Recent field trials and tanker accidents have shown that burning crude oil
at sea can be an effective response for marine oil spills. Nevertheless, th
ere is concern that the residue may have elevated levels of potentially tox
ic pyrogenic polycyclic aromatic hydrocarbons. We have simulated a marine o
il slick burn using Statfjord crude oil, a light paraffinic North Sea crude
. The burn was over seawater to an efficiency of 85%, typical of efficienci
es achieved in the field. We have used gas chromatography coupled with mass
spectrometry to examine the polycyclic aromatic hydrocarbons present in th
e crude oil burn residue and used hopane as a conserved internal marker in
the oil to allow us to quantify the generation of pyrogenic compounds. The
concentrations of several of the pyrogenic aromatic compounds were somewhat
enriched in the residue, but these increases were outweighed by the mass o
f oil consumed in the burn. In situ burning substantially reduced the total
amount of polycyclic aromatic hydrocarbons left on the water surface after
the spill.