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The Ozone Story Presentation
Ozone SecretariatOzone Secretariat
UNEPUNEP((updated July 2003)updated July 2003)
STRATOSPHERESTRATOSPHERE
TROPOSPHERETROPOSPHERE
80
60
20
40
km0 50 100 150
Ozone Partial Pressure (b)
MESOSPHEREMESOSPHERE
Ozone Distribution in the Atmosphere
3Updated July 2003
Scientific Background IHistory
1839: Ozone discovered by C. F. Schönbein when observing electrical discharges.
1850s:Ozone shown to be a natural atmospheric constituent.
1880: Experiments show that Ozone strongly absorbs Solar Ultraviolet (UV) radiation.
1913: Proof that most of the atmosphere's ozone is located in the stratosphere.
1920: G. M. B. Dobson (an Oxford Scientist) perfected an instrument to monitor quantitatively total atmospheric ozone.
4Updated July 2003
Scientific Background IIThe Current Science
The global Ozone layer recovery has been linked mainly to decreasing Chlorine and Bromine loading, but other factors such as the role of Green house gases and climate change are likely to contribute.
Total Combined effective abundance of Ozone depleting compounds in the lower atmosphere peaked in 1992-1994 and since then it has been declining slowly.
The abundance of HCFCs in the lower atmosphere is increasing.
Chlorine abundance in the stratosphere is at or near its peak but Bromine abundance seems to be still increasing.
5Updated July 2003
Scientific Background IIThe Current Science (continued.)
The ozone depletion in the Antarctic, the Arctic and the mid-latitudes is still continuing, due to past emissions of CFCs. It will peak in the next few years.
The Montreal Protocol is working and Ozone depletion from the Protocol’s controlled substances is expected to start recovering within the next decade or so.
Even with full compliance of the Montreal Protocol, the Ozone layer will remain particularly vulnerable for the next decade or so. Failure to comply with the Montreal Protocol will delay or even prevent the recovery of the Ozone layer.
6Updated July 2003
Why Protect the Ozone Layer?
Ozone Depletion leads to excessive UV-B radiation. Excessive UV-B radiation leads to:
More skin cancers and eye cataracts. Less productivity of plants. Loss of immunity to diseases. Adverse effects on plastics.
7Updated July 2003
CFCs: Ozone Depleting Substances
1928: CFCs invented;1950-70s: Consumption and use of CFCs rises rapidly
during the 50s-70s period. Used in Aerosols, Refrigeration, Air Conditioning and Manufacturing of Foams.
8Updated July 2003
Scientific Activity on Ozone1971: CFCs measured in the atmosphere.1974: Rowland and Molina link CFCs with Ozone
Depletion.1977: Plan of Action on Ozone Layer established by
UNEP in collaboration with WMO. UNEP sets up Co-ordinating Committee on Ozone Layer (CCOL).
1985: Findings on "The Ozone Hole" over the Antarctic (during spring) published
by the British Antarctic Survey.
9Updated July 2003
Measurements of Ozone and Reactive Chlorine from a Flight Into the Antarctic
Ozone Hole, 1987(Smoking gun..)
Antarctic Polar Air
Ozone (Scale at Left)
Reactive Chlorine(Scale at Right)
Latitude (Degrees South)
63 64 65 66 67 68 69 70 71 72
0
3000
2500
2000
1500
1000
500
1.5
0.5
1.0
0
Rea
ctiv
e C
hlor
ine
Abu
ndan
ce
(Par
ts p
er B
illio
n)
Ozo
ne A
bund
ance
(P
arts
per
Bill
ion)
10Updated July 2003
Scientific Activity on Ozone (continued.)
1985: First Scientific Assessment of Stratospheric Ozone.
1987: Observations prove that the more the Chlorine in the Atmosphere, the less the amount of Ozone.
1989: Scientific Assessment of Stratospheric Ozone under the Vienna Convention and Montreal Protocol
1991: Scientific Assessment of Ozone Depletion under the Vienna Convention and Montreal Protocol.
11Updated July 2003
Scientific Activity on Ozone (continued.)
1994: Scientific Assessment of Ozone Depletion under the Vienna Convention and Montreal Protocol.
1995: Nobel prize received by 3 scientists (Crutzen, Molina and Rowland) for pioneering the research on Ozone Depletion.
1998: Scientific Assessment of Ozone Depletion under the Vienna Convention and Montreal Protocol.
2002: Scientific Assessment of Ozone Depletion under the Vienna Convention and Montreal Protocol.
12Updated July 2003
International Commitments1985: Vienna Convention for the Protection of
the Ozone Layer calls for voluntary measures to reduce emissions of ozone-depleting substances (ODS).
1987: Montreal Protocol on Substances that Deplete the Ozone Layer establishes a schedule to reduce the production and consumption of CFCs and Halons.
13Updated July 2003
International Commitments(continued.)
1990,92,95,97,99: At meetings in London, Copenhagen, Vienna, Montreal and Beijing Parties approve adjustments and/or amendments to the Montreal Protocol to stipulate/accelerate the phase-out schedules and add additional ozone-depleting substances to the list.
1994: production and consumption of Halons by developed countries is stopped except for essential uses.
14Updated July 2003
Ozone Protocol and Amendments Ratification Status (Information sent to the Ozone Secretariat by the Depositary, UN Office of Legal Affairs, July, 2003)
0
20
40
60
80
100
120
140
160
180
200
1986
1987
1988
1989
1990
1991
1992
1993
1994
1995
1996
1997
1998
1999
2000
2001
2002
2003
2004
Year
Nu
mb
er
of
Co
un
trie
s
Vienna Convention (185)
Montreal Protocol (184)
London Amendment (165)
Copenhagen Amendment (150)
Montreal Amendment (101)
Beijing Amendment (50)
Ozone Protocol and Amendments Ratification Status
15Updated July 2003
Countries that have NOT Ratified the Montreal Protocol (11 Countries)
NiueAndorraHoly Sea San MarinoEast Timor
AfghanistanBhutanCook IslandsEquatorial Guinea EritreaIraq
Countries that have NOT ratified the Countries that have NOT ratified the Montreal ProtocolMontreal Protocol
Ratification of the Montreal Protocol(July 2003)(July 2003)
16Updated July 2003
International Commitments (continued.)
1995: The phase-out schedule of all Ozone depleting substances applicable to developing parties is agreed by the parties with a ten-year grace period.
1996: Production and consumption of CFCs , Carbon tetrachloride and methyl chloroform by
developed countries stopped except for essential uses while consumption of HBFCs stopped for all parties
1997: A system for licensing the import and export of all ozone depleting substances becomes mandatory to all parties to the Montreal Protocol in order to control illegal trade.
17Updated July 2003
World CFC Production 1950-2002
0
200
400
600
800
1000
1200
1400
1950 1960 1970 1980 1990 2000 2010
Year
Th
ou
san
d T
on
s
Source: DuPont, Worldwatch estimates and Ozone Secretariat
Montreal Protocol Signed (1987)
First Ozone depletion theory published (1974)
World CFC Production 1950 - 2002
18Updated July 2003
Financial Mechanism - The Multilateral Fund of the Montreal
Protocol1991: The Multilateral Fund established, with UNDP,
UNEP, UNIDO and World Bank as the implementing agencies, to provide financial and technical assistance to developing countries (Article 5) to enable them comply with the control measures.
The Multilateral Fund of the Protocol has been very successful. It has, between 1991 - 2002 disbursed close to $1.5 billion to more than 100 developing countries to phase-out more than half of their CFC consumption. It will continue assistance till the phase-out is completed.
19Updated July 2003
Replenishments of the Multilateral Fund of the Montreal Protocol since 1990
No. Years covered
Amount Cumulative Year/ Venue
millions US$
1* 1991-1993 200 200 1991/Nairobi
2 1994-1996 455 655 1993/Bangkok
3 1997-1999 466 1,121 1996/Costa Rica
4 2000-2002 440 1,561 1999/Beijing
5 2003-2005 474 2,035 2002/Rome
* In 1990, the Parties in Decision II/8 established on an interim basis a fund of US$160,000,000 which was increased in 1991 to US$200,000,000
20Updated July 2003
Cumulative Replenishments of the Multilateral Fund of the Montreal Protocol
-
500
1,000
1,500
2,000
2,500
1991-1993 1994-1996 1997-1999 2000-2002 2003-2005
Replenishment Period
Cu
mu
lati
ve R
eple
nis
hm
ent
(mil
lio
n U
S$)
New Replenishment
21Updated July 2003
Cumulative Allocations and Provisions by the MLF and ODS Phased Out Since 1991
( Source: MLF Executive Meetings Reports )
0
20000
40000
60000
80000
100000
120000
140000
1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002
Year
OD
P T
on
nes
of
CF
C
0
200
400
600
800
1000
1200
1400
US
$ M
illio
n
Cumulative ODP Tonnes
Cumulative Funds Approved
Cumulative Allocations and Provisions by the MLF and ODS Phased Out Since 1991
22Updated July 2003
AgencyAgency US$ millionUS$ million1.UNEP 74.1
(Information clearing house, preparation of country programmes, institutional strengthening, networking and training)
2.UNDP (Technical assistance and Investment projects) 409.03.UNIDO (Investment projects) 319.24.World Bank (Investment projects) 621.4
Total 1,423.7
Funds Allocated to the Implementing Agencies by the Multilateral Fund of the Montreal Protocol (as at 11 July 2003)
23Updated July 2003
The Global Environment Facility (GEF) assisted the Russian Federation and other Eastern and Central Europe countries (CEITs) to implement the Montreal Protocol.
Russian Federation phased out its CFC and Halon production and consumption in 2001.
GEF approved over US$ 160 million to 18 countries. The countries that have been assisted: Armenia,
Azerbaijan, Belarus, Bulgaria, Czech Republic, Estonia, Hungary, Kazakhstan, Latvia, Lithuania, Poland, Russian Federation, Slovakia, Slovenia, Tajikistan, Turkmenistan, Ukraine and Uzbekistan.
Countries with Economies in Transition (CEIT Countries)
24Updated July 2003
With support from GEF, consumption of CFCs in these countries has decreased from 146,000 tonnes in 1986 to only 1,340 tonnes in 2001. These countries have thus almost completed their phase-out of Annex A and B substances as provided by the Montreal Protocol.
Additional funds of US$ 60 million ear-marked by GEF to CEIT countries for HCFC and Methyl Bromide phase-out.
CEIT Countries (continued.)
25Updated July 2003
Achievements Global Production of CFCs and Halons fell by over
one million tonnes (by 89%) between 1986 and 2000.
Global Consumption fell in the same period by the same margin (89%)
Atmospheric Concentration of Chlorine peaked in 1994 and is now declining.
Millions of cases of Eye Cataracts and Skin Cancer averted
Recovery of the Ozone Layer expected by the year 2050, if the Protocol is fully implemented by all
Parties.
26Updated July 2003
Atmospheric Concentrations of CFC-11, CFC-12, CFC-113, Carbon Tetrachloride, Methyl Chloroform and Total Gaseous Chlorine
(Source: World Resource 1998-1999, WRI)
0
100
200
300
400
500
600
1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997
Year
Gas
Ab
un
dan
ce i
n P
PT
0
500
1000
1500
2000
2500
3000
To
tal
Gas
eou
s C
hlo
rin
e in
PP
T
CFC-11
CFC-12
CFC-113
Carbon Tetrachloride
Methyl Chloroform
Total Gaseous Chlorine
Atmospheric Concentrations of CFC-11, CFC-12, CFC-113, Carbon Tetrachloride, Methyl Chloroform and Total Gaseous Chlorine
27Updated July 2003
Total Chlorine Abundance in the StratophereSource: 2002 assessment of the Science Assessment Panel
Comments Total chlorine abundance in the Stratophere is at or near its peak. Total chlorine and bromide abundance in the lower atmosphere peaked in 1992-1994
and continues to decline. Largely consistent with reported production of ODSs, CFC-11 abundance is near its
peak, abundance of CTC and MCF is dropping but abundance of HCFC and halons is still increasing
28Updated July 2003
Measured Atmospheric Concentrations of Halon-1211 at Cape Grim, Tasmania
(Source: Stratopheric Ozone 1996)
0.0
0.4
0.8
1.2
1.6
2.0
2.4
2.8
3.2
3.6
1978
1980
1982
1984
1986
1988
1990
1992
1994
1996
1998
Year
H-1
21
1 M
ixin
g R
ati
o (
pp
tv)
Measured Atmospheric Concentrations of Halon-1301 at Cape Grim, Tasmania
(Source: Stratopheric Ozone 1996)
0
0.4
0.8
1.2
1.6
2
2.4
1978
1980
1982
1984
1986
1988
1990
1992
1994
1996
1998Year
H-1
30
1 M
ixin
g R
ati
o (
pp
tv)
Halons in the Atmosphere
29Updated July 2003
The ozone depletion by the year 2050 would have been at least 50% in the mid latitudes in the
northern half of the earth, 70% in the mid latitudes of the south, about 10 times larger than today. The UV-B radiation would have doubled in the north and quadrupled in the south in the same places. The ozone depleting chemicals in the atmosphere would have been 5 times higher.
The implications of this increase would have been horrendous - 19 million more cases of non-
melanoma cancer, 1.5 million cases of melanoma cancer, 130 million more cases of eye cataracts.
If there were no Protocol, .....
30Updated July 20030
2,000
4,000
6,000
8,000
10,000
12,000
14,000
16,000
18,000
20,000
1980 2000 2020 2040 2060 2080 2100
Year
Dea
ths
Ave
rted
TotalMelanoma DeathsNon-Melanoma Deaths
Larger Ozone Losses AvoidedOzone-Damaging Stratospheric Chlorine/Bromine
0
5,000
10,000
15,000
20,000
Year
Abu
ndan
ce (
part
s pe
r tr
illio
n)
No Protocol
MontrealProtocol
Copenhagen Amendments
31Updated July 2003
Challenges Many Parties are yet to ratify the Amendments to
the Montreal Protocol. Meeting the control measures for production and
consumption of CFCs in the developing countries:
1. The developing countries began their phase-out of ODSs with a freeze on CFCs from 1 July 1999, and a freeze from 1 January 2002 on Halons and Methyl Bromide.
2. In 2005, a 50% reduction in CFCs and Halons, and a 20% reduction in Methyl Bromide, is required.
32Updated July 2003
Challenges (continued.)
Meeting the control measure of complete phase- out of Methyl Bromide in the industrialised countries in 2005 and minimzing the quantities
of Methyl Bromide used in those countries through Critical Use Exemptions.
Meeting the control measure of 35% reduction of the production and consumption of HCFCS in the industrialised countries from 1 January 2004.
33Updated July 2003
Challenges (continued.)
Flow of illegal CFCs to the industrialised countries is of concern. Developing countries are concerned
about increasing flow to their countries of CFC-containing products, for example refrigerators,
from countries, which have adopted Ozone-safe products. This will increase the demand for CFCs
for maintenance of these products in developing countries implementation of ODS licensing system could check this problem.
Global warming could increase ozone depletion. Also, HFCs, used as alternatives for CFCs in some applications, have global warming potential and
are controlled by the Kyoto Protocol. These inter- connections need to be studied.
34Updated July 2003
Global Warming Potential of some Ozone Depleting Substances and Alternatives
35Updated July 2003
Key Decisions
Decision XI/9 on control of export of products and equipment whose continuing functioning relies on Annex A and Annex B substances.
The decision recommends each Party to adopt legislative and legislative measures, including labelling of products and equipment, to regulate the export and import, as appropriate, of products, equipment, components and technology whose continuing functioning relies on substances in Annex A and annex B of the Montreal Protocol..
36Updated July 2003
Key Decisions(continued.)
Decision X/9 on establishment of a list of countries that do not manufacture for domestic use and do not wish to import products and equipment whose continuing functioning relies on Annex A and Annex B substances.
On a voluntary basis, the decision invites Parties
that do not manufacture for domestic use, products and equipment listed in the decision and do not permit the importation of such products and equipment from any source, to inform the Secretariat, that they do not wish to receive imports of such products and equipment.
37Updated July 2003
Key Decisions(continued.)
The Secretariat maintains a list of such Parties which is updated and distributed to Parties on annual basis.
Decision XIV/7 on monitoring of trade in ozone- depleting substances and prevention of illegal trade in ODS. The decision, inter alia, invites Parties to report to the Ozone Secretariat fully proved cases of illegal trade in ODS to facilitate exchange of information. Such information received from the Parties will be disseminated periodically by the
Secretariat to all Parties.
38Updated July 2003
Licensing System
Article 4B (Licensing) of the Protocol Each Party is required to introduce a licensing system
for import and export of ozone-depleting substances effective 1 January 2000 and report to the Secretariat on the establishment and operation of such a system within three months.
39Updated July 2003
Compliance The effective implementation of the Montreal
Protocol and the considerable achievement in phasing out ozone-depleting substances owes a great deal to:
(a) Effective monitoring of compliance through the non-compliance procedure by the Implementation Committee and the Parties to the Montreal Protocol.
(b) The financial mechanism of the Montreal Protocol through the Multilateral Fund as well as the Global Environmental Facility.
(c) The Secretariat’s monitoring of information reporting, follow up action and appropriate recommendations for measures to be taken by the Parties.
40Updated July 2003
Fifteen years ago, the share of the developing countries in the total production of CFCs was
5.2%. In 2000, it is 58%. For Halons it was 5.7% fifteen years ago and is 93% now.
Developing Countries
41Updated July 2003
Precautionary principle Sustainable development Integration of science with policy Recognition of the special situation, of the developing
countries Need for international cooperation to solve
transboundary environmental problems Common but differentiated responsibility among
parties Flexibility to take into account scientific and
technological developments over time.
Lessons of the Montreal Protocol