Targeted Petroleomics: Analytical Investigation of Macondo Well Oil Oxidation Products from Pensacola Beach
journal contributionposted on 17.12.2015, 02:43 by Brian M. Ruddy, Markus Huettel, Joel E. Kostka, Vladislav V. Lobodin, Benjamin J. Bythell, Amy M. McKenna, Christoph Aeppli, Christopher M. Reddy, Robert K. Nelson, Alan G. Marshall, Ryan P. Rodgers
Of the estimated 5 million barrels of crude oil released into the Gulf of Mexico from the Deepwater Horizon oil spill, a fraction washed ashore onto sandy beaches from Louisiana to the Florida panhandle. Here, we compare the detailed molecular analysis of hydrocarbons in oiled sands from Pensacola Beach to the Macondo wellhead oil (MWO) by electrospray (ESI) and atmospheric pressure photoionization (APPI) Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) to identify major environmental transformation products of polar, high molecular weight (C>25) “heavy ends” (high-boiling species) inaccessible by gas chromatography. The petrogenic material isolated from the Pensacola Beach sand displays greater than 2-fold higher molecular complexity than the MWO constituents, most notably in oxygenated species absent in the parent MWO. Surprisingly, the diverse oxygenated hydrocarbons in the Pensacola Beach sediment extracts were dominant in all ionization modes investigated, (±) ESI and (±) APPI. Thus, the molecular-level information highlighted oxygenated species for subsequent “targeted” analyses. First, time-of-flight mass spectrometry analysis of model compounds attributes the unusually large oxygen signal magnitude from positive electrospray to ketone transformation products (O1–O8 classes). Next, negative electrospray mass spectrometry reveals carboxylic acid transformation products. Two-dimensional gas chromatography with mass spectrometry analysis of anion-exchange chromatographic fractions unequivocally verifies the presence of abundant alkyl ketone fragments in sand extracts, and FT-ICR MS analysis reveals the distribution of high-boiling ketone, carboxylic, and higher numbered (3+) oxygen-containing transformation products too polar to be analyzed by gas chromatography. The results expand compositional coverage of oxygen-containing functionalities beyond the classic naphthenic acid type species to complex/mixed ketone, hydroxyl, and carboxylic acid classes of molecules that have been recently identified in produced water, emulsions, and petroleum production deposits.
Read the peer-reviewed publication
model compounds attributeselectrospray mass spectrometryion cyclotron resonance mass spectrometrynaphthenic acid type speciespetroleum production depositsmass spectrometry analysisMWOhydrocarbonPensacola Beach sediment extractsPensacola Beach sand displaysOil Oxidation Productscarboxylic acid classescarboxylic acid transformation productsketone transformation productsalkyl ketone fragmentsDeepwater Horizon oil spillfractionAPPIoxygenated speciesMacondo wellhead oilgas chromatographyMSESIoxygen signal magnitude