During the start-up and unstable combustion periods,even the state-of-the-art incinerators emit polychlorinated dibenzo-p-dioxins and dibenzofurans(PCDD/PCDF) in stack gases at concentrations that are up to 1000 times...During the start-up and unstable combustion periods,even the state-of-the-art incinerators emit polychlorinated dibenzo-p-dioxins and dibenzofurans(PCDD/PCDF) in stack gases at concentrations that are up to 1000 times higher than normal operation. Therefore,incinerators and other sources with variation of PCDD/PCDF release into air cannot be reliably monitored by the conventional short-term sampling that covers only 0.1%to 0.2%of the yearly operating time.A more comprehensive monitoring regime is required.This paper describes different applications of continuous PCDD/PCDF sampling in some European countries.The cases demonstrate that flexible regimes for continuous sampling can be crafted and applied by governments or regional/local authorities.Such regimes range from a countrywide,continuous requirement for selected facility types(e.g.,waste incinerators) to a facility-specific regime that applies,for example,to new facilities for a defined time period until the facility has demonstrated continuous compliance with regulatory limits. Countries implementing the Stockholm Convention are suggested to evaluate in their Best available technology/Best environmental practice(BAT/BEP) activities the usefulness of long-term sampling by,for example,designating institutes related to the environmental ministry or regional authorities to supervise long-term sampling regimes at relevant facilities in their country/areas,beginning with priority sources(e.g.,facilities used for destruction of persistent organic pollutants(POPs) or hazardous waste processing) . This paper presents and discusses the results of the AMESA long-term monitoring system having demonstrated that in addition to PCDD/PCDF all other unintentionally produced POPs listed in the Stockholm Convention could be supervised.展开更多
The Stockholm Convention on Persistent Organic Pollutants(POPs)is a legally binding instrument for 186 Parties(status:April 2023).Accordingly,among other responsibilities,countries are obliged to report the production...The Stockholm Convention on Persistent Organic Pollutants(POPs)is a legally binding instrument for 186 Parties(status:April 2023).Accordingly,among other responsibilities,countries are obliged to report the production,import,or export of the POPs listed in Annexes A,B,or C;provide information to registers;maintain inventories;and monitor the presence of POPs in the environment.In the broader context of international chemicals and waste management,producer responsibilities,harmonized reporting,and compliance with national and international regulations,Ecuador has addressed the newly listed group of perfluorinated alkyl substances(PFAS)in its national implementation plan and sent selected products from its national market for PFAS analysis.The products analyzed came from the initially listed fields of specific exemptions and acceptable purposes,including:fire-fighting foams;photographic aids;greasers/degreasers;various kinds of paper/packaging;textiles;and leather,coatings,cleaners,metal plating,and pesticides.Our results showed that the three PFAS presently listed in the Stockholm Convention could be quantified in only a few samples;additional PFAS,not yet listed in the Convention also had low detection frequencies.Although the number of samples was limited,the samples covered a large spectrum of sample matrices,making it possible to conclude that—once these products become waste and are regulated under the Basel Convention—they would not constitute a disposal problem.Nevertheless,verification of the presence of PFAS in products on the market is expected to pose an analytical challenge for both,developed and developing countries.展开更多
Hexachlorocyclohexane(HCH)waste isomers from lindane production are the largest single POPs legacy,with an estimated 4.8 to 7.4 million tonnes of disposed waste.The largest part of this waste e 1.8 to 3 million tonnes...Hexachlorocyclohexane(HCH)waste isomers from lindane production are the largest single POPs legacy,with an estimated 4.8 to 7.4 million tonnes of disposed waste.The largest part of this waste e 1.8 to 3 million tonnes e was disposed in Europe,where most producers were located.This paper provides a short overview of projects supported by the European Union(EU)to address this waste legacy and to implement the Stockholm Convention for this group of POPs with associated protection of soil,ecosystems and human health.We report here particularly on the results of a project financed by the EU called the“HCH in EU project”,which aimed to develop a systematic inventory of sites where HCH was handled and potentially resulted in contamination.The compiled information provide guidance for competent authorities to further assess their national HCH inventory and to further develop a strategy to address this large POP legacy in future.The systematic inventory revealed that there were at least 299 sites where HCH was handled.These sites include 54 former production sites,76 pesticide processing plants that used lindane,59 uncontrolled HCH waste isomer deposits,29 landfills with HCH waste,34 former or current storage sites for stocks of obsolete pesticides including technical HCH or lindane,and 16 HCH treatment or disposal sites.Additionally,at 31 of the sites lindane/technical HCH was used in applications with significant risk of soil pollution,such as wood treatment.The number of sites in this latter category is likely higher and will need further assessment.In addition to this inventory,the“HCH in EU project”produced detailed country reports,a guidance document for how to find potentially HCHimpacted sites,and a strategy document for implementing the sustainable management of these sites EU-wide,with proposed actions at the EU,country,and site level.Furthermore,the project has facilitated information exchange and e together with other related EU projects e has led to sharing information and best practices among member 展开更多
A report that reviews Arctic contaminants that are not currently regulated as persistent organic pollutants(POPs)under international treaties was recently published by the Arctic Monitoring and Assessment Programme(AM...A report that reviews Arctic contaminants that are not currently regulated as persistent organic pollutants(POPs)under international treaties was recently published by the Arctic Monitoring and Assessment Programme(AMAP).We evaluated 464 individual chemicals mentioned in the AMAP report according to hazard profiles for POPs,very persistent and very bioaccumulative(vPvB)chemicals,and two novel and distinct hazard profiles we derived from the planetary boundary threat framework.The two planetary boundary threat profiles assign high priority to chemicals that will be mobile and poorly reversible environmental contaminants.Utilizing persistence as a proxy for poor reversibility,we defined two exposure-based hazard profiles;airborne persistent contaminants(APCs)and waterborne persistent contaminants(WPCs)that are potential planetary boundary threats.We used in silico estimates of physicochemical properties and multimedia models to calculate hazard metrics for persistence,bioaccumulation and long-range transport potential,then we synthesized this information into four exposure-based hazard scores of the potential of each AMAP chemical to fit each of the POP,vPvB,APC and WPC exposure-based hazard profiles.As an alternative to adopting a“bright line”score that represented cause for concern,we scored the AMAP chemicals by benchmarking against a reference set of 148 known and relatively well-studied contaminants and expressed their exposure-based hazard scores as percentile ranks against the scores of the reference set chemicals.Our results show that scores in the four exposure-based hazard profiles provide complementary information about the potential environmental exposure-based hazards of the AMAP chemicals.Our POP,vPvB,APC and WPC exposure-based hazard scores identify high priority chemicals for further study from among the AMAP contaminants.展开更多
文摘During the start-up and unstable combustion periods,even the state-of-the-art incinerators emit polychlorinated dibenzo-p-dioxins and dibenzofurans(PCDD/PCDF) in stack gases at concentrations that are up to 1000 times higher than normal operation. Therefore,incinerators and other sources with variation of PCDD/PCDF release into air cannot be reliably monitored by the conventional short-term sampling that covers only 0.1%to 0.2%of the yearly operating time.A more comprehensive monitoring regime is required.This paper describes different applications of continuous PCDD/PCDF sampling in some European countries.The cases demonstrate that flexible regimes for continuous sampling can be crafted and applied by governments or regional/local authorities.Such regimes range from a countrywide,continuous requirement for selected facility types(e.g.,waste incinerators) to a facility-specific regime that applies,for example,to new facilities for a defined time period until the facility has demonstrated continuous compliance with regulatory limits. Countries implementing the Stockholm Convention are suggested to evaluate in their Best available technology/Best environmental practice(BAT/BEP) activities the usefulness of long-term sampling by,for example,designating institutes related to the environmental ministry or regional authorities to supervise long-term sampling regimes at relevant facilities in their country/areas,beginning with priority sources(e.g.,facilities used for destruction of persistent organic pollutants(POPs) or hazardous waste processing) . This paper presents and discusses the results of the AMESA long-term monitoring system having demonstrated that in addition to PCDD/PCDF all other unintentionally produced POPs listed in the Stockholm Convention could be supervised.
基金supported by the Government of Ecuador through the Ministry of Environment,Water and Ecological Transition(MAATE)within the National Program for the Environmental Sound Management and Life Cycle Management of Chemical Substances(PNGQ)with contract of Alternativa Visionambiental Cia.Ltda.,Quito,toÖrebro University and prepared within the Project“Diagnóstico sobre el uso,presencia en productos,posible sustitución de COP industriales y elaboración del inventario y plan de acción de nuevas sustancias COP,conénfasis en el sector industrial ecuatoriano”funded by the United Nations Development Programme(UNDP)with funds from the Global Environment Facility(PNUD-ECU-SdP-ADQ-20-103165).
文摘The Stockholm Convention on Persistent Organic Pollutants(POPs)is a legally binding instrument for 186 Parties(status:April 2023).Accordingly,among other responsibilities,countries are obliged to report the production,import,or export of the POPs listed in Annexes A,B,or C;provide information to registers;maintain inventories;and monitor the presence of POPs in the environment.In the broader context of international chemicals and waste management,producer responsibilities,harmonized reporting,and compliance with national and international regulations,Ecuador has addressed the newly listed group of perfluorinated alkyl substances(PFAS)in its national implementation plan and sent selected products from its national market for PFAS analysis.The products analyzed came from the initially listed fields of specific exemptions and acceptable purposes,including:fire-fighting foams;photographic aids;greasers/degreasers;various kinds of paper/packaging;textiles;and leather,coatings,cleaners,metal plating,and pesticides.Our results showed that the three PFAS presently listed in the Stockholm Convention could be quantified in only a few samples;additional PFAS,not yet listed in the Convention also had low detection frequencies.Although the number of samples was limited,the samples covered a large spectrum of sample matrices,making it possible to conclude that—once these products become waste and are regulated under the Basel Convention—they would not constitute a disposal problem.Nevertheless,verification of the presence of PFAS in products on the market is expected to pose an analytical challenge for both,developed and developing countries.
基金the European Commission(No 07.027744/2019/8120036þ820155/ETU/ENV.D.1)is appreciated and acknowledged.
文摘Hexachlorocyclohexane(HCH)waste isomers from lindane production are the largest single POPs legacy,with an estimated 4.8 to 7.4 million tonnes of disposed waste.The largest part of this waste e 1.8 to 3 million tonnes e was disposed in Europe,where most producers were located.This paper provides a short overview of projects supported by the European Union(EU)to address this waste legacy and to implement the Stockholm Convention for this group of POPs with associated protection of soil,ecosystems and human health.We report here particularly on the results of a project financed by the EU called the“HCH in EU project”,which aimed to develop a systematic inventory of sites where HCH was handled and potentially resulted in contamination.The compiled information provide guidance for competent authorities to further assess their national HCH inventory and to further develop a strategy to address this large POP legacy in future.The systematic inventory revealed that there were at least 299 sites where HCH was handled.These sites include 54 former production sites,76 pesticide processing plants that used lindane,59 uncontrolled HCH waste isomer deposits,29 landfills with HCH waste,34 former or current storage sites for stocks of obsolete pesticides including technical HCH or lindane,and 16 HCH treatment or disposal sites.Additionally,at 31 of the sites lindane/technical HCH was used in applications with significant risk of soil pollution,such as wood treatment.The number of sites in this latter category is likely higher and will need further assessment.In addition to this inventory,the“HCH in EU project”produced detailed country reports,a guidance document for how to find potentially HCHimpacted sites,and a strategy document for implementing the sustainable management of these sites EU-wide,with proposed actions at the EU,country,and site level.Furthermore,the project has facilitated information exchange and e together with other related EU projects e has led to sharing information and best practices among member
基金Financial support for this study was provided by the European Union's Seventh Framework Programme for research,technological development and demonstration under grant agreement no.316665(A-TEAM project)。
文摘A report that reviews Arctic contaminants that are not currently regulated as persistent organic pollutants(POPs)under international treaties was recently published by the Arctic Monitoring and Assessment Programme(AMAP).We evaluated 464 individual chemicals mentioned in the AMAP report according to hazard profiles for POPs,very persistent and very bioaccumulative(vPvB)chemicals,and two novel and distinct hazard profiles we derived from the planetary boundary threat framework.The two planetary boundary threat profiles assign high priority to chemicals that will be mobile and poorly reversible environmental contaminants.Utilizing persistence as a proxy for poor reversibility,we defined two exposure-based hazard profiles;airborne persistent contaminants(APCs)and waterborne persistent contaminants(WPCs)that are potential planetary boundary threats.We used in silico estimates of physicochemical properties and multimedia models to calculate hazard metrics for persistence,bioaccumulation and long-range transport potential,then we synthesized this information into four exposure-based hazard scores of the potential of each AMAP chemical to fit each of the POP,vPvB,APC and WPC exposure-based hazard profiles.As an alternative to adopting a“bright line”score that represented cause for concern,we scored the AMAP chemicals by benchmarking against a reference set of 148 known and relatively well-studied contaminants and expressed their exposure-based hazard scores as percentile ranks against the scores of the reference set chemicals.Our results show that scores in the four exposure-based hazard profiles provide complementary information about the potential environmental exposure-based hazards of the AMAP chemicals.Our POP,vPvB,APC and WPC exposure-based hazard scores identify high priority chemicals for further study from among the AMAP contaminants.
