Petrographyof some fraser river delta peat deposits: Coal maceral and microlithotype precursors in temperate-climate peats

Abstract

Peat deposits on the recent lobe of the Fraser River delta, British Columbia, have accumulated in a variety of depositional settings. The study of the decomposition of the plant components associated with each depositional area has enabled prediction of the occurrence and distribution of the precursors of the loal macerals and microlithotypes. On inactive portions of the distal lower delta plain, thin sedge-grass peats ave developed. These peats were influenced by marine conditions near the base and freshwater conditions higher in the section. A high ratio of cellulose to lignin in marsh plants and limited exposure of these tissues to desiccation and oxidation prodcue primarily desmocollinite. Smaller amounts of cernite, cutinite, and alganite origginate from algal and sedge lipids. In the transition to freshwater peats, oxyfusinite, pyrofusinite and micrinite partially replace former exinite and vitrinite-group maceral precursors. Subsequent transgression by marine waters has further promoted decomposition of the peat. Laterally extensive but thin and discontinouus coal seams which would develop from such peat will contain vitrite bands near the base and grade upsection into interlamlaminated durite and vitrinertite. Peats deposited between the upper and lowerdelta plain originate from brackish water. As such, earliest peat horizons contain similar maceral compositions to thoce encountered in distal delta plain deposits. Crevasse and fire splays disrupt gradational changes in fabric upsection and along channel margins. Flooding by oxygenated, neutral pH waters, followed by extended periods of desicaation, result in increases of inertodetrinite, macrinite, sclerotinite, and oxyfusinite. Interlaminated durites and vitrinertites will form common microlithotypes. Interbedded bands of telinite, cutinite and cerinite are produced by later freshwater sedge-grass peat accumulations. In this biofacies, clarite replaces durite. After colonization by Sphagnum, lignin-rich tissues from ericaceous shrubs and Pinus contorta provide precurssors for subernnite, telocollinite, and telinite. Stumps of massive telinite interrupt these banded macerals. Coal seams originating from such peats would be thick, laterally extensive and characterized by vitrite with laminae of liptite and lenses of clarite in the upper part