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to protect Ozone layer by reducing the production and consumption of ozone depleting substances(passive) was designedMontreal Protocol
to reduce the production and consumption of ozone depleting substances in order to reduce their abundance in the atmosphere(passive) was designedMontreal Protocol
to reduce ozone depleting substances which were affecting the earth ’s protective ozone layer(passive) was designedThe Montreal Protocol
the ODS ( Ozone Depleting Substances ) phase - outresultingfrom the Montreal Protocol
Content of the agreementcreatesThe Montreal Protocol
to eliminate the manufacture and use of ozone depleting substances and was signed by 197 countries(passive) is designedThe Montreal Protocol
for phasing out ozone depleting substances ( ODSs ) such as chlorofluorocarbons ( CFCs ) , Halons , carbon tetrachloride ( CTC(passive) is designedThe Montreal Protocol
to legally enforce the phasing out of ozone - depleting chemicals that exist in household items , like fridges(passive) is designedThe Montreal Protocol
to phase - out man - made chemicals that damage the planet 's ozone layer , which shields life from harmful ultraviolet radiation from the sun that can cause skin cancer , cataracts and reduce plant yields(passive) is designedThe Montreal Protocol
The discovery of the Antarctic ozone holeledThe Montreal Protocol
to sew up the ozone hole above antarctica(passive) was designedThe montreal protocol
up ... the United Nations Environment Programme ( UNEP ) in 1987 to protect the ozone layer(passive) set ... byThe Montreal Protocol
The international agreement that occurredto createthe Montreal protocol
to reduce the production of ozone depleting substances ( ODS ) , specifically R12 and R502(passive) was designedThe Montreal Protocol
to mend the ozone bed by stoping the production of ozone - depleting substances ( ODS(passive) is designedThe Montreal Protocol
to reduce the production and consumption of substances that deplete the Earth ’s ozone layer(passive) was designedThe Montreal Protocol
to protect ozone layer by reducing the production of ozone depleting substances(passive) was designedMontreal protocol
to reduce the production and consumption of ozone depleting substances in order to protect the ozone layer(passive) is designedThe Montreal Protocol
In 1997 , most of the countries of the world met in Montreal Canadato createthe Montreal Protocol
to protect the stratospheric ozone layer by reducing the abundances of ozone depleting substances ( ODS ) such as chlorofluorocarbons ( CFCs ) in the atmosphere(passive) was designedThe Montreal Protocol
how governments came togetherto createThe Montreal Protocol
to phase out the production and consumption of ozone - depleting substances to protect the earth ’s fragile ozone layer(passive) is designedThe Montreal Protocol
to protect the ozone layer by reducing the abundance of ozone - depleting substances , such as chlorofluorocarbons ( CFCs ) , in the atmosphere(passive) was designedThe Montreal Protocol
ODS concentrations in the stratosphereresultingfrom the Montreal protocol
to phase out ozone - depleting substances ( ODSs)—substances that had been created for various purposes , most famously for use in aerosols , refrigeration , and other forms of air - conditioning(passive) was designedThe Montreal Protocol
to reduce the production and consumption of substances that deplete the ozone layer , a natural shield that guards against harmful ultraviolet rays(passive) was designedThe Montreal Protocol
to protect the stratospheric ozone layer by enabling reductions in the abundance of ozone - depleting substances such as chlorofluorocarbons ( CFCs ) in the atmosphere(passive) was designedThe Montreal Protocol
to protect the stratospheric ozone layer by enabling reductions in the abundance of ozone - depleting substances such as CFC chemicals in the atmosphere(passive) was createdThe Montreal Protocol
the unintentional ( positive ) climate effectsresultingfrom the Montreal Protocol
to stop the production and import of ozone depleting substances and reduce their concentration in the atmosphere to help protect the earth 's ozone layer(passive) was designedThe Montreal Protocol
to protect the stratospheric ozone layer by enabling reductions in the abundance of ozone - depleting substances such as chlorofluorocarbons ( CFCs ) in the atmosphere1,2,3(passive) was designedThe Montreal Protocol
activities relating to land use(passive) caused bythe Montreal Protocol
the united nations environment programme aimed at regulating the depletion of the earth ’s ozone layer(passive) was created bythe montreal protocol
to identify and then phase out production and use of ODSs(passive) is designedThe Montreal Protocol
to help reach international agreement on control of the production and consumption of certain chlorofluorocarbon and halon compounds(passive) is designedThe Montreal Protocol
to phase out the use of Chlorofluorocarbons ( CFCs ) and Hydrochlorofluorocarbons ( HCFCs ) , which damage the ozone layer(passive) was designedThe Montreal Protocol
to reduce the production and consumption of ODS in order to reduce their abundance in the atmosphere , and thereby protect the earth ’s fragile Ozone layer(passive) was designedThe Montreal Protocol
to protect the ozone layer by phasing out the production and use of numerous substances , including hydrofluorocarbons ( HFCs ) for commercial refrigeration used throughout the global food retail industry(passive) is designedThe Montreal Protocol
which ... for the first time , placed a restraint upon the production and consumption of ODS and this protocol was subsequently strengthened by the EU MS regime based on the wording of Art.228 of the EU treaty(Aidt , T. 1998 ) , ( Anderson , Blackhurst ( eds(passive) was setthe Montreal Protocol
ozone layer problemsledto the Montréal protocol
the specific phase - out targets(passive) set bythe specific phase - out targets
The intermediate phase - out targets(passive) set byThe intermediate phase - out targets
compliance targets(passive) set bycompliance targets
a timetable to phase out ozone depleting substancesseta timetable to phase out ozone depleting substances
ODS phase - out(passive) set byODS phase - out
to a global phase - out of most substances that deplete the ozone layer , such as chlorofluorocarbons ( cfcs ) a happy side - effect of the gradual ban of these productsledto a global phase - out of most substances that deplete the ozone layer , such as chlorofluorocarbons ( cfcs ) a happy side - effect of the gradual ban of these products
the phase - out schedule(passive) set bythe phase - out schedule
the phase - out of CFCs and HCFCstriggeredthe phase - out of CFCs and HCFCs
the phase - out deadline(passive) set bythe phase - out deadline
to protect the ozone layer by phasing out CFCsdesignedto protect the ozone layer by phasing out CFCs
firm targets for the statessetsfirm targets for the states
specific time bound targetssetsspecific time bound targets
targets for a phase - down in production and use of HFCssetstargets for a phase - down in production and use of HFCs
to deal with ozone depletionwas designedto deal with ozone depletion
severe ozone depletionhas preventedsevere ozone depletion
in a slowing of ozone depletionhas resultedin a slowing of ozone depletion
the phase - out milestones(passive) set bythe phase - out milestones
the phase out schedules(passive) set bythe phase out schedules
a timeline for the phase ... out of chlorofluorocarbons ( CFCssetsa timeline for the phase ... out of chlorofluorocarbons ( CFCs
to protect the ozone layer through a ban on CFCsdesignedto protect the ozone layer through a ban on CFCs
The stage for phase out of ODS(passive) was set byThe stage for phase out of ODS
the phase - out of 99 percent of ozone depletion chemicals in refrigeratorshas ledthe phase - out of 99 percent of ozone depletion chemicals in refrigerators
to phase out ozone depleting chemicals worldwidewas createdto phase out ozone depleting chemicals worldwide
the goal to phase out ozone - depleting chemicals by 2030setthe goal to phase out ozone - depleting chemicals by 2030
to a complete phase - out of production and consumption of ODSshas ledto a complete phase - out of production and consumption of ODSs
to attack the problem of ozone depletionwas designedto attack the problem of ozone depletion
in the prevention of extensive ozone depletion andhave resultedin the prevention of extensive ozone depletion and
binding progressive phase - out obligations for developed and developing countries for all major ozone depleting substances , including CFCs , halons , and HCFCssetsbinding progressive phase - out obligations for developed and developing countries for all major ozone depleting substances , including CFCs , halons , and HCFCs
to the phase - out of 99 per cent of ozone - depleting chemicals in refrigerators , air - conditioners , and many other productshas ledto the phase - out of 99 per cent of ozone - depleting chemicals in refrigerators , air - conditioners , and many other products
depletion of ozone layerpreventsdepletion of ozone layer
in action in 1987setin action in 1987
to protect the ozone layer by phasing out the production of a number of substances believed to be responsible for ozone depletiondesignedto protect the ozone layer by phasing out the production of a number of substances believed to be responsible for ozone depletion
the environmental standards(passive) set bythe environmental standards
the emission standards(passive) set bythe emission standards
to phase out the use of HFCsdesignedto phase out the use of HFCs
the current phase - out date(passive) set bythe current phase - out date
the current phase - out timetables(passive) set bythe current phase - out timetables
in the phase out of HCFC-22will resultin the phase out of HCFC-22
strict limits on the use of CFCssetstrict limits on the use of CFCs
targets for reducing and phasing out use for each of the ozone - depleting substancessetstargets for reducing and phasing out use for each of the ozone - depleting substances