Cratonic sequence

Cratonic sequence

A cratonic sequence refers to a very large-scale lithostratographic sequence that covers a complete marine transgressive-regressive cycle across a craton. They are also known as "megasequences", "stratigraphic sequences", "sloss sequence" or simply "sequences."

Cratonic sequences were first proposed by Lawrence Sloss in 1963;[1] each one represents a time when epeiric seas deposited sediments across the craton, while the upper and lower edges of the sequence are bounded by craton-wide unconformities eroded when the seas receded.

Cause and chronology

These sequences may in part represent eustatic or global change in sea level; however, when the proper names are used they usually refer to the North American continent. The most likely causes of these cycles is change in mid-ocean ridge volume, which is related to spreading rates.[2] When Earth's mid-ocean ridges spread rapidly, the ridges tend to be longer than usual; also, the greater heat elevates the lithosphere over the ridges.[3] This elevated lithosphere reduces ocean-basin volume and displaces water onto the continents; conversely, when spreading rates decline, the ridges subside, and the seas drain from the cratons.[4] It is also possible that other mechanisms, such as dynamic topography related to mantle mass anomalies, and intraplate stress related to episodes of contractional and extensional tectonics, play a part by causing significant tectonic uplift and subsidence across the craton.[5]

There have been six cratonic sequences since the beginning of the Cambrian Period. For North America, from oldest to youngest, they are the Sauk, Tippecanoe, Kaskaskia, Absaroka, Zuñi, and the Tejas. Attempts to identify equivalent cratonic sequences on other continents has met with only limited success, suggesting that eustasy is unlikely to be the sole responsible mechanism.

See also

References

  1. ^ Lawrence Sloss, "Tectonic Cycles of the North American Craton". (Accessed 6/18/06)
  2. ^ Stanley, Steven M. Earth System History. New York: W.H. Freeman and Company, 1999. ISBN 0-7167-2882-6 p. 174.
  3. ^ Stanley, p. 175
  4. ^ Stanely, p. 175
  5. ^ Burgess et al. 1997, Bull Geol. Soc. America

Wikimedia Foundation. 2010.

Игры ⚽ Поможем сделать НИР

Look at other dictionaries:

  • Sequence stratigraphy — is a relatively new branch of geology that attempts to link relative sea level changes to sedimentary deposits. The essence of the method is mapping of strata based on identification of surfaces which represent time lines (e.g. subaerial… …   Wikipedia

  • Tippecanoe sequence — The Tippecanoe sequence was the cratonic sequence that is, the marine transgression that followed the Sauk sequence; it extended from roughly the middle Ordovician to the early Devonian.edimentary characteristicsAfter the regression of the Sauk… …   Wikipedia

  • Zuñi sequence — The Zuñi sequence was the major cratonic sequence after the Absaroka sequence that began in the latest Jurassic, peaked in the late Cretaceous, and ended by the start of the following Paleocene. [Stanley, Steven M. Earth System History. p. 175]… …   Wikipedia

  • Sauk sequence — The Sauk sequence was the earliest of the six cratonic sequences that have occurred during the Phanerozoic (followed by the Tippecanoe, Kaskaskia, Absaroka, Zuñi, and Tejas). It dates from the late Proterozoic through the early Ordovician, though …   Wikipedia

  • Absaroka sequence — The Absaroka sequence was a cratonic sequence that extended from the end of the Mississippian through the Permian periods. It is the unconformity between this sequence and the preceding Kaskaskia that divides the Carboniferous into the… …   Wikipedia

  • Tejas sequence — The Tejas sequence was the last major marine transgression across the North American craton. Following the late Cretaceous regression that ended the Zuñi sequence, the oceans advanced again early in the Cenozoic, peaking during the Paleocene and… …   Wikipedia

  • Kaskaskia sequence — The Kaskaskia sequence was a cratonic sequence that began in the mid Devonian, peaked early in the Mississippian, and ended by mid Mississippian time. A major unconformity separates it from the lower Tippecanoe sequence.The basal that is, the… …   Wikipedia

  • Craton — Geologic provinces of the world (USGS)   Shield …   Wikipedia

  • Carboniferous Period — Interval of geologic time 354–290 million years ago, marked by great changes in world geography. All the landmasses drew closer together as a result of tectonic plate movements. The supercontinent Gondwana occupied much of the Southern Hemisphere …   Universalium

  • Superior craton — in the west. The western margin extends from northern Minnesota through eastern Manitoba to northwestern Ontario.The formation of the Superior craton is best explained within the context of 2.72 2.68 Ga accretion of small continental plates and… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”