Pivotal Role of Snow Deposition and Melting Driving Fluxes of Polycyclic Aromatic Hydrocarbons at Coastal Livingston Island (Antarctica)

The atmosphere–land–ocean dynamics of semivolatile organic compounds in polar regions is poorly understood, also for the abundant and ubiquitous polycyclic aromatic hydrocarbons (PAHs). We report the concentrations and fluxes of PAHs in a polar coastal ecosystem (Livingston Island, Antarctica). From...

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Veröffentlicht in:	Environmental science & technology 2018-11, Vol.52 (21), p.12327-12337
Hauptverfasser:	Casal, Paulo, Cabrerizo, Ana, Vila-Costa, Maria, Pizarro, Mariana, Jiménez, Begoña, Dachs, Jordi
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemical analysis Coastal ecosystems Coastal environments Deposition Fluxes Fugacity Lichens Ocean dynamics Organic compounds Plankton Polar environments Polycyclic aromatic hydrocarbons Seawater Snow Snowmelt Soils Summer VOCs Volatile organic compounds Volatilization Water analysis
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container_title	Environmental science & technology
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creator	Casal, Paulo Cabrerizo, Ana Vila-Costa, Maria Pizarro, Mariana Jiménez, Begoña Dachs, Jordi
description	The atmosphere–land–ocean dynamics of semivolatile organic compounds in polar regions is poorly understood, also for the abundant and ubiquitous polycyclic aromatic hydrocarbons (PAHs). We report the concentrations and fluxes of PAHs in a polar coastal ecosystem (Livingston Island, Antarctica). From late spring (December 2014) to late summer (February 2015), we sampled air, snow, coastal seawater, plankton, and the fugacity in soils and snow. The concentrations of PAHs in seawater were low but increased during the austral summer. The PAH concentrations in snow were significantly higher than in coastal seawater. Soil–air fugacity ratios showed a net volatilization of PAH when soils were covered with lichens, and close to air–soil equilibrium for bare soils. Concentrations in surface snow were also close to equilibrium with atmospheric PAHs. Conversely, there was a net diffusive deposition of PAHs to coastal seawater during late spring, but a net volatilization from seawater during late summer. Volatilization fluxes were correlated with seawater temperature and salinity, consistent with a key role of snowmelt to the fluxes and dissolved phase concentrations during the austral summer. The comprehensive assessment provided here shows that the fugacity amplification in snow is transferred to soils and coastal seawater supporting PAH concentrations and fluxes.
doi_str_mv	10.1021/acs.est.8b03640
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We report the concentrations and fluxes of PAHs in a polar coastal ecosystem (Livingston Island, Antarctica). From late spring (December 2014) to late summer (February 2015), we sampled air, snow, coastal seawater, plankton, and the fugacity in soils and snow. The concentrations of PAHs in seawater were low but increased during the austral summer. The PAH concentrations in snow were significantly higher than in coastal seawater. Soil–air fugacity ratios showed a net volatilization of PAH when soils were covered with lichens, and close to air–soil equilibrium for bare soils. Concentrations in surface snow were also close to equilibrium with atmospheric PAHs. Conversely, there was a net diffusive deposition of PAHs to coastal seawater during late spring, but a net volatilization from seawater during late summer. Volatilization fluxes were correlated with seawater temperature and salinity, consistent with a key role of snowmelt to the fluxes and dissolved phase concentrations during the austral summer. 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Sci. Technol</addtitle><description>The atmosphere–land–ocean dynamics of semivolatile organic compounds in polar regions is poorly understood, also for the abundant and ubiquitous polycyclic aromatic hydrocarbons (PAHs). We report the concentrations and fluxes of PAHs in a polar coastal ecosystem (Livingston Island, Antarctica). From late spring (December 2014) to late summer (February 2015), we sampled air, snow, coastal seawater, plankton, and the fugacity in soils and snow. The concentrations of PAHs in seawater were low but increased during the austral summer. The PAH concentrations in snow were significantly higher than in coastal seawater. Soil–air fugacity ratios showed a net volatilization of PAH when soils were covered with lichens, and close to air–soil equilibrium for bare soils. Concentrations in surface snow were also close to equilibrium with atmospheric PAHs. Conversely, there was a net diffusive deposition of PAHs to coastal seawater during late spring, but a net volatilization from seawater during late summer. Volatilization fluxes were correlated with seawater temperature and salinity, consistent with a key role of snowmelt to the fluxes and dissolved phase concentrations during the austral summer. 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subjects	Chemical analysis Coastal ecosystems Coastal environments Deposition Fluxes Fugacity Lichens Ocean dynamics Organic compounds Plankton Polar environments Polycyclic aromatic hydrocarbons Seawater Snow Snowmelt Soils Summer VOCs Volatile organic compounds Volatilization Water analysis
title	Pivotal Role of Snow Deposition and Melting Driving Fluxes of Polycyclic Aromatic Hydrocarbons at Coastal Livingston Island (Antarctica)
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