Table of Contents

• Dataset Description
• Related Publications
• Parameters
• Project Information
• Funding

These results were published in the open access article "Partial Photochemical Oxidation Was a Dominant Fate of Deepwater Horizon Surface Oil" (Ward et al., 2018).

Related Datasets:
* Sea surface oil: https://www.bco-dmo.org/dataset/771924
* Deposited oil: https://www.bco-dmo.org/dataset/771927
* Photochemical oxidation: https://www.bco-dmo.org/dataset/771933

NSF abstract:
More than 400,000 tons of petroleum hydrocarbons are released annually into the ocean, where they are subject to physical, chemical and biological processes, known as weathering, that are known to remove select hydrocarbons from the ocean. However, little attention has been given to the residues left by the weathering of oil, and studies indicate that oxygenation of these hydrocarbons can play a part in the formation of recalcitrant tar and toxic compounds. To address this gap, researchers from Woods Hole Oceanographic Institution, University of Mary Washington, and University of California Santa Barbara will conduct research to lay a scientific foundation for understanding 1) which processes control the formation of oxygenated hydrocarbons, 2) the rates of these processes, 3) the identity of the major products, 4) the rates at which they are formed and destroyed, and 5) for distinguishing photochemical oxygenation from biological oxygenation. The results from these experiments will contribute to a better understanding of the petroleum oxygenation processes and the environmental fate of understudied oxygenation products.

Broader Impacts: This study will provide for several undergraduates and two postdoctoral scholars to be trained in innovative analytical and experimental techniques. The results of this effort will help regulatory agencies to define new analytical methods and target compounds for oil spill research, and will add to our understanding regarding the fate and impacts of hydrocarbons released into the ocean.