Reconstructing the interacting effects of base level, climate, and tectonic uplift in the lower Miño River terrace record: A gradient modelling evaluation

W. Viveen, J. M. Schoorl, A. Veldkamp, R. T. van Balen, S. Desprat, J. R. Vidal-Romani

Research output: Contribution to journalArticlepeer-review

52 Scopus citations

Abstract

The origin of the lower Miño River terraces in the NW Iberian Peninsula has been a topic of debate since the 1940s. Various hypotheses about their main controlling factors have been put forward, but general consensus is still lacking. Field studies of terrace distribution and the weathering of quartzite pebbles in the terrace deposits demonstrated that terrace longitudinal correlation is not parallel to the current river bed. In addition, the longitudinal profile model FLUVER2 was used to simulate the profile evolution of the Miño River over the past 450ka. A reconstructed longitudinal profile and an offshore climate record were used as inputs. Several scenarios with variable uplift rates were investigated and evaluated against properties of four selected reaches along the river for a match with the number of terraces, their relative altitude, timing, and sediment thickness. An uplift scenario with a net constant vertical uplift rate of 0.08mka1 yielded the best results. The best fit scenarios indicate that base level changes from glacioeustatic changes in combination with tectonic uplift are the main driving forces of the observed terrace formation and valley incision. Contrary to most NW European fluvial systems, the timing of upstream-controlled sediment supply has a less dominant effect on terrace formation. This can be explained by the close proximity to the narrow passive Atlantic margin.

Original languageEnglish
Pages (from-to)96-118
Number of pages23
JournalGeomorphology
Volume186
DOIs
StatePublished - 15 Mar 2013
Externally publishedYes

Keywords

  • FLUVER2
  • Fluvial terrace
  • Incised valley
  • Quartzite weathering
  • River incision
  • Tectonics

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