Bartram, K.M., 1987, Lycopod succession in coals: an example from the Low Barnsley Seam, Yorkshire, England. In: Scott, A.C. (ed.), Coal and coal-bearing strata: recent Advances. Geological Society of London, Special Publication, 32, 187–199.
Bend, S.L., 199, The origin, formation and petrographic composition of coal. Fuel, 71, 851–870.
Calder, J.H., 1993, The evolution of a ground-water-influenced (Westohalian B) peat-forming ecosystem in a piedmont setting: The No. 3 seam, Springhill coalfield, Cumerland Basin, Nova Scotia. In: Cobb, J.C. and Cecil, C.B. (eds.), Modern and ancient coal-forming environments. Geological Society of America, Special Paper, 286, 153–180.
Calder, J.H., Gibling, M.R., and Mukhopadhyay, P.K., 1991, Peat formation in a Westphalian B piedmont setting, Cumberland Basin, Nova Scotia: Implication for the maceral-based, interpretation of rheotrophic and raised paleomires. Bulletin of Society of Geology, 162, 83–298.
Chandra, D. and Chakraborti, N.C., 1989, Coalification trends in Indian coals. In: Lyons, P.C. and Alpern, B. (eds.), Coal: classification, coalification, mineralogy, trace element chemistry, and oil and gas potential. International Journal of Coal Geology, Special Publication, 13, 413–435.
Cohen, A.D. and Spackman, W., 1977, Phytogenic organic sediments and sedimentary environments in the Everglades-mangrove complex: Part II. The origin, description and classification of the peats of southern Florida. Palaeontographica (Abt. B), 162, 71–114.
Cohen, A.D., Spackman, W., and Raymond, Jr.,R., 1987, Interpreting the characteristics of coal seams from chemical, physical and petrographic studies of peat deposits. In: Scott, A.C. (ed.), Coal and coal-bearing strata: recent advances. Geological Society of London, Special Publication, 32, 107–125.
Cohen, A.D., Raymond Jr.,R., Ramirez, A., Morales, Z., and Ponce, F., 1989, The Chaguinola peat deposit of northwestern Panama: a tropical back-barrier, peat (coal)-forming environment. International Journal of Coal geology, 12, 157–192.
Collinson, M.E. and Scott, A.C., 1986, Factors controlling the organization and evolution of ancient plant communities. In: Gee, J.H.R. and Giller, P.S. (eds.), Organization of plant communities, past and present. 27th Symposium of the British Ecological Society, Aberystwyth, p. 399–420.
Collinson, M.E. and Scott, A.C., 1987, Implications of vegetational change through the geological record on modes for coal forming environments. In: Scott, A.C. (ed.), Coal and coal bearing strata: recent advances. Geological Society of London, Special Publication, 32, 67–85.
Crosdale, P.J., 1993, Coal maceral ratios as indicator of environment of deposition: do they work for ombrogenous mires? An example from the Miocene of New Zeeland. Organic Geochemistry, 20, 797–809.
Cross, A.T. and Taggart, R.E., 1982, Causes of short-term sequential changes in fossil plant assemblages: Some considerations based on a Miocene flora of the northwest United States. Annals of the Missouri Botanical Garden, 69, 676–734.
Cypert, E., 1972, The origin of houses in the Okefenokee prairies. The American Midland Naturalist, 87, 448–458.
Dehmer, J., 1995, Petrological and organic geochemical investigation of recent peats with known environments of deposition. International Journal of Coal Geology, 28, 111–138.
Diessel, C.F.K., 1986, On the correlation between coal facies and depositional environments. Proceeding of the 20th Symposium on Advances in the study of the Sydney Basin, Newcastle, p. 19–22.
Diessel, C.F.K., 1992, Coal-bearing depositional systems. Springer-Verlag, Berlin, 721 p.
DiMichele, W.A. and Phillips, T.L., 1994, Palaeobotanical and palaeoecological constraints on models of peat formation in the Late Carboniferous of Euramerica. Palaeogeography, Palaeoclimatology, Palaeoecology, 106, 39–90.
Figueiral, I., Mossbrugger, V., Rowe, N.P., Ashraf, A.R., Utescher, T., and Jones, T.P., 1999, The Miocene peat-forming vegetation of northwestern Germany: an analysis of wood remains and comparison with previous palynological interpretation. Review of Palaeobotany and Palynology, 104, 239–266.
Glasspool, I.J. and Scott, A.C., 2012, Identifying past fire events. In: Belcher, C.M. (ed.), Fire phenomena in the Earth system: an interdisciplinary guide to fire science. Wiley-Blackwell, Chichester, 179–206.
Glasspool, I.J. and Scott, A.C., 2010, Phanerozoic concentrations of atmospheric oxygen reconstructed from sedimentary charcoal. Nature Geoscience, 3, 627–630.
Glasspool, I., 2000, A major fire event recorded in the mesofossils and petrology of the Late Permian, Lower Whybrow coal seam, Sydney Basin, Australia. Palaeogeography, Palaeoclimatology, Palaeoecology 164, 357–380.
Hacquebrad, P.A. and Donaldson, J.R., 1969, Carboniferous coal deposition associated with flood-plain and limnic environments in Nova Scotia. In: Dapples, E.C. and Hopkins, M.E. (eds.), Environments of coal deposition. Geological Society of America, 114, 143–191.
Hacquebard, P.A., 1993a, Petrology and facies studies of the Carboniferous coals at Mabou Mines and Inverness in comparison with those the Port Hood, St. Rose and Sidney coalfields of Cape Breton Island, Nova Scotia, Canada. International Journal of Coal Geology, 24, 7–46.
Hacquebard, P.A., 1993b, The Sydney coalfield of Nova Scotia, Canada. International Journal of Coal Geology, 23, 29–42.
Hagermann, H.W. and Wolf, M., 1987, New interpretations of the facies of the Rheinish brown coal of West Germany. International Journal of Coal Geology, 7, 337–348.
Harevey, R.D. and Dillon, J.W., 1985, Maceral distributions in Illinois coals and their paleoenvironmental implications. International Journal of Coal Geology, 5, 141–165.
Hatcher, P.G. and Clifford, D.J., 1997, The organic geochemistry of coal: from plant materials to coal. Organic Geochemistry 27, 251–274.
Hudspith V., Scott A.C., Collinson M.E., Pronina N., and Beeley, T., 2012, Evaluating the extent to which wildfire history can be interpreted from inertinite distribution in coal pillars: an example from Late Permian, Kuznetsk Basin, Russia. International Journal of Coal Geology, 89, 13–25.
ICCP (International Committee for Coal and Organic Petrology), 1998, Inertinite, 8th Draft, 55 p.
Kalkreuth, W.D. and Leckie, D.A., 1989, Sedimentological and petrographical characteristics of Cretaceous strandplain coals: a model for coal accumulation from the North American Western Interior Seaway. International Journal of Coal Geology 12, 381–424.
Marchioni, D. and Kalkreuth, W., 1991, Coal facies interpretations based on lithotype and maceral variations in Lower Cretaceous (Gates Formation) coals of Western Canada. International Journal of Coal Geology, 18, 125–162.
Mukhopadhyay, P.K., 1986, Petrography of selected Wilcox and Jackson group Lignites from the Tertiary of Texas. In: Finkelman, R.B. and Casagrande, D.J. (eds.), Geology of Gulf Coast Lignites. Annual Meeting of Geological Society of America, Field Trip of Coal Geology Division, 126–145.
Mukhopadhyay, P.K., 1989, Organic Petrography and Organic Geochemistry of Texas Tertiary Coals in relation to depositional Environment and Hydrocarbon Generation. Texas Bureau of Economic Geology, Report of Investigations, No. 188, p. 269–284.
Moore, T.A. and Shearer, J.C., 2003, Peat/coal type and depositional environment are they related? International Journal of Coal Geology, 56, 233–252.
Pearson, A. and Scott, A.C., 1999, Large palynomorphs and debris. In: Jones, T.P. and Rowe, N.P. (eds.), Fossil Plants and Spores: Modern Techniques. Geological Society of London, 20–25.
Petersen, H.I., 1998, Morphology, formation and palaeoenvironmental implications of naturally formed char particles in coals and carbonaceous mudstones. Fuel, 77, 1177–1183.
Schneider, W., 1990, Floral Succession in Miocene bogs of Central Europe, Proceedings of the symposium on Pale floristic and Palaeoclimatic Changes in the Cretaceous and Tertiary, Prague, 205–212.
Schneider, W., 1995, Palaeo histological studies on Miocene brown coals of Central Europe. International Journal of Coal Geology, 28, 229–248.
Scott, A.C. and King, G., 1981, Megaspores and coal facies: an example from the Westphalian A of Leicestershire, England. Review of Palaeobotany and Palynology, 34, 107–113.
Scott, A.C., 1989, Deltaic coals: an ecological and paleobotanical perspective. In: Whateley, M.K.G. and Pickering, K.T. (eds.), Deltas: sites and traps for fossil fuels. Geological Society of London, Special Publication, 41, 309–316.
Scott, A.C., 1991, An introduction to the application of paleobotany and palynology to coal petrology. Bulletin de la Societe Geologique de France, 162, 145–153.
Scott, A.C., Cripps, J., Nichols, G., and Collinson, M.E., 2000, The taphonomy of charcoal following a recent heathland fire and some implications for the interpretation of fossil charcoal deposits. Palaeogeography, Palaeoclimatology, Palaeoecology, 164, 1–31.
Scott, A.C. and Jones, T.P., 1994, The nature and influence of fire in carboniferous ecosystems. Paleogeography, Paleoclimatology, Paleoecology, 106, 91–112.
Scott, A.C., 2000, The pre-Quternaery history of fire. Palaeogeography, Palaeoclimatology, Palaeoecology, 164, 281–329.
Scott, A.C., 2002a, Coal petrology and the origin of coal macerals: a way ahead? International Journal of Coal Geology, 50, 119–134.
Scott, A.C., 2002b, Hydrogeologic factors affecting gas content distribution in coal beds. International Journal of Coal Geology, 50, 363–387.
Scott, A.C. and Glasspool, I.J., 2007, Observations and experiments on the origin and formation of inertinite group macerals. International Journal of Coal Geology, 70, 53–66.
Scott, A.C., 2010, Charcoal recognition, taphonomy and uses in paleoenvironmental analysis. Paleogeography, Paleoclimatology, Paleoecology, 291, 11–39.
Shearer, J.C., Moore, T.A., and Demchuk, T.D., 1995, Delineation of the distinctive nature of tertiary Coal Beds. International Journal of Coal Geology, 28, 71–98.
Singh, M.P. and Shukla, R.R., 2004, Petrographic characteristics and depositional conditions of Permian coals of Pench, Kanhan, Tawa Valley Coalfields of Satpura Basin, Madhya Pradesh, India. International Journal of Coal Geology, 42, 315–356.
Smith, A.H.V., 1962, The paleoecology of Carboniferous peats based on the miospores and petrography of bituminous coals. Proceedings of the Yorkshire Geological Society, 33, 423–474.
Smyth, M., 1979, Hydrocarbon generation in the Fly Lake-Brolga area of the Cooper Basin. Journal of Australian Petroleum Exploration Association, 19, 108–114.
Smyth, M., 1984, Coal microlithtypes related to sedimentary environments in the Cooper Basin, Australlia. In: Rahmani, R.A. and Flores, R.M. (eds.), Sedimentology of Coal and Coal-bearing Sequences. International Association of Sedimentologists, Special Publication, 7, 333–347.
Stach, E., Mackowsky, M.-Th., Teichmüller, M., Taylor, G.H., Chandra, D., and Teichmüller, R., 1982, Stach’s textbook of coal Petrology (3rd edition). Gebruder Borntrager, Berlin, 125 p.
Teichmüller, M., 1989, The genesis of coal from the viewpoint of coal petrology. In: Lyons, P.C. and Alpern, B. (eds.), Peat and Coal: origin, facies, and depositional models. International Journal of Coal Geology, 12, 1–87.
Wust, R.A.J. and Bustin, R.M., 2001, Low-ash peat deposits from a dendritic, intermontane basin in the topics: anew model for good quality coals. International Journal of Coal Geology, 46, 179–206.