Earth:Wadi

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Short description: River valley, especially a dry riverbed that contains water only during times of heavy rain


Wadi Ghuweir Trail to Feynan, Jordan

Wadi (Arabic: وَادِي), alternatively wād (Arabic: وَاد), Maghrebi Arabic Oued, is the Arabic term traditionally referring to a river valley. In some instances, it may refer to a wet (ephemeral) riverbed that contains water only when heavy rain occurs.[1]

Arroyo (Spanish) is used in the Americas for similar landforms.[2]

Etymology

The term wādī is very widely found in Arabic toponyms. Some Spanish toponyms are derived from Andalusian Arabic where wādī was used to mean a permanent river, for example: Guadalcanal from wādī al-qanāl (Arabic: وَادِي الْقَنَال, "river of refreshment stalls"), Guadalajara from wādī al-ḥijārah (Arabic: وَادِي الْحِجَارَة, "river of stones"),[3] or Guadalquivir, from al-wādī al-kabīr (Arabic: اَلْوَادِي الْكَبِير, "the great river").

General morphology and processes

Wadis are located on gently sloping, nearly flat parts of deserts; commonly they begin on the distal portions of alluvial fans and extend to inland sabkhas or dry lakes. In basin and range topography, wadis trend along basin axes at the terminus of fans. Permanent channels do not exist, due to lack of continual water flow. They have braided stream patterns because of the deficiency of water and the abundance of sediments. Water percolates down into the stream bed, causing an abrupt loss of energy and resulting in vast deposition. Wadis may develop dams of sediment that change the stream patterns in the next flash flood.

Wadi Degla in Egypt during the dry season

Wind also causes sediment deposition. When wadi sediments are underwater or moist, wind sediments are deposited over them. Thus, wadi sediments contain both wind and water sediments.

Sediments and sedimentary structures

Wadi sediments may contain a range of material, from gravel to mud, and the sedimentary structures vary widely. Thus, wadi sediments are the most diverse of all desert environments.

Flash floods result from severe energy conditions and can result in a wide range of sedimentary structures, including ripples and common plane beds. Gravels commonly display imbrications, and mud drapes show desiccation cracks. Wind activity also generates sedimentary structures, including large-scale cross-stratification and wedge-shaped cross-sets. A typical wadi sequence consists of alternating units of wind and water sediments; each unit ranging from about 10–30 cm (4–12 in). Sediment laid by water shows complete fining upward sequence. Gravels show imbrication. Wind deposits are cross-stratified and covered with mud-cracked deposits. Some horizontal loess may also be present.

Hydrological action

Triassic wadi deposit near Ogmore-By-Sea, Wales. Clasts are Carboniferous Limestone.

Modern English usage differentiates wadis from canyons or washes by the action and prevalence of water. Wadis, as drainage courses, are formed by water, but are distinguished from river valleys or gullies in that surface water is intermittent or ephemeral. Wadis are generally dry year round, except after a rain. The desert environment is characterized by sudden but infrequent heavy rainfall, often resulting in flash floods. Crossing wadis at certain times of the year can be dangerous as a result.

Wadis tend to be associated with centers of human population because sub-surface water is sometimes available in them. Nomadic and pastoral desert peoples will rely on seasonal vegetation found in wadis, even in regions as dry as the Sahara, as they travel in complex transhumance routes.

The centrality of wadis to water – and human life – in desert environments gave birth to the distinct sub-field of wadi hydrology in the 1990s.[4]

Deposits

Deposition in a wadi is rapid because of the sudden loss of stream velocity and seepage of water into the porous sediment. Wadi deposits are thus usually mixed gravels and sands. These sediments are often altered by eolian processes.[5]

Over time, wadi deposits may become "inverted wadis," where former underground water caused vegetation and sediment to fill in the eroded channel, turning previous washes into ridges running through desert regions.

Gallery

See also


References

  1. Insight on the Scriptures. 2: Jehova – Zuzim and Index. Watch Tower Bible and Tract Society of New York. 1988. p. 1115. https://archive.org/details/insightonscriptu02inte/page/1115/mode/2up. ""The term "wadi" (Arabic) is also used to designate a torrent valley ... whereas others are torrents during the rainy season but dry up completely during the rainless season."" 
  2. "Arroyo Definition". MSN Encarta. http://encarta.msn.com/dictionary_/arroyo.html. 
  3. Ayuntamiento de Guadalajara, Guadalajara tourist guide, p.5. , retrieved 17 August 2013
  4. Review of Wheater, Howard ; Al Weshah, Radwan, Hydrology of Wadi systems -IHP Regional Network on Wadi Hydrology in the Arab Region, UNESCO – Technical documents in hydrology vol 55, SC.2002/WS/33,(2002).
  5. Achite, Mohamed; Ouillon, Sylvain (September 2007). "Suspended sediment transport in a semiarid watershed, Wadi Abd, Algeria (1973–1995)". Journal of Hydrology 343 (3–4): 187–202. doi:10.1016/j.jhydrol.2007.06.026. Bibcode2007JHyd..343..187A. 
  6. Alimsk (2013-12-20). "Wadi Bani Khalid & Wadi Hawer". Oman Tripper. http://www.omantripper.com/wadi-bani-khalid/. 
  7. Pedro (5 September 2014). "Visiting Wadi Bani Khalid, Oman: A Desert Paradise". Travel With Pedro. http://www.travelwithpedro.com/visiting-wadi-bani-khalid-oman-desert-paradise/. 

Bibliography

  • Summary: Drainage Courses, Wadis. United States Army Corps of Engineers. Desert Processes Working Group; Knowledge Sciences, Inc. (n.d), retrieved 2008-08-26.
  • Summary: Summary: Drainage Courses, Wadis – Inverted. United States Army Corps of Engineers. Desert Processes Working Group; Knowledge Sciences, Inc. (n.d), retrieved 2008-08-2onments
  • Gelennie, K. W., 1970 Deserts sedimentary Environments. Developments in Sedimentology, v.14. Elsevier, Amsterdam, 222p.

External links