Seasonality and indoor/outdoor relationships of flame retardants and PCBs in residential air

This study is a systematic assessment of different houses and apartments, their ages and renovation status, indoors and outdoors, and in summer vs. winter, with a goal of bringing some insight into the major sources of semivolatile organic compounds (SVOCs) and their variability. Indoor and outdoor...

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Veröffentlicht in:	Environmental pollution (1987) 2016-11, Vol.218, p.392-401
Hauptverfasser:	Melymuk, Lisa, Bohlin-Nizzetto, Pernilla, Kukučka, Petr, Vojta, Šimon, Kalina, Jiří, Čupr, Pavel, Klánová, Jana
Format:	Artikel
Sprache:	eng
Schlagworte:	Air Pollutants - analysis Air Pollution, Indoor - analysis Czech Republic Flame retardants Flame Retardants - analysis Halogenated Diphenyl Ethers - analysis Housing - standards Humans Indoor air Indoor sources Inhalation Exposure - analysis Male PCBs Polychlorinated Biphenyls - analysis Seasonal trends Seasons Volatilization
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container_title	Environmental pollution (1987)
container_volume	218
creator	Melymuk, Lisa Bohlin-Nizzetto, Pernilla Kukučka, Petr Vojta, Šimon Kalina, Jiří Čupr, Pavel Klánová, Jana
description	This study is a systematic assessment of different houses and apartments, their ages and renovation status, indoors and outdoors, and in summer vs. winter, with a goal of bringing some insight into the major sources of semivolatile organic compounds (SVOCs) and their variability. Indoor and outdoor air concentrations of polychlorinated biphenyls (PCBs), polybrominated diphenyl ethers (PBDEs) and novel flame retardants (NFRs) were determined at 17–20 homes in Czech Republic in winter and summer. Indoor concentrations were consistently higher than outdoor concentrations for all compounds; indoor/outdoor ratios ranged from 2–20, with larger differences for the current use NFRs than for legacy PCBs. Seasonal trends differed according to the use status of the compounds: the PCBs had higher summer concentrations both indoors and outdoors, suggesting volatilization as a source of PCBs to air. PBDEs had no seasonal trends indoors, but higher summer concentrations outdoors. Several NFRs (TBX, PBT, PBEB) had higher indoor concentrations in winter relative to summer. The seasonal trends in the flame retardants suggest differences in air exchange rates due to lower building ventilation in winter could be driving the concentration differences. Weak relationships were found with building age for PCBs, with higher concentrations indoors in buildings built before 1984, and with the number of electronics for PBDEs, with higher concentrations in rooms with three or more electronic items. Indoor environments are the primary contributor to human inhalation exposure to these SVOCs, due to the high percentage of time spent indoors (>90%) combined with the higher indoors levels for all the studied compounds. Exposure via the indoor environment contributed ∼96% of the total chronic daily intake via inhalation in summer and ∼98% in winter. [Display omitted] •Indoor concentrations were higher than outdoor for all flame retardants.•Winter indoor flame retardant concentrations were generally higher than summer.•Indoor and outdoor PCB levels were higher than PBDE, NFR, despite 30 years since ban.•Higher concentrations of PCBs were found in homes built during the time of PCB use.•Higher concentrations of PBDEs were found in homes with more electronics. Systematic seasonal comparison of residential indoor and outdoor air concentrations of SVOCs shows differing seasonal distributions for current use and legacy compounds.
doi_str_mv	10.1016/j.envpol.2016.07.018
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Indoor and outdoor air concentrations of polychlorinated biphenyls (PCBs), polybrominated diphenyl ethers (PBDEs) and novel flame retardants (NFRs) were determined at 17–20 homes in Czech Republic in winter and summer. Indoor concentrations were consistently higher than outdoor concentrations for all compounds; indoor/outdoor ratios ranged from 2–20, with larger differences for the current use NFRs than for legacy PCBs. Seasonal trends differed according to the use status of the compounds: the PCBs had higher summer concentrations both indoors and outdoors, suggesting volatilization as a source of PCBs to air. PBDEs had no seasonal trends indoors, but higher summer concentrations outdoors. Several NFRs (TBX, PBT, PBEB) had higher indoor concentrations in winter relative to summer. The seasonal trends in the flame retardants suggest differences in air exchange rates due to lower building ventilation in winter could be driving the concentration differences. Weak relationships were found with building age for PCBs, with higher concentrations indoors in buildings built before 1984, and with the number of electronics for PBDEs, with higher concentrations in rooms with three or more electronic items. Indoor environments are the primary contributor to human inhalation exposure to these SVOCs, due to the high percentage of time spent indoors (>90%) combined with the higher indoors levels for all the studied compounds. Exposure via the indoor environment contributed ∼96% of the total chronic daily intake via inhalation in summer and ∼98% in winter. [Display omitted] •Indoor concentrations were higher than outdoor for all flame retardants.•Winter indoor flame retardant concentrations were generally higher than summer.•Indoor and outdoor PCB levels were higher than PBDE, NFR, despite 30 years since ban.•Higher concentrations of PCBs were found in homes built during the time of PCB use.•Higher concentrations of PBDEs were found in homes with more electronics. 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Indoor and outdoor air concentrations of polychlorinated biphenyls (PCBs), polybrominated diphenyl ethers (PBDEs) and novel flame retardants (NFRs) were determined at 17–20 homes in Czech Republic in winter and summer. Indoor concentrations were consistently higher than outdoor concentrations for all compounds; indoor/outdoor ratios ranged from 2–20, with larger differences for the current use NFRs than for legacy PCBs. Seasonal trends differed according to the use status of the compounds: the PCBs had higher summer concentrations both indoors and outdoors, suggesting volatilization as a source of PCBs to air. PBDEs had no seasonal trends indoors, but higher summer concentrations outdoors. Several NFRs (TBX, PBT, PBEB) had higher indoor concentrations in winter relative to summer. The seasonal trends in the flame retardants suggest differences in air exchange rates due to lower building ventilation in winter could be driving the concentration differences. Weak relationships were found with building age for PCBs, with higher concentrations indoors in buildings built before 1984, and with the number of electronics for PBDEs, with higher concentrations in rooms with three or more electronic items. Indoor environments are the primary contributor to human inhalation exposure to these SVOCs, due to the high percentage of time spent indoors (>90%) combined with the higher indoors levels for all the studied compounds. Exposure via the indoor environment contributed ∼96% of the total chronic daily intake via inhalation in summer and ∼98% in winter. [Display omitted] •Indoor concentrations were higher than outdoor for all flame retardants.•Winter indoor flame retardant concentrations were generally higher than summer.•Indoor and outdoor PCB levels were higher than PBDE, NFR, despite 30 years since ban.•Higher concentrations of PCBs were found in homes built during the time of PCB use.•Higher concentrations of PBDEs were found in homes with more electronics. Systematic seasonal comparison of residential indoor and outdoor air concentrations of SVOCs shows differing seasonal distributions for current use and legacy compounds.</description><subject>Air Pollutants - analysis</subject><subject>Air Pollution, Indoor - analysis</subject><subject>Czech Republic</subject><subject>Flame retardants</subject><subject>Flame Retardants - analysis</subject><subject>Halogenated Diphenyl Ethers - analysis</subject><subject>Housing - standards</subject><subject>Humans</subject><subject>Indoor air</subject><subject>Indoor sources</subject><subject>Inhalation Exposure - analysis</subject><subject>Male</subject><subject>PCBs</subject><subject>Polychlorinated Biphenyls - analysis</subject><subject>Seasonal trends</subject><subject>Seasons</subject><subject>Volatilization</subject><issn>0269-7491</issn><issn>1873-6424</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp9UMFq3DAQFSWl2aT9g1J8zMXOSLJl-VJoljYJBFpoeyuIsTWmWrzSVtIG8vfRZtMcc3ozw3sz8x5jHzk0HLi63DTk73dhaUTpGugb4PoNW3Hdy1q1oj1hKxBqqPt24KfsLKUNALRSynfsVPSt5GpQK_bnJ2EKHheXHyr0tnLehhAvwz4fsIq0YHbBp79ul6owV_OCWyrjjNGiz-lJ9GN9lYqyjJOz5LPDpUIX37O3My6JPjzjOfv97euv9U199_36dv3lrp7k0OVaTVJTP2I3254rkMWIti3xadZCWy66UZeCz0ojdB0fUUCHNCotAZBDJ8_ZxXHvLoZ_e0rZbF2aaFnQU9gnw7XoBwHtAIXaHqlTDClFms0uui3GB8PBHHI1G3PM1RxyNdCb8k6RfXq-sB-3ZF9E_4MshM9HAhWf946iSZMjP5F1kaZsbHCvX3gEubKLbg</recordid><startdate>201611</startdate><enddate>201611</enddate><creator>Melymuk, Lisa</creator><creator>Bohlin-Nizzetto, Pernilla</creator><creator>Kukučka, Petr</creator><creator>Vojta, Šimon</creator><creator>Kalina, Jiří</creator><creator>Čupr, Pavel</creator><creator>Klánová, Jana</creator><general>Elsevier Ltd</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7ST</scope><scope>7TV</scope><scope>7U7</scope><scope>C1K</scope><scope>SOI</scope><orcidid>https://orcid.org/0000-0001-6042-7688</orcidid></search><sort><creationdate>201611</creationdate><title>Seasonality and indoor/outdoor relationships of flame retardants and PCBs in residential air</title><author>Melymuk, Lisa ; 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Indoor and outdoor air concentrations of polychlorinated biphenyls (PCBs), polybrominated diphenyl ethers (PBDEs) and novel flame retardants (NFRs) were determined at 17–20 homes in Czech Republic in winter and summer. Indoor concentrations were consistently higher than outdoor concentrations for all compounds; indoor/outdoor ratios ranged from 2–20, with larger differences for the current use NFRs than for legacy PCBs. Seasonal trends differed according to the use status of the compounds: the PCBs had higher summer concentrations both indoors and outdoors, suggesting volatilization as a source of PCBs to air. PBDEs had no seasonal trends indoors, but higher summer concentrations outdoors. Several NFRs (TBX, PBT, PBEB) had higher indoor concentrations in winter relative to summer. The seasonal trends in the flame retardants suggest differences in air exchange rates due to lower building ventilation in winter could be driving the concentration differences. Weak relationships were found with building age for PCBs, with higher concentrations indoors in buildings built before 1984, and with the number of electronics for PBDEs, with higher concentrations in rooms with three or more electronic items. Indoor environments are the primary contributor to human inhalation exposure to these SVOCs, due to the high percentage of time spent indoors (>90%) combined with the higher indoors levels for all the studied compounds. Exposure via the indoor environment contributed ∼96% of the total chronic daily intake via inhalation in summer and ∼98% in winter. [Display omitted] •Indoor concentrations were higher than outdoor for all flame retardants.•Winter indoor flame retardant concentrations were generally higher than summer.•Indoor and outdoor PCB levels were higher than PBDE, NFR, despite 30 years since ban.•Higher concentrations of PCBs were found in homes built during the time of PCB use.•Higher concentrations of PBDEs were found in homes with more electronics. Systematic seasonal comparison of residential indoor and outdoor air concentrations of SVOCs shows differing seasonal distributions for current use and legacy compounds.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>27431696</pmid><doi>10.1016/j.envpol.2016.07.018</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0001-6042-7688</orcidid></addata></record>
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subjects	Air Pollutants - analysis Air Pollution, Indoor - analysis Czech Republic Flame retardants Flame Retardants - analysis Halogenated Diphenyl Ethers - analysis Housing - standards Humans Indoor air Indoor sources Inhalation Exposure - analysis Male PCBs Polychlorinated Biphenyls - analysis Seasonal trends Seasons Volatilization
title	Seasonality and indoor/outdoor relationships of flame retardants and PCBs in residential air
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