International Journal of Coal Geology, Vol.42, No.2, 159-184, 2000
Petrography and palynology of the Blue Gem coal bed (Middle Pennsylvanian), southeastern Kentucky, USA
Petrographic and palynological trends in the Blue Gem coal bed (Middle Pennsylvanian Westphalian B, Breathitt Formation), a thin, low-sulfur, low-ash coal in southeastern Kentucky, were studied in order to establish a depositional model for the slam. Within the study area, the coal bed averages 67 cm and has two distinct zones. The lower and middle parts of the seam (the lower 45-55 cm) are enriched in well-preserved vitrinite and are dominated by arborescent lycopods, sphenopsids. and tree ferns. Fusinite-rich layers, dominated by arborescent lycopods, but also containing herbaceous lycopods and sphenopsids, occur within the lower and middle parts of the seam, The upper part of the seam (the upper 15-25 cm) is recognizable in the field and is distinct in that it contains a greater amount of degraded macerals, and is characterized by high palynomorph diversity, primarily by miospores that are associated with sphenopsids, herbaceous lycopods and arborescent lycopods. These data, in conjunction with geochemical data available for the seam, suggest that initially the peat swamp was fairly diverse and well-nourished (the base of the seam being characterized by a relatively diverse miospore assemblage and a slightly higher ash content). Following this initial planar stage, the Blue Gem peat swamp was;probably planar to slightly domed during accumulation of most of the lower and middle parts of the seam, as suggested by the very low ash and sulfur contents, the high telovitrinite content, and the preponderance of arborescent lycopod spores. In its final stages, the peat swamp was domed and is characterized by a more diverse flora and greater levels of degradation of the peat constituents, Sulfur content of this seam is generally low (< 1%) but can increase locally to 3-4%. Factors influencing sulfur content include the thickness and nature of the overburden (shale versus sandstone) and petrographic composition. (C) 2000 Elsevier Science B.V. All rights reserved.
Keywords:EASTERN KENTUCKY;PEAT FORMATION;GEOCHEMISTRY;ECOSYSTEMS;INERTINITE;COUNTY;ORIGIN;SWAMP;BASIN;FIRE