Print this pagePaleotectonic Control and its Relationship to Wyodak Coal Deposition and Production in the Powder River Basin, Wyoming
Recent 
mapping
of the Wyodak coal
in the eastern portion of the Powder River Basin suggests a relationship exists
between present-day structure, paleostructure, and
depositional controls of the Wyodak coal. Mapped
structural lineaments define depositional limits and net coal thickness, which
are two key factors controlling gas production.
Slack (1981) mapped several northeast-southwest trending lineaments. These
lineaments have been active and controlling facies
deposition from at least the Paleozoic Era through the Cretaceous Period.
Slack's work showed that stratigraphically trapped
hydrocarbons in the Permian Minnelusa Formation and
the Cretaceous Dakota, Muddy, Turner, Shannon and Sussex Formations were
governed by the relative up-down position of these lineaments.
New work suggests that paleostructure
also controlled the depositional environment within the Paleocene Wyodak coal member of the Fort Union Formation. Structural
mapping of the Wyodak coal member, along with
dip-angle algorithms, show that the eastern part of the Powder River Basin is
segmented into several structural blocks. These blocks are controlled by
northeast-southwest trending faults. Faults identified in this study have a
similar location and orientation to those described by Slack. These structural
trends correlate well with abrupt changes in coal thickness shown by the Wyodak Coal isopach map, areas
where the coal splits and possibly the location of fluvial channels (no coal
zones). Gas production from the Wyodak coal is
controlled by the segmentation and coal thickness variability of the Wyodak coal swamp relative to these paleo-lineaments
.