Photochemical Oxidation of Oil Reduced the Effectiveness of Aerial Dispersants Applied in Response to the Deepwater Horizon Spill
Chemical dispersants are one of many tools used to mitigate the overall environmental impact of oil spills. In principle, dispersants break up floating oil into small droplets that disperse into the water column where they are subject to multiple fate and transport processes. The effectiveness of di...
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| Published in | Environmental science & technology letters Vol. 5; no. 5; pp. 226 - 231 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
08.05.2018
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| Subjects | |
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| Abstract | Chemical dispersants are one of many tools used to mitigate the overall environmental impact of oil spills. In principle, dispersants break up floating oil into small droplets that disperse into the water column where they are subject to multiple fate and transport processes. The effectiveness of dispersants typically decreases as oil weathers in the environment. This decrease in effectiveness is often attributed to evaporation and emulsification, with the contribution of photochemical weathering assumed to be negligible. Here, we aim to test this assumption using Macondo well oil released during the Deepwater Horizon spill as a case study. Our results indicate that the effects of photochemical weathering on Deepwater Horizon oil properties and dispersant effectiveness can greatly outweigh the effects of evaporative weathering. The decrease in dispersant effectiveness after light exposure was principally driven by the decreased solubility of photo-oxidized crude oil residues in the solvent system that comprises COREXIT EC9500A. Kinetic modeling combined with geospatial analysis demonstrated that a considerable fraction of aerial applications targeting Deepwater Horizon surface oil had low dispersant effectiveness. Collectively, the results of this study challenge the paradigm that photochemical weathering has a negligible impact on the effectiveness of oil spill response and provide critical insights into the “window of opportunity” to apply chemical dispersants in response to oil spills in sunlit waters. |
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| AbstractList | Chemical dispersants are one of many tools used to mitigate the overall
environmental impact of oil spills. In principle, dispersants break up floating
oil into small droplets that disperse into the water column where they are
subject to multiple fate and transport processes. The effectiveness of
dispersants typically decreases as oil weathers in the environment. This
decrease in effectiveness is often attributed to evaporation and emulsification,
with the contribution of photochemical weathering assumed to be negligible.
Here, we aim to test this assumption using Macondo well oil released during the
Deepwater Horizon
spill as a case study. Our results
indicate that the effects of photochemical weathering on
Deepwater
Horizon
oil properties and dispersant effectiveness can greatly
outweigh the effects of evaporative weathering. The decrease in dispersant
effectiveness after light exposure was principally driven by the decreased
solubility of photo-oxidized crude oil residues in the solvent system that
comprises COREXIT EC9500A. Kinetic modeling combined with geospatial analysis
demonstrated that a considerable fraction of aerial applications targeting
Deepwater Horizon
surface oil had low dispersant
effectiveness. Collectively, the results of this study challenge the paradigm
that photochemical weathering has a negligible impact on the effectiveness of
oil spill response and provide critical insights into the “window of
opportunity” to apply chemical dispersants in response to oil spills in
sunlit waters. Chemical dispersants are one of many tools used to mitigate the overall environmental impact of oil spills. In principle, dispersants break up floating oil into small droplets that disperse into the water column where they are subject to multiple fate and transport processes. The effectiveness of dispersants typically decreases as oil weathers in the environment. This decrease in effectiveness is often attributed to evaporation and emulsification, with the contribution of photochemical weathering assumed to be negligible. Here, we aim to test this assumption using Macondo well oil released during the Deepwater Horizon spill as a case study. Our results indicate that the effects of photochemical weathering on Deepwater Horizon oil properties and dispersant effectiveness can greatly outweigh the effects of evaporative weathering. The decrease in dispersant effectiveness after light exposure was principally driven by the decreased solubility of photo-oxidized crude oil residues in the solvent system that comprises COREXIT EC9500A. Kinetic modeling combined with geospatial analysis demonstrated that a considerable fraction of aerial applications targeting Deepwater Horizon surface oil had low dispersant effectiveness. Collectively, the results of this study challenge the paradigm that photochemical weathering has a negligible impact on the effectiveness of oil spill response and provide critical insights into the “window of opportunity” to apply chemical dispersants in response to oil spills in sunlit waters. |
| Author | Armstrong, Cassia J Conmy, Robyn N French-McCay, Deborah P Reddy, Christopher M Ward, Collin P |
| AuthorAffiliation | Department of Marine Chemistry and Geochemistry Department of Chemistry National Risk Management Research Laboratory, Office of Research and Development U.S. Environmental Protection Agency Trinity College RPS ASA |
| AuthorAffiliation_xml | – name: National Risk Management Research Laboratory, Office of Research and Development – name: Department of Chemistry – name: Department of Marine Chemistry and Geochemistry – name: U.S. Environmental Protection Agency – name: Trinity College – name: RPS ASA – name: 1 Department of Marine Chemistry and Geochemistry, Woods Hole Oceanographic Institution, Woods Hole, Massachusetts 02543, USA – name: 3 RPS ASA, South Kingstown, Rhode Island 02879, USA – name: 2 National Risk Management Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, Cincinnati, OH, 45268, USA |
| Author_xml | – sequence: 1 givenname: Collin P orcidid: 0000-0003-2979-0280 surname: Ward fullname: Ward, Collin P email: cward@whoi.edu organization: Department of Marine Chemistry and Geochemistry – sequence: 2 givenname: Cassia J surname: Armstrong fullname: Armstrong, Cassia J organization: Trinity College – sequence: 3 givenname: Robyn N surname: Conmy fullname: Conmy, Robyn N organization: U.S. Environmental Protection Agency – sequence: 4 givenname: Deborah P surname: French-McCay fullname: French-McCay, Deborah P organization: RPS ASA – sequence: 5 givenname: Christopher M surname: Reddy fullname: Reddy, Christopher M organization: Department of Marine Chemistry and Geochemistry |
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| CitedBy_id | crossref_primary_10_1021_acs_est_1c06149 crossref_primary_10_1016_j_marpolbul_2022_113464 crossref_primary_10_1021_acs_est_3c02962 crossref_primary_10_1021_acs_analchem_0c05230 crossref_primary_10_1021_acs_energyfuels_4c03951 crossref_primary_10_1038_s43017_020_0046_x crossref_primary_10_1073_pnas_1907155116 crossref_primary_10_1016_j_jhazmat_2022_129260 crossref_primary_10_1029_2019GL082867 crossref_primary_10_1016_j_colsurfa_2019_04_090 crossref_primary_10_3389_fmars_2021_576747 crossref_primary_10_1016_j_orggeochem_2020_104126 crossref_primary_10_1016_j_envpol_2020_116118 crossref_primary_10_1039_D3EM00248A crossref_primary_10_1007_s11270_022_05706_6 crossref_primary_10_1021_acs_est_2c00251 crossref_primary_10_1007_s11356_023_26546_9 crossref_primary_10_1021_acs_langmuir_9b03124 crossref_primary_10_1016_j_marpolbul_2023_115118 crossref_primary_10_1016_j_marpolbul_2021_112049 crossref_primary_10_1126_sciadv_abl7605 crossref_primary_10_1016_j_jece_2023_111692 crossref_primary_10_1016_j_watres_2019_115183 crossref_primary_10_1021_acs_energyfuels_4c03107 crossref_primary_10_1080_10408347_2022_2039093 crossref_primary_10_1016_j_colsurfa_2020_125518 crossref_primary_10_1021_acs_est_4c05169 crossref_primary_10_1039_D0EM00027B crossref_primary_10_1016_j_jwpe_2022_102931 crossref_primary_10_1021_acs_est_8b01001 crossref_primary_10_7901_2169_3358_2021_1_688899 crossref_primary_10_3389_fmars_2021_642160 crossref_primary_10_1021_jasms_4c00266 |
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| References | ref17/cit17 ref6/cit6 ref10/cit10 Sorial G. A. (ref16/cit16) 2006 ref3/cit3 Fingas M. (ref7/cit7) 2003; 2 ref19/cit19 ref21/cit21 National Research Council of the National Academies (ref2/cit2) 2005 ref11/cit11 ref12/cit12 ref15/cit15 Fingas M. (ref9/cit9) 2013 French-McCay D. (ref22/cit22) 2017 (ref18/cit18) 2011 Hollebone B. (ref13/cit13) 2017 ref14/cit14 ref8/cit8 ref5/cit5 ref4/cit4 ref20/cit20 National Research Council (ref1/cit1) 1989 |
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| Snippet | Chemical dispersants are one of many tools used to mitigate the overall environmental impact of oil spills. In principle, dispersants break up floating oil... Chemical dispersants are one of many tools used to mitigate the overall environmental impact of oil spills. In principle, dispersants break up floating oil... |
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| SubjectTerms | case studies dispersants droplets emulsifying environmental impact evaporation oil spills oils oxidation petroleum photochemistry solubility solvents weathering |
| Title | Photochemical Oxidation of Oil Reduced the Effectiveness of Aerial Dispersants Applied in Response to the Deepwater Horizon Spill |
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