1. Abercrombie, H., Shevalier, M., Hutcheon, I. E., 1989, Natural diagenesis: A model for artificial diagenesis during steam-assisted recovery of heavy oil, Cold Lake, Alberta, in: Miles, D. L., ed., Proceedings of the 6th International Symposium on Water-Rock Interaction, Balkema, Rotterdam, p. 1–4 [extended abstract]

2. Adams, J., Bennett, B., Huang, H., Koksalan, T., Jiang, D., Fay, M., Gates, I., Larter, S., 2007, Controls on the variability of fluid properties of heavy oils and bitumens in foreland basins: A case study from the Albertan oil sands, in: Suter, J., Leckie, D., and Larter, S., eds.. In: Proceedings of the Heavy oil and bitumen in foreland basins: From processes to products: American Association of Petroleum Geologists Hedberg Research Conference, Banff, September 30-October 3, Proceedings, 5 p.

3. J. Adams S. Larter B. Bennett H. Huang J. Westrich C. van Kruisdijk., 2013. The dynamic interplay of oil mixing, charge timing, and biodegradation in forming the Alberta oil sands: insights from geologic modeling and biogeochemistry Heavy-oil and oil-sand petroleum systems in Alberta and beyond. Amer. Assoc. Petrol. Geol., Studies in Geology, 64, 23–102.

4. Alberta Energy and Utilities Board, 2003, Athabasca Wabiskaw-McMurray regional geological study, Report 2003-a, p.187 and CD-ROM.

5. Alberta Energy Regulator, 2015. Alberta’s Energy Reserves 2014 and Supply/Demand Outlook 2015–2024, Alberta Energy Regulator, Statistical Series, ST98-2016, p. 1 to F-7 (various pagination, 〈http://aer.ca/data-and-publications/statistical-reports/archives〉