Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans.

Lancaster Environment Centre

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https://doi.org/10.1021/es049240v
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Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans. / Jurado, Elena; Jaward, Foday M.; Lohmann, Rainer et al.
In: Environmental Science and Technology, Vol. 38, No. 19, 01.11.2004, p. 5505-5513.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Jurado, E, Jaward, FM, Lohmann, R, Jones, KC, Simo, R & Dachs, J 2004, 'Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans.', Environmental Science and Technology, vol. 38, no. 19, pp. 5505-5513. https://doi.org/10.1021/es049240v

APA

Jurado, E., Jaward, F. M., Lohmann, R., Jones, K. C., Simo, R., & Dachs, J. (2004). Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans. Environmental Science and Technology, 38(19), 5505-5513. https://doi.org/10.1021/es049240v

Vancouver

Jurado E, Jaward FM, Lohmann R, Jones KC, Simo R, Dachs J. Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans. Environmental Science and Technology. 2004 Nov 1;38(19):5505-5513. doi: 10.1021/es049240v

Author

Jurado, Elena ; Jaward, Foday M. ; Lohmann, Rainer et al. / Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans. In: Environmental Science and Technology. 2004 ; Vol. 38, No. 19. pp. 5505-5513.

Bibtex

@article{f7d48a75695b41739e4daa271bceebbf,

title = "Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans.",

abstract = "Atmospheric deposition to the oceans is a key process affecting the global dynamics and sinks of persistent organic pollutants (POPs). A new methodology that combines aerosol remote sensing measurements with measured POP aerosol-phase concentrations is presented to derive dry particulate depositional fluxes of POPs to the oceans. These fluxes are compared with those due to diffusive air−water exchange. For all polychlorinated biphenyl (PCB) congeners and lower chlorinated dibenzo-p-dioxins and furans (PCDD/Fs), air−water exchange dominates the dry deposition mechanism. However, this tendency reverses in some areas, such as in marine aerosol influenced areas and dust outflow regions, consistent with the important variability encountered for the depositional fluxes. Seasonal variability is mainly found in mid-high latitudes, due to the important influence of wind speed enhancing dry deposition fluxes and temperature as a driver of the gas-particle partitioning of POPs. The average dry aerosol deposition flux of ΣPCBs and ΣPCDD/Fs to the Atlantic Ocean is calculated to be in the order of 66 ng m-2 yr-1 and 9 ng m-2 yr-1 respectively. The total dry aerosol deposition of ∑PCBs and ∑PCDD/Fs to the Atlantic Ocean is estimated to be 2200 kg yr-1 and 500 kg yr-1, respectively, while the net air−water exchange is higher, 22000 kg ∑PCBs yr-1 for PCBs and 1300 kg ∑PCDD/Fs yr-1. Furthermore, it is suggested that marine aerosol plays an important role in scavenging atmospheric contaminants.",

author = "Elena Jurado and Jaward, {Foday M.} and Rainer Lohmann and Jones, {Kevin C.} and Rafel Simo and Jordi Dachs",

year = "2004",

month = nov,

day = "1",

doi = "10.1021/es049240v",

language = "English",

volume = "38",

pages = "5505--5513",

journal = "Environmental Science and Technology",

issn = "0013-936X",

publisher = "American Chemical Society",

number = "19",

}

RIS

TY - JOUR

T1 - Atmospheric dry deposition of persistent organic pollutants to the Atlantic and inferences for the global oceans.

AU - Jurado, Elena

AU - Jaward, Foday M.

AU - Lohmann, Rainer

AU - Jones, Kevin C.

AU - Simo, Rafel

AU - Dachs, Jordi

PY - 2004/11/1

Y1 - 2004/11/1

N2 - Atmospheric deposition to the oceans is a key process affecting the global dynamics and sinks of persistent organic pollutants (POPs). A new methodology that combines aerosol remote sensing measurements with measured POP aerosol-phase concentrations is presented to derive dry particulate depositional fluxes of POPs to the oceans. These fluxes are compared with those due to diffusive air−water exchange. For all polychlorinated biphenyl (PCB) congeners and lower chlorinated dibenzo-p-dioxins and furans (PCDD/Fs), air−water exchange dominates the dry deposition mechanism. However, this tendency reverses in some areas, such as in marine aerosol influenced areas and dust outflow regions, consistent with the important variability encountered for the depositional fluxes. Seasonal variability is mainly found in mid-high latitudes, due to the important influence of wind speed enhancing dry deposition fluxes and temperature as a driver of the gas-particle partitioning of POPs. The average dry aerosol deposition flux of ΣPCBs and ΣPCDD/Fs to the Atlantic Ocean is calculated to be in the order of 66 ng m-2 yr-1 and 9 ng m-2 yr-1 respectively. The total dry aerosol deposition of ∑PCBs and ∑PCDD/Fs to the Atlantic Ocean is estimated to be 2200 kg yr-1 and 500 kg yr-1, respectively, while the net air−water exchange is higher, 22000 kg ∑PCBs yr-1 for PCBs and 1300 kg ∑PCDD/Fs yr-1. Furthermore, it is suggested that marine aerosol plays an important role in scavenging atmospheric contaminants.

AB - Atmospheric deposition to the oceans is a key process affecting the global dynamics and sinks of persistent organic pollutants (POPs). A new methodology that combines aerosol remote sensing measurements with measured POP aerosol-phase concentrations is presented to derive dry particulate depositional fluxes of POPs to the oceans. These fluxes are compared with those due to diffusive air−water exchange. For all polychlorinated biphenyl (PCB) congeners and lower chlorinated dibenzo-p-dioxins and furans (PCDD/Fs), air−water exchange dominates the dry deposition mechanism. However, this tendency reverses in some areas, such as in marine aerosol influenced areas and dust outflow regions, consistent with the important variability encountered for the depositional fluxes. Seasonal variability is mainly found in mid-high latitudes, due to the important influence of wind speed enhancing dry deposition fluxes and temperature as a driver of the gas-particle partitioning of POPs. The average dry aerosol deposition flux of ΣPCBs and ΣPCDD/Fs to the Atlantic Ocean is calculated to be in the order of 66 ng m-2 yr-1 and 9 ng m-2 yr-1 respectively. The total dry aerosol deposition of ∑PCBs and ∑PCDD/Fs to the Atlantic Ocean is estimated to be 2200 kg yr-1 and 500 kg yr-1, respectively, while the net air−water exchange is higher, 22000 kg ∑PCBs yr-1 for PCBs and 1300 kg ∑PCDD/Fs yr-1. Furthermore, it is suggested that marine aerosol plays an important role in scavenging atmospheric contaminants.

U2 - 10.1021/es049240v

DO - 10.1021/es049240v

M3 - Journal article

VL - 38

SP - 5505

EP - 5513

JO - Environmental Science and Technology

JF - Environmental Science and Technology

SN - 0013-936X

IS - 19

ER -

Research

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