The “badland trilogy” of the Desierto de la Tatacoa, upper Magdalena Valley, Colombia, a result of geodynamics and climate: With a review of badland landscapes

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Harald G. Dill
  • Buzatu Andrei
  • Balaban Sorin-Ionut
  • Ufer Kristian
  • Gómez Tapias Jorge
  • Bîrgăoanu Daniel
  • Cramer Thomas

Organisationseinheiten

Externe Organisationen

  • Al. I. Cuza University
  • Birkbeck University of London
  • Bundesanstalt für Geowissenschaften und Rohstoffe (BGR)
  • Geological Society of Colombia (CGS)
  • Institutul Geologic al României
  • Universidad Nacional de Colombia
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer104696
FachzeitschriftCatena
Jahrgang194
Frühes Online-Datum30 Mai 2020
PublikationsstatusVeröffentlicht - Nov. 2020

Abstract

The badlands of the “Desierto de la Tatacoa” (DDT) form part of the alluvial-fluvial system and are characterized by a landform trilogy: (1) gully zone, (2) wadi zone, (3) hillwash plain/mesa zone. This facies differentiation is controlled by the fluvial regimes and their degree of sinuosity of channels. The hydraulic and hydrographic systems of the badland trilogy depend on the geodynamic setting and climate (1st order) and on the bedrock lithology and tectonics (2nd order). Allogenic heavy minerals attest to two counteracting palaeogradients which interdigitate where the badlands evolved and authigenic heavy and light minerals furnish evidence of the physical-chemical regime to be governed by alkaline meteoric solutions and oxidizing conditions driven by the climate and the parent rocks. It is the high solubility of sulfates and chlorides and the differential expandability of smectite which impacted on the development of the individual badland zones. Large 1st order synclines plunging to the W and 2nd order fold structures account for the traps and conduits of the subsurface water system. The key to the hydraulic evolution of the badland lies within the hinterland hampering surface alteration and favoring the subsurface hydrogeological system to corrode the gully zone from below. The binary genetic model of the badlands in the DDT reveals, on a local scale, a “fight for dominance” of different fluvial drainage systems at the edge of the badlands as a hydrological consequence of neotectonics while, on a regional scale, badland formation is an upstream expression of a eustatic sea level oscillation in the Caribbean Sea. A review of true, false and pseudo-badlands concludes the study and underscores the reference character of the DDT badlands among the true badland series.

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The “badland trilogy” of the Desierto de la Tatacoa, upper Magdalena Valley, Colombia, a result of geodynamics and climate: With a review of badland landscapes. / Dill, Harald G.; Andrei, Buzatu; Sorin-Ionut, Balaban et al.
in: Catena, Jahrgang 194, 104696, 11.2020.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Dill HG, Andrei B, Sorin-Ionut B, Kristian U, Jorge GT, Daniel B et al. The “badland trilogy” of the Desierto de la Tatacoa, upper Magdalena Valley, Colombia, a result of geodynamics and climate: With a review of badland landscapes. Catena. 2020 Nov;194:104696. Epub 2020 Mai 30. doi: 10.1016/j.catena.2020.104696
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abstract = "The badlands of the “Desierto de la Tatacoa” (DDT) form part of the alluvial-fluvial system and are characterized by a landform trilogy: (1) gully zone, (2) wadi zone, (3) hillwash plain/mesa zone. This facies differentiation is controlled by the fluvial regimes and their degree of sinuosity of channels. The hydraulic and hydrographic systems of the badland trilogy depend on the geodynamic setting and climate (1st order) and on the bedrock lithology and tectonics (2nd order). Allogenic heavy minerals attest to two counteracting palaeogradients which interdigitate where the badlands evolved and authigenic heavy and light minerals furnish evidence of the physical-chemical regime to be governed by alkaline meteoric solutions and oxidizing conditions driven by the climate and the parent rocks. It is the high solubility of sulfates and chlorides and the differential expandability of smectite which impacted on the development of the individual badland zones. Large 1st order synclines plunging to the W and 2nd order fold structures account for the traps and conduits of the subsurface water system. The key to the hydraulic evolution of the badland lies within the hinterland hampering surface alteration and favoring the subsurface hydrogeological system to corrode the gully zone from below. The binary genetic model of the badlands in the DDT reveals, on a local scale, a “fight for dominance” of different fluvial drainage systems at the edge of the badlands as a hydrological consequence of neotectonics while, on a regional scale, badland formation is an upstream expression of a eustatic sea level oscillation in the Caribbean Sea. A review of true, false and pseudo-badlands concludes the study and underscores the reference character of the DDT badlands among the true badland series.",
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AU - Dill, Harald G.

AU - Andrei, Buzatu

AU - Sorin-Ionut, Balaban

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