Earth:Sorbas Basin

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A section through the Sorbas basin. See text for explanation.

The Sorbas Basin is a sedimentary basin around the town of Sorbas in Almeria Province in south-east Spain. It is believed to have been formed by extension, between two fault-bounded blocks which rotated anti-clockwise to take up the compression resulting from Europe's collision with Africa. The basin is filled with turbidites and evaporites of the Tortonian-Messinian ages of the Miocene Epoch.

It is a matter of some debate whether the basin dried out at the same time as the main Mediterranean basins.[1][2][3]

Basin fill

The basin is divided into the following members:

  • At the bottom of the image, the house is constructed on the steep yellow cliffs of the resistant Azagador Member.
  • The lower (whiter) and upper (yellower) Abad Marls, a Tortonian/Messinian series of turbidites featuring pronounced Milankovic (20,000 year precession) cyclicity, allowing chronostratigraphic dating; these fine muds are easily eroded.
  • When the sea returned overdeepening the basin, salt water waterfalls eroded a 200 m depression patterned by 30 m deep gullies.[4]
  • the Messinian Yesares Member, a gypsum evaporite, forms the steep bluffs at the top of the valley; there is some debate about how conformable its contact with the Abad marls is.
  • Pliocene deposits, rest unconformably on the top.
  • Complexity of drawdown and reflooding complicate correlation of the ‘Salinity Crisis' stratigraphy.

Basin significance

A possible palaeogeographical reconstruction of the Miocene Mediterranean. North to the left. *Red = current coastline *S = Sorbas basin, Spain *R = Rifean corridor *B = Betic corridor *G = Strait of Gibraltar *M = Mediterranean sea

The basin was separated from the main Mediterranean basin during the Messinian salinity crisis; therefore the timing of the Yesares Member relative to the main basin evaporites is crucial to distinguish between models of how the Mediterranean dried out.

References

  1. Riding, R.; Braga, J.C.; Martín, J.M. (2000). "Late Miocene Mediterranean desiccation: topography and significance of the 'Salinity Crisis' erosion surface on-land in southeast Spain: Reply". Sedimentary Geology 133 (3–4): 175–184. doi:10.1016/S0037-0738(00)00039-7. Bibcode2000SedG..133..175R. 
  2. Braga, J.C.; Martín, J.M.; Riding, R.; Aguirre, J.; Sánchez-almazo, I.M.; Dinarès-turell, J. (2006). "Testing models for the Messinian salinity crisis: The Messinian record in Almería, SE Spain". Sedimentary Geology 188: 131–154. doi:10.1016/j.sedgeo.2006.03.002. Bibcode2006SedG..188..131B. 
  3. Krijgsman, W.; Fortuin, A.R.; Hilgen, F.J.; Sierro, F.J. (2001). "Astrochronology for the Messinian Sorbas basin (SE Spain) and orbital (precessional) forcing for evaporite cyclicity". Sedimentary Geology 140 (1–2): 43–60. doi:10.1016/S0037-0738(00)00171-8. Bibcode2001SedG..140...43K. 
  4. Robert Ridinga, Juan C. Bragab and José M. Martín (1999). "Significance of the 'Salinity Crisis' erosion surface on-land in southeast Spain". Sedimentary Geology 123: 1. doi:10.1016/S0037-0738(98)00115-8. Bibcode1999SedG..123....1R.