GEOSCAN Search Results: Fastlink

GEOSCAN Menu


TitleMud-flat cycles, incised channels, and relative sea-level changes on a Paleocene mud-dominated coast, Ellesmere Island, Arctic Canada
AuthorRicketts, B D
SourceJournal of Sedimentary Research vol. B64, no. 2, 1994 p. 211-218, https://doi.org/10.1306/d4267f91-2b26-11d7-8648000102c1865d
Year1994
Alt SeriesGeological Survey of Canada, Contribution Series 15193
PublisherSociety for Sedimentary Geology
Documentserial
Lang.English
Mediapaper; on-line; digital
File formatpdf
ProvinceNunavut
NTS49; 59E; 69F; 59G; 59H; 560A; 560D; 340B; 340C
AreaEllesmere Island; Axel Heiberg Island; Cañon Fiord; Vesle Fiord
Lat/Long WENS -96.0000 -80.0000 82.0000 76.0000
Subjectssedimentology; Paleocene; depositional environment; sea level changes; sedimentary environment; mud flats; channel deposits; cross-stratification; graded bedding; sedimentary structures; sedimentary rocks; facies; sedimentary facies; transgressions; mudstones; Cape Pillsbury Member; flowslides; Tertiary
Illustrationsphotographs; stratigraphic columns; sketch maps; cross-sections
AbstractThe Upper Paleocene Cape Pillsbury Member on west-central Ellesmere Island, consisting of thick (600+ m), cyclical, calcareous mud-flat and laterally associated mixed mud-sand shelf deposits, provides an example of deposition on a mud-dominated coast. Mud-flat cycles are characterized by laminated mudstone. Cross-bedding is conspicuously rare. Normal grading of mudstone laminae suggests that deposition from suspension was significant. Storms also were common on this mud-dominated coast, as evidenced by beds of locally derived mud-chip conglomerate that commonly are intercalated with the laminated mudrocks, and by hummocky cross-stratification in the deeper shelf facies. Soft-sediment folding and microfaulting is ubiquitous in the mudrock facies. The deformation is analogous to flowslides in muddy tidal flats now accumulating on the exposed northeast coast of South America. The flowslides are the only potential indicators of ebb-flood tidal reversals in the entire mudstone succession. Most of the mudrock cycles are incised by sand-filled channels. The channels were excavated during a drop in relative sea level (that terminated the preceding cycle). Subsequent filling of channels began when sediment flux in the channels exceeded the rate of sea-level fall. Thin coal seams capping some of the sand-filled channels may be the first indications of early transgression. The next cycle of laminated mudstone accumulated during the succeeding transgressive/progradational phase, but the distinction between these two components is not clear. The mud-flat and shelf facies were mostly progradational, accumulating during successive rises and high stands of relative sea level.
GEOSCAN ID202777

 
Date modified: