromethane dichlorofluoromethane Take 10 - 20 years to reach the stratosphere Turbulent atmospheric mixing Transport on aerosols 1

2 O3O3O3O3 As a secondary air pollutant in the troposphere, ozone forms as part of photochemical smog. In the lower stratosphere, the formation and breakdown of ozone absorbs UV radiation. This is vital to all life on Earth. Ozone: Is an unstable reactive oxidizer Is a health threat to elderly and young Contributes to forest decline. Reduces crop yield Oxidizes stable organics (plastic, rubber) Is a highly efficient greenhouse gas Ozone damage to potato plants. 2

3 Earth’s atmosphere is layered with each layer having its own characteristic composition, density and temperature ranges. This presentation will focus on the Ozone concentrated in the lower stratosphere at 18000 to 20000 meters. Thermosphere Mesosphere Stratosphere Troposphere Mesopause Stratopause Tropopause 3

4 Ozone data source : http://www.awi.de/en/infrastructure/stations /neumayer_station/observatories/ meteorological_observatory/upper_air_soundings/ozone_soundings/ From this page, use their search function. Type in Ozone Soundings The Alfred Wegener Institute conducts many types of atmospheric and oceanographic research. Ozone monitoring is only one. You will also find links to Arctic research as well 4

5 2004 Antarctic ozone profile. stratosphere 15678392105 120 149170213 235 243 252 262 270 287 296 306 313 321 330 344 353 1 140 120 140 120 100 80 60 40 20 40 80 60 80 100 120 140 145 5

6 Day O 3 1 145 15 140 67 140 83 140 120 92 140 149 140 170 140 213 120 235 100 243 80 252 60 262 40 270 20 287 20 296 40 306 80 313 60 321 80 330 100 344 120 353 140 2004 Ozone profile data 6

7 7 2012

8 8 6 Sept 16 Oct

9 2012 2004 9

10 10

11 220360 16 Oct 6 Sept 11

12 6 Sept16 Oct 12

13 6 Sept16 Oct Austral winter Ozone depletion. 18000m profile 13

14 14

15 2006 Arctic Ozone data 21 March 6 Sept16 Oct 15

16 16 Lower depletion : Warmer temperatures Weaker polar vortex

17 O 2 + uv ------------> 2 O 2O + 2 O 2 ---------> 2O 3 2O3 + uv ------> 3O 2 Both processes absorb ultraviolet radiation (UVB) 17 Once Earth’s atmosphere began to be enriched with oxygen, beginning about 2.2 billion years ago during the Early Proterozoic, the stage was set for the eventual emergence of life on to the land.

18 18 Factors contributing to Ozone Depletion Halogenated hydrocarbons Chlorofluorocarbons---- CFC’s Methyl Bromide ---- Soil fumigants Fire fighting compound Biomass burning Volcanic eruptions Volatile cleaning compounds Carbon tetra chloride Trichloroethane

19 How these heavy molecules get to the stratosphere. Antarctica Antarctic winter:Extremely cold air isolated over Antarctica Polar Stratospheric Clouds transport HH on ice crystals Warmer air circulating with the West Wind Drift. Antarctic Polar Vortex S. America Through the mixing which occurs between global convection cells, these compounds are transported to high latitudes. 19

20 What happens. Chlorofluorocarbons and methyl bromide CCl 2 F 2 CH 3 Br With the onset of the Austral spring and the return of sunlight to the Antarctic region, simplified reactions result in the breakdown of ozone in the lower stratosphere over Antarctica. CCl 2 F 2 + uv ---------> CClF 2 + Cl Cl + O3 ---------> ClO + O 2 The halogen acts as a catalyst in the destruction of Ozone without the benefit of UV absorption. The residence time for these halogens can be 50 - 100 years. Cl and Br are the primary destructive halogens 20 http://www.atm.ch.cam.ac.uk/tour/part3.html This is a simplified illustration. The link below has the complex chemistry

21 http://ozonewatch.gsfc.nasa.gov NASA provides global ozone images. 21

22 22 Units used in Ozone measurement. Nanobars ( nb ) =.000001 millibars Millipascals ( mPa ) =.00001 millibars 1.0 mPa = 10 Nb 14 mPa = 140 nb Conversion necessary to compare Arctic and Antarctic ozone pressure Dobson unit DUUsed on ozone mapping images from NASA A Dobson unit (DU) would produce a layer of gas.01mm thick at STP. ie. 300DU = a layer 3.0mm thick 1 DU is equivalent to about.8 nb

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