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Oxygen isotopes (delta O-18) trace photochemical hydrocarbon oxidation at the sea surface (2019)

Ward, Collin P. ; Sharpless, Charles M. ; Valentine, David L. ; [et al.]

American Geophysical Union

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Publication Date: 2022-10-26

Description: Author Posting. © American Geophysical Union, 2019. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Geophysical Research Letters 46(12), (2019): 6745-6754, doi:10.1029/2019GL082867.

Description: Although photochemical oxidation is an environmental process that drives organic carbon (OC) cycling, its quantitative detection remains analytically challenging. Here, we use samples from the Deepwater Horizon oil spill to test the hypothesis that the stable oxygen isotope composition of oil (δ18OOil) is a sensitive marker for photochemical oxidation. In less than one‐week, δ18OOil increased from −0.6 to 7.2‰, a shift representing ~25% of the δ18OOC dynamic range observed in nature. By accounting for different oxygen sources (H2O or O2) and kinetic isotopic fractionation of photochemically incorporated O2, which was −9‰ for a wide range of OC sources, a mass balance was established for the surface oil's elemental oxygen content and δ18O. This δ18O‐based approach provides novel insights into the sources and pathways of hydrocarbon photo‐oxidation, thereby improving our understanding of the fate and transport of petroleum hydrocarbons in sunlit waters, and our capacity to respond effectively to future spills.

Description: We thank Robert Ricker and Greg Baker (NOAA) for helping secure the oil residues, James Payne (Payne Environmental Consultants, Inc.) for collecting many of the surface oil residues, Joy Matthews (UC Davis) for exceptional assistance in preparing and analyzing the oil residues for oxygen content and isotopes, Hank Levi and Art Gatenby at CSC Scientific Company for assistance with the water content measurements, Robyn Comny (US EPA) for providing the Alaska North Slope oil, and Rose Cory (UMich) for discussions about our findings. Special thanks to John Hayes who provided constructive feedback on a preliminary version of this dataset prior to his passing in February of 2017. We thank Alex Sessions (CalTech) for his constructive feedback during the review process. This work was supported, in part, by National Science Foundation grants RAPID OCE‐1043976 (CMR), OCE‐1333148 (CMR), OCE‐1333026 (CMS), OCE‐1333162 (DLV), OCE‐1841092 (CPW), NASA NESSF NNX15AR62H (KMS), the Gulf of Mexico Research Initiative grants ‐ 015, SA 16‐30, and DEEP‐C consortium, a fellowship through the Hansewissenschaftskolleg (Institute for Advanced Studies) to SDW, and assistant scientist salary support from the Frank and Lisina Hoch Endowed Fund (CPW).

Description: 2019-11-30

Keywords: Petroleum hydrocarbons ; Photochemical oxidation ; Deepwater Horizon ; Stable oxygen isotopes ; Organic carbon

Repository Name: Woods Hole Open Access Server

Type: Article

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Plastic formulation is an emerging control of its photochemical fate in the ocean (2021)

Walsh, Anna N. ; Reddy, Christopher M. ; Niles, Sydney F. ; [et al.]

American Chemical Society

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Publication Date: 2022-10-26

Description: © The Author(s), 2021. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Walsh, A. N., Reddy, C. M., Niles, S. F., McKenna, A. M., Hansel, C. M., & Ward, C. P. Plastic formulation is an emerging control of its photochemical fate in the ocean. Environmental Science & Technology, 55(18), (2021): 12383–12392, https://doi.org/10.1021/acs.est.1c02272.

Description: Sunlight exposure is a control of long-term plastic fate in the environment that converts plastic into oxygenated products spanning the polymer, dissolved, and gas phases. However, our understanding of how plastic formulation influences the amount and composition of these photoproducts remains incomplete. Here, we characterized the initial formulations and resulting dissolved photoproducts of four single-use consumer polyethylene (PE) bags from major retailers and one pure PE film. Consumer PE bags contained 15–36% inorganic additives, primarily calcium carbonate (13–34%) and titanium dioxide (TiO2; 1–2%). Sunlight exposure consistently increased production of dissolved organic carbon (DOC) relative to leaching in the dark (3- to 80-fold). All consumer PE bags produced more DOC during sunlight exposure than the pure PE (1.2- to 2.0-fold). The DOC leached after sunlight exposure increasingly reflected the 13C and 14C isotopic composition of the plastic. Ultrahigh resolution Fourier transform ion cyclotron resonance mass spectrometry revealed that sunlight exposure substantially increased the number of DOC formulas detected (1.1- to 50-fold). TiO2-containing bags photochemically degraded into the most compositionally similar DOC, with 68–94% of photoproduced formulas in common with at least one other TiO2-containing bag. Conversely, only 28% of photoproduced formulas from the pure PE were detected in photoproduced DOC from the consumer PE. Overall, these findings suggest that plastic formulation, especially TiO2, plays a determining role in the amount and composition of DOC generated by sunlight. Consequently, studies on pure, unweathered polymers may not accurately represent the fates and impacts of the plastics entering the ocean.

Description: Funding was provided by the Seaver Institute, the Gerstner Family Foundation, Woods Hole Oceanographic Institution, and the National Science Foundation Graduate Research Fellowship Program (A.N.W.). The Ion Cyclotron Resonance user facility at the National High Magnetic Field Laboratory is supported by the National Science Foundation Division of Chemistry and Division of Materials Research through DMR-1644779 and the State of Florida.

Keywords: Plastic pollution ; Marine debris ; Additives ; Dissolved organic carbon ; Photochemical oxidation ; FT-ICR-MS ; Titanium dioxide

Repository Name: Woods Hole Open Access Server

Type: Article

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