Cheung SG, Wai HY, Shin PKS, Fahlman B (2010) Fatty acid profiles of benthic environment associated with artificial reefs in subtropical Hong Kong. Mar Pollut Bull 60: 301-313
Clemente JS, Fedorak PM (2005) A review of the occurrence, analyses, toxicity and biodegradation of naphthenic acids. Chemosphere 60: 585-600
Colati KAP, Dalmaschio GP, de Castro EVR, Gomes AO, Vaz BG, Romão W (2013) Monitoring the liquid/liquid extraction of naphthenic acids in brazilian crude oil using electrospray ionization FT-ICR mass spectrometry (ESI FT-ICR MS). Fuel 108: 647-655
Dunn RJK, Welsh DT, Teasdale PR, Lee SY, Lemckert CJ, Meiziane T (2008) Investigating the distribution and sources of organic matter in surface sediment of Coombabah Lake (Australia) using elemental isotopic and fatty acid biomarkers. Cont Shelf Res 28: 2535-2549
Frank RA, Kavanagh R, Bumison BK, Aresnault G, Headley JV, Peru KM, Van Der Kraak G, Solomon KR (2008) Toxicity assessment of collected fractions from an extracted naphthenic acid mixture. Chemosphere 72: 1309-1314
Frank RA, Fischer K, Kavanagh R, Solomon KR (2009) Effect of carboxylic acid content on the acute toxicity of oil sands naphthenic acids. Environ Sci Technol 43: 266-271
Headley JV, Peru KM, Barrow MP (2016) Advances in mass spectrometric characterization of naphthenic acids fraction compounds in oil sands environmental samples and crude oil-A review. Mass Spectrom Rev 35: 311-328
Islam A, Cho Y, Yim UH, Shim WJ, Kim YH, Kim S (2013) The comparison of naturally weathered oil and artificially photo-degraded oil at the molecular level by a combination of SARA fractionation and FT-ICR MS. J Hazard Mater 263, Part 2: 404-411
Katarina Huba A, Gardinali PR (2016) Characterizatoin of a crude oil weathering series by ultrahigh-resolution mass spectrometry using multiple ionization modes. Sci Total Environ 563-564: 600-610
Kim S, Stanford LA, Rodgers RP, Marshall AG, Walters C, C,, Qian K, Wenger LM, Mankiewicz P (2005) Micorbialalteration of the acidic and neutral polar NSO compounds revealed by Fourier transform ion cyclotron resonance mass spectrometry. Org Geochem 36: 1117-1134
King S, Leaf P, Olson P, Ray M, Tarr M (2014) Photolytic and photocatalytic degrada-tion of surface oil from the Deepwater Horizon spill. Chemosphere 95: 415-422
Lee K, Prince RC, Greer CW, Doe KG, Wilson JEH, Cobanli SE, Wohlgeschaffen GD, Alroumi D, King T, Tremblay GH (2003) Composition and toxicity of residual Bunker C fuel oil in intertidal sediments after 30 years. Spill Sci Technol Bull 8: 187-199
Lemkau KL, McKenna A, Podgorski DC, Rodgers RP, Reddy CM (2014) Molecular evidence of heavy-oil weathering following the M/V Cosco Busan spill: Insights from Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. Environ Sci Technol 48: 3760-3767
Leshuk T, Wong T, Linley S, Peru KM, Headley JV, Gu F (2016) Solar photocatalytic degradation of naphthenic acids in oil sands process-affected water. Chemosphere 144: 1854-1861
McLafferty FW, Turecek F (1993) Interpretation of Mass Spectra. University Science Books, Mill Vallet, CA
Misiti TM, Tezel U, Pavlostathis SG (2014) Effect of alkyl side chain location and cyclicity on the aerobic biotransformation of naphthenic acids. Environ Sci Technol 45: 7431-7437
Owens EH (1978) Mechanical dispersal of oil stranded in the littoral zone. J Fish Res Borad Can 35: 563-572
Owens EH, Humphrey B, Sergy GA (1994) Natural cleaning of oil on two coarse-sediment shorelines on the Arctic and Atlantic coasts of Canada. Spill Sci Technol Bull 1: 37-52
Owens EH, Prince RC, Taylor RB (2008a) Natural attenuation of heavy oil on coarse sediment beaches: Results from Black Duck Cove, Nova Scotia, Canada, over 35 years following the ARROW oil spill, Proceedings of the 31th AMOP Technical Seminar on Environmental Contamination and Response. Environment Canada, Ottawa, ON, Canada, pp. 585-599
Owens EH, Taylor E, Humphrey B (2008b) The persistence and character of stranded oil on coarse-sediment beaches. Mar Pollut Bull 56: 14-26
Page JS, Kelly RT, Tang K, Smith RD (2007) Ionization and transmission efficiency in an electrospray ionization-mass spectrometry interface. J Am Soc Mass Spectrom 18: 1582-1590
Ray PZ, Chen H, Podgorski DC, McKenna AM, Tarr MA (2014) Sunlight creates oxygenated species in water-soluble fractions of Deepwater horizon oil. J Hazard Mater 280: 636-643
Rowland SJ, Scarlett AG, Jones D, West CE, Frank RA, Hewitt LM (2011) Sterodial aromatic 'naphthenic acids' in oil sands process-affected water: structural comparisons with environmental estrogens. Environ Sci Technol 45: 9806-9815
Thomas ML (1977) Long term biological effects of Bunker C oil in the intertidal zone. In: Wolfe DA (Editor), Fate and Effects of Petroleum Hydrocarbons in Marine Organisms and Ecosystems. Pergamon Press, New York, NY, pp. 238-245
Vandermeulen JH, Gordon JH (1976) Reentry of 5-year oil stranded Bunker C fuel oil from a low-energy beach into water, sediments, and biota of Chedabucto Bay, Nova Scotia. J Fish Res Borad Can 33: 2002-2010
Vandermeulen JH, Buckley DE 1985 The Kurdistan oil spill of March 16-17, 1979: Activities and observations of the Bedford Institute of Oceanography Response Team, Bedford Institute of Oceanography, Dartmouth, Nova Scotia
Vandermeulen JH, Singh JG (1994) ARROW oil spill, 1970-90: Persistence of 20yr weathered Bunker C fuel oil. Can J Fish Aquat Sci 51: 845-855
Vanderveen R, Mclnnis R, Brunswick P, Shang D, Headley JV, Peru KM, Hewitt LM (2017) Toxicity of naphthenic acids to invertebrates: Extracts from oil sands process-affected water versus commercial mixtures. Environ Pollut 227: 271-279
Vaughan PP, Wilson T, Kamerman R, Hagy ME, McKenna A, Chen H, Jeffrey WH (2016) Photochemical changes in water accommodated fractions of MC252 and surrogate oil created during solar exposure as determined by FT-ICR MS. Mar Pollut Bull 104: 262-268
Wang Z, Fingas M, Sergy G (1994) Study of 22-year-old ARROW oil samples using biomarker compounds by GC/MS. Environ Sci Technol 28: 1733-1746
Yang Z, Hollebone BP, Brown CE, Yang C, Wang Z, Zhang G, Lambert P, Landriault M, Shah K (2016) The photolytic behavior of diluted bitumen in simulated seawater by exposed to the natural sunlight. Fuel 186: 128-139
Yang Z, Hollebone HP, Laforest S, Lambert P, Brown CE, Yang C, Shah K, Landriault M, Goldthorp M (2017a) Occurrence, source and ecological assessment of baseline hydrocarbons in the intertidal marine sediments along the shoreline of Douglas Channel to Hecate Strait in British Columbia. Mar Pollut Bull 122: 450-455
Yang Z, Zhang G, Hollebone BP, Brown CE, Yang C, Lambert P, Wang Z, Landriault M, Shah K (2017b) Fate of oxygenated intermediates in solar irradiated diluted bitumen mixed with saltwater. Environmental Pollution 231: 622-634
Yang Z, Shah K, Laforest S, Hollebone BP, Lambert P, Brown CE, Yang C, Goldthorp M (2018) A study of the 46-year-old Arrow oil spill: Persistence of oil residues and variability in oil contamination along Chedabucto Bay, Nova Scotia, Canada. J Clean Prod 198: 1459-1473
Yue S, Ramsay BA, Wang J, Ramsay JA (2016) Biodegradation and detoxification of naphthenic acids in oil sands process affected waters. Sci Total Environ 572: 273-279
Zhang G, Yang C, Liu Y, Yang Z, Wang Z, Landriault M, Hollebone BP, Lambert P, Brown CE (2014) Improved approach to quantitatively and qualitatively characterize carboxylic acid isomers in commercial naphthenic acids mixture by HPLC-high resolution Orbitrap mass spectrometer technique, Proceedings of the 37th AMOP Technical Seminar on Environmental Contamination and Response. Environment and Climate Change Canada, Ottawa, ON, pp. 848-869