Base level

From Wikipedia
Aerial picture of the Ebro river as it reaches the Mediterranean Sea by the Ebro Delta

In geology and geomorphology a base level is the lower limit for an erosion process. [1] The modern term was introduced by John Wesley Powell in 1875. [1] The term was subsequently appropriated by William Morris Davis who used it in his cycle of erosion theory. [1] [2] The "ultimate base level" is the plane that results from projection of the sea level under landmasses. [1] It is to this base level that topography tends to approach due to erosion, eventually forming a peneplain close to the end of a cycle of erosion. [3] [4] [5] [6]

There are also lesser structural base levels where erosion is delayed by resistant rocks. [1] Examples of this include karst regions underlain by insoluble rock. [7] Base levels may be local when large landmasses are far from the sea or disconnected from it, as in the case of endorheic basins. [1] An example of this is the Messinian salinity crisis, in which the Mediterranean Sea dried up making the base level drop more than 1000 m below sea level. [8] [9]

The height of a base level also influences the position of deltas and river terraces. [1] Together with river discharge and sediment flux the position of the base level influences the gradient, width and bed conditions in rivers. [10] A relative drop in base level can trigger re-adjustments in river profiles including knickpoint migration and abandonment of terraces leaving them "hanging". [11] Base level fall is also known to result in progradation of deltas and river sediment at lakes or sea. [12] If the base level falls below the continental shelf, rivers may form a plain of braided rivers until headward erosion penetrates enough inland from the shelfbreak. [12]

When base levels are stable or rising rivers may aggrade. [12] Rising base levels may also drown the lower courses of rivers creating rias. This happened in the Nile during the Zanclean flood when its lower course became, in a relatively short time, a large estuary extending up to 900 km inland from the Mediterranean coast. [9]

Base level change may be related to the following factors:

  1. Sea level change [1]
  2. Tectonic movement [1]
  3. River capture [1]
  4. Extensive sedimentation [13]


  1. ^ a b c d e f g h i j Goudie, A.S. (2004). "Base level". In Goudie, A.S. (ed.). Encyclopedia of Geomorphology. Routledge. p. 62.
  2. ^ Orme, Anthony R. (2007). "The Rise and Fall of the Davisian Cycle of Erosion: Prelude, Fugue, Coda, and Sequel". Physical Geography. 28 (6): 474–506. doi: 10.2747/0272-3646.28.6.474. S2CID  128907423.
  3. ^ Phillips, Jonathan D. (2002), "Erosion, isostatic response, and the missing peneplains", Geomorphology, Vol. 45, No. 3-4. Elsevier Archived 2010-01-24 at the Wayback Machine, 15 June 2002, pp. 225-241. doi: 10.1016/S0169-555X(01)00156-8.
  4. ^ Chorley, R.J. (1973). The History and Study of Landforms or The Development of Geomorphology. Vol. Two: The Life and Work of William Morris Davis, Methuen.
  5. ^ Green, Paul F.; Lidmar-Bergström, Karna; Japsen, Peter; Bonow, Johan M.; Chalmers, James A. (2013). "Stratigraphic landscape analysis, thermochronology and the episodic development of elevated, passive continental margins". Geological Survey of Denmark and Greenland Bulletin. 30: 18. doi: 10.34194/geusb.v30.4673. Archived from the original on 2015-09-24. Retrieved 30 April 2015.
  6. ^ Lidmar-Bergström, Karna; Bonow, Johan M.; Japsen, Peter (2013). "Stratigraphic Landscape Analysis and geomorphological paradigms: Scandinavia as an example of Phanerozoic uplift and subsidence". Global and Planetary Change. 100: 153–171. Bibcode: 2013GPC...100..153L. doi: 10.1016/j.gloplacha.2012.10.015.
  7. ^ Ford, Derek C. (2004). "Cave". In Goudie, A.S. (ed.). Encyclopedia of Geomorphology. Routledge. pp. 124–128.
  8. ^ Fairbridge, Rhodes W.; Finkl Jr., Charles W. (1980). "Cratonic erosion unconformities and peneplains". The Journal of Geology. 88 (1): 69–86. Bibcode: 1980JG.....88...69F. doi: 10.1086/628474. S2CID  129231129.
  9. ^ a b Goudie, A.S. (2005). "The drainage of Africa since the Cretaceous". Geomorphology. 67 (3–4): 437–456. Bibcode: 2005Geomo..67..437G. doi: 10.1016/j.geomorph.2004.11.008.
  10. ^ Whipple, Kelin X. (2004). "Bedrock channel". In Goudie, A.S. (ed.). Encyclopedia of Geomorphology. Routledge. pp. 81–82.
  11. ^ Spotila, James A. (2004). "Crustal deformation". In Goudie, A.S. (ed.). Encyclopedia of Geomorphology. Routledge. pp. 201–203.
  12. ^ a b c Koss, John E.; Ethridge, Frank G.; Schumm, S.A. (1994). "An Experimental Study of the Effects of Base-Level Change on Fluvial, Coastal Plain and Shelf Systems". Journal of Sedimentary Research. 64B (2): 90–98. doi: 10.1306/D4267F64-2B26-11D7-8648000102C1865D.
  13. ^ Babault, Julien; Van Den Driessche, Jean; Bonnet, Stephanie; Castelltort, Sébastien; Crave, Alain (2005). "Origin of the highly elevated Pyrenean peneplain". Tectonics. 24 (2): n/a. Bibcode: 2005Tecto..24.2010B. doi: 10.1029/2004TC001697.