The rate of removal and the compositional changes of diesel in Antarctic marine sediment

Diesels and lubricants used at research stations can persist in terrestrial and marine sediments for decades, but knowledge of their effects on the surrounding environments is limited. In a 5 year in situ investigation, marine sediment spiked with Special Antarctic Blend (SAB) diesel was placed on t...

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Bibliographic Details
Published in:Science of The Total Environment
Main Authors: Woolfenden, ENM, Hince, G, Powell, SM, Stark, SC, Snape, I, Stark, JS, George, SC
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier Science Bv 2011
Subjects:
Environmental Sciences
Environmental Science and Management
Environmental Impact Assessment
Antarctic
Casey Station
O'Brien Bay
Antarc*
Antarctica
Online Access:https://doi.org/10.1016/j.scitotenv.2011.09.013
http://www.ncbi.nlm.nih.gov/pubmed/22018965
http://ecite.utas.edu.au/73095
Description
Summary:Diesels and lubricants used at research stations can persist in terrestrial and marine sediments for decades, but knowledge of their effects on the surrounding environments is limited. In a 5 year in situ investigation, marine sediment spiked with Special Antarctic Blend (SAB) diesel was placed on the seabed of O'Brien Bay near Casey Station, Antarctica and sampled after 5, 56, 65, 104 and 260 weeks. The rates and possible mechanisms of removal of the diesel from the marine sediments are presented here.The hydrocarbons within the spiked sediment were removed at an overall rate of 4.7 mg total petroleum hydrocarbons kg−1 sediment week−1, or 245 mg kg−1 year−1, although seasonal variation was evident. The concentration of total petroleum hydrocarbons fell markedly from 2020340 mg kg−1 to 800190 mg kg−1,but after 5 years the spiked sediment was still contaminated relative to natural organic matter (160 170 mg kg−1). Specific compounds in SAB diesel preferentially decreased in concentration, but not as would be expected if biodegradation was the sole mechanism responsible. Naphthalene was removed more readily than n-alkanes, suggesting that aqueous dissolution played a major role in the reduction of SAB diesel. 1,3,5,7- Teramethyladamantane and 1,3-dimethyladamantane were the most recalcitrant isomers in the spiked marinesediment. Dissolution of aromatic compounds from marine sediment increases the availability of more soluble, aromatic compounds in the water column. This could increase the area of contamination and potentially broaden the region impacted by ecotoxicological effects from shallow sediment dwelling fauna, as noted during biodegradation, to shallow (b19 m) water dwelling fauna.

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