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Venezuelan Andes

May 21, 2023

The Venezuelan Andes (Spanish: Andes Venezolanos) also simply known as the Andes (Spanish: Los Andes) in Venezuela, are a mountain system that form the northernmost extension of the Andes. They are fully identified, both by their geological origin as by the components of the relief, the constituent rocks and the geological structure.

Venezuelan Andes
Andes venezolanos
A view of Collado of Condor Peak in Venezuelan Andes
Highest point
Coordinates8°45′N 70°55′W / 8.750°N 70.917°W / 8.750; -70.917Coordinates: 8°45′N 70°55′W / 8.750°N 70.917°W / 8.750; -70.917
Geography
Geographic map of the Andean Venezuelan natural region.
LocationTáchira, Mérida and Trujillo states, the southern area of Lara, and portions of higher areas on the western side of Barinas, Apure, Portuguesa and Zulia states
Parent rangeAndes
Geology
Age of rockEocene
Type of rockIgneous and metamorphic rocks

The Venezuelan Andean system represents the terminal bifurcation of the Cordillera Oriental de Colombia, which in Venezuelan territory consists of two mountainous branches: the Sierra de Perijá, smaller, slightly displaced from southwest to northeast with 7,500 km2 in Venezuela; and a larger, frankly oriented Southwest to northeast with about 40,000 km2, the Cordillera de Mérida, commonly known as the proper Venezuelan Andes.[1] The highest point in Venezuela is located in this natural region.[2] It covers around 5.2% of the national territory, being the 4th largest natural region in Venezuela.

Geography

Venezuelan Andes can be divided in two sections:

  1. Western Venezuelan Andes (Macizo del Tamá, Páramos Batallón y La Negra).
  2. Central Venezuelan Andes (Macizo del Sur, Sierra Nevada de Mérida, Sierra de la Culata, Sierra de Santo Domingo[3]).
  3. North-Eastern Venezuelan Andes (Sierra de Trujillo, Sierra de Portuguesa, Lara Andes)

Geology

They have a common geological origin, which dates back to the Eocene period of the early Tertiary era, about 40-50 million years ago, coincides with the beginning of the contact of the three tectonic plates (Nazca, Caribbean and South American) that began their orographic rise.

Before the rise of the current Venezuelan Andes, between the Cambrian and Silurian periods, the so-called primitive Andes emerged, which already for the Triassic period (Mesozoic era) had been almost completely flattened because of the intense erosive process to which were subjected.[4]

Quaternary tectonics

It's characterized by the interaction of the three most important lithospheric plates in the region: Nazca, Caribbean and South American. A northwest-southwest oriented direction of compression produces vertical and horizontal deformation components, with the formation of thrusts align the Andean borders, and strike-slip faults. The split of Venezuelan Andes apparently began in the Late Eocene, and its present height was probably attained before the Quaternary.

During the Quaternary. the main active structures are the strike-slip faults. the principal one being the Boconó Fault Zone, with a measured dextral displacement of several millimeters per year. In the field this displacement is shown by the existence of fault trenches, fault depressions, sag ponds, offset ridges and lateral moraines.[5]

Glacial geology

Like all tropical mountain ranges with altitudes above 3,000 m, the Venezuelan Andes were affected by Pleistocene glaciations.

Late Pleistocene glaciation

Two morainic complexes have been recognized in the Cordillera de Mérida: one between 2,600 and 2,800 m altitude, and another one between 2,900 and 3,500 m. These two levels have been considered as Early and Late Stades, respectively, of the Mérida glaciation. The moraines of the Late Stade are topographically well represented, and several superposed moraines, or morainic complexes, are found. The glaciated area in Cordillera de Mérida during the Last Glacial Maximum was approximately 600 km2[6][7][8][9]

In the Sierra de Perijá, the existence of moraines has been mentioned at altitudes between 2,700 and 3,100 m. In the absence of more detailed data, these have been tentatively assigned to the Late Stade of the Mérida glaciation.[10]

Late Holocene glaciation

Evidence of Late Holocene morainic sedimentation are based on palynological and radiocarbon analyses, which established a cold phase between the 15th and middle-19th centuries, which can be correlate with the Little Ice Age. The moraines associated with this phase are most probably those located at an altitude of approximately 4,700 m between 100 and 200 below the terminal zone of present-day glaciers.[11]

Gallery

  •  

    Los Cedros Lagoon, Trujillo State

  •  

    Fauna of the Venezuelan Andes

  •  

    Humboldt Peak

  •  

    Snow in the Humboldt Peak

  •  

    Butare River

See also

References

  1. ^ Vivas, Leonel (2012). Geotemas (in Spanish). San Cristobal, Venezuela: Fondo Editorial "Simón Rodriguez". ISBN 978-980-6838-57-4.
  2. ^ Pérez et al (Sep. 2005): "Alturas del Pico Bolívar y otras cimas andinas venezolanas a partir de observaciones Gps." INCI v.30, n.4, Caracas sep. 2005. Retrieved 2012-09-27. (in Spanish)
  3. ^ Sanchez Davila, Gabriel. "Sierra de Santo Domingo: Biogeographic reconstructions for the Quaternary of a former snowy mountain range". Academia (in Spanish). Retrieved 5 July 2019.
  4. ^ Vargas Ponce, José; García, Pablo Emilio. Geografía: 9º Educación Básica (in Spanish). Ed. Romor. ISBN 978-980-6010-67-3.
  5. ^ Schubert, Carlos; Vivas, Leonel (1993). El Cuaternario de la Cordillera de Mérida (in Spanish). Mérida, Venezuela: Universidad de Los Andes / Fundación Polar. ISBN 978-980-221-707-6.
  6. ^ Schubert, Carlos (1998). "Glaciers of Venezuela". US Geological Survey (USGS P 1386-I).
  7. ^ Schubert, C.; Valastro, S. (1974). "Late Pleistocene glaciation of Páramo de La Culata, north-central Venezuelan Andes". Geologische Rundschau. 63 (2): 516–538. Bibcode:1974GeoRu..63..516S. doi:10.1007/BF01820827. S2CID 129027718.
  8. ^ Mahaney, William C.; Milner, M.W., Kalm, Volli; Dirsowzky, Randy W.; Hancock, R.G.V.; Beukens, Roelf P. (1 April 2008). "Evidence for a Younger Dryas glacial advance in the Andes of northwestern Venezuela". Geomorphology. 96 (1–2): 199–211. Bibcode:2008Geomo..96..199M. doi:10.1016/j.geomorph.2007.08.002.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  9. ^ Maximiliano, B.; Orlando, G.; Juan, C.; Ciro, S. "Glacial Quaternary geology of las Gonzales basin, páramo los conejos, Venezuelan andes".
  10. ^ Schubert, Carlos (1976). "Evidence of former glaciation in the Sierra de Perijá, western Venezuela". Erdkunde. Erdkuner. 30 (3): 222–224. JSTOR 25641752.
  11. ^ Rull, Valentí; Salgado-Labouriau, M.L.; Schubert, Carlos; Valastro, S. (1987). "Late Holocene temperature depression in the Venezuelan Andes: palynological evidence". Palaeogeography, Palaeoclimatology, Palaeoecology. 60: 109–21. Bibcode:1987PPP....60..109R. doi:10.1016/0031-0182(87)90027-7. Retrieved 14 February 2017.

May 21, 2023
venezuelan, andes, spanish, andes, venezolanos, also, simply, known, andes, spanish, andes, venezuela, mountain, system, that, form, northernmost, extension, andes, they, fully, identified, both, their, geological, origin, components, relief, constituent, rock. The Venezuelan Andes Spanish Andes Venezolanos also simply known as the Andes Spanish Los Andes in Venezuela are a mountain system that form the northernmost extension of the Andes They are fully identified both by their geological origin as by the components of the relief the constituent rocks and the geological structure Venezuelan AndesAndes venezolanosA view of Collado of Condor Peak in Venezuelan AndesHighest pointCoordinates8 45 N 70 55 W 8 750 N 70 917 W 8 750 70 917 Coordinates 8 45 N 70 55 W 8 750 N 70 917 W 8 750 70 917GeographyGeographic map of the Andean Venezuelan natural region LocationTachira Merida and Trujillo states the southern area of Lara and portions of higher areas on the western side of Barinas Apure Portuguesa and Zulia statesParent rangeAndesGeologyAge of rockEoceneType of rockIgneous and metamorphic rocksThe Venezuelan Andean system represents the terminal bifurcation of the Cordillera Oriental de Colombia which in Venezuelan territory consists of two mountainous branches the Sierra de Perija smaller slightly displaced from southwest to northeast with 7 500 km2 in Venezuela and a larger frankly oriented Southwest to northeast with about 40 000 km2 the Cordillera de Merida commonly known as the proper Venezuelan Andes 1 The highest point in Venezuela is located in this natural region 2 It covers around 5 2 of the national territory being the 4th largest natural region in Venezuela Contents 1 Geography 2 Geology 2 1 Quaternary tectonics 2 2 Glacial geology 2 2 1 Late Pleistocene glaciation 2 2 2 Late Holocene glaciation 3 Gallery 4 See also 5 ReferencesGeography EditVenezuelan Andes can be divided in two sections Cordillera de Merida covering almost all the territory of Tachira Merida and Trujillo states the southern area of Lara and portions of higher areas on the western side of Barinas Apure and Portuguesa states It can be divided in three subregions Western Venezuelan Andes Macizo del Tama Paramos Batallon y La Negra Central Venezuelan Andes Macizo del Sur Sierra Nevada de Merida Sierra de la Culata Sierra de Santo Domingo 3 North Eastern Venezuelan Andes Sierra de Trujillo Sierra de Portuguesa Lara Andes Sierra de Perija located at the western extreme of Venezuela in Zulia state bordering Colombia Geology EditThey have a common geological origin which dates back to the Eocene period of the early Tertiary era about 40 50 million years ago coincides with the beginning of the contact of the three tectonic plates Nazca Caribbean and South American that began their orographic rise Before the rise of the current Venezuelan Andes between the Cambrian and Silurian periods the so called primitive Andes emerged which already for the Triassic period Mesozoic era had been almost completely flattened because of the intense erosive process to which were subjected 4 Quaternary tectonics Edit It s characterized by the interaction of the three most important lithospheric plates in the region Nazca Caribbean and South American A northwest southwest oriented direction of compression produces vertical and horizontal deformation components with the formation of thrusts align the Andean borders and strike slip faults The split of Venezuelan Andes apparently began in the Late Eocene and its present height was probably attained before the Quaternary During the Quaternary the main active structures are the strike slip faults the principal one being the Bocono Fault Zone with a measured dextral displacement of several millimeters per year In the field this displacement is shown by the existence of fault trenches fault depressions sag ponds offset ridges and lateral moraines 5 Glacial geology Edit Like all tropical mountain ranges with altitudes above 3 000 m the Venezuelan Andes were affected by Pleistocene glaciations Late Pleistocene glaciation Edit Two morainic complexes have been recognized in the Cordillera de Merida one between 2 600 and 2 800 m altitude and another one between 2 900 and 3 500 m These two levels have been considered as Early and Late Stades respectively of the Merida glaciation The moraines of the Late Stade are topographically well represented and several superposed moraines or morainic complexes are found The glaciated area in Cordillera de Merida during the Last Glacial Maximum was approximately 600 km2 6 7 8 9 In the Sierra de Perija the existence of moraines has been mentioned at altitudes between 2 700 and 3 100 m In the absence of more detailed data these have been tentatively assigned to the Late Stade of the Merida glaciation 10 Late Holocene glaciation Edit Evidence of Late Holocene morainic sedimentation are based on palynological and radiocarbon analyses which established a cold phase between the 15th and middle 19th centuries which can be correlate with the Little Ice Age The moraines associated with this phase are most probably those located at an altitude of approximately 4 700 m between 100 and 200 below the terminal zone of present day glaciers 11 Gallery Edit Los Cedros Lagoon Trujillo State Fauna of the Venezuelan Andes Humboldt Peak Snow in the Humboldt Peak Butare RiverSee also Edit Andes portalAndesReferences Edit Vivas Leonel 2012 Geotemas in Spanish San Cristobal Venezuela Fondo Editorial Simon Rodriguez ISBN 978 980 6838 57 4 Perez et al Sep 2005 Alturas del Pico Bolivar y otras cimas andinas venezolanas a partir de observaciones Gps INCI v 30 n 4 Caracas sep 2005 Retrieved 2012 09 27 in Spanish Sanchez Davila Gabriel Sierra de Santo Domingo Biogeographic reconstructions for the Quaternary of a former snowy mountain range Academia in Spanish Retrieved 5 July 2019 Vargas Ponce Jose Garcia Pablo Emilio Geografia 9º Educacion Basica in Spanish Ed Romor ISBN 978 980 6010 67 3 Schubert Carlos Vivas Leonel 1993 El Cuaternario de la Cordillera de Merida in Spanish Merida Venezuela Universidad de Los Andes Fundacion Polar ISBN 978 980 221 707 6 Schubert Carlos 1998 Glaciers of Venezuela US Geological Survey USGS P 1386 I Schubert C Valastro S 1974 Late Pleistocene glaciation of Paramo de La Culata north central Venezuelan Andes Geologische Rundschau 63 2 516 538 Bibcode 1974GeoRu 63 516S doi 10 1007 BF01820827 S2CID 129027718 Mahaney William C Milner M W Kalm Volli Dirsowzky Randy W Hancock R G V Beukens Roelf P 1 April 2008 Evidence for a Younger Dryas glacial advance in the Andes of northwestern Venezuela Geomorphology 96 1 2 199 211 Bibcode 2008Geomo 96 199M doi 10 1016 j geomorph 2007 08 002 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Maximiliano B Orlando G Juan C Ciro S Glacial Quaternary geology of las Gonzales basin paramo los conejos Venezuelan andes Schubert Carlos 1976 Evidence of former glaciation in the Sierra de Perija western Venezuela Erdkunde Erdkuner 30 3 222 224 JSTOR 25641752 Rull Valenti Salgado Labouriau M L Schubert Carlos Valastro S 1987 Late Holocene temperature depression in the Venezuelan Andes palynological evidence Palaeogeography Palaeoclimatology Palaeoecology 60 109 21 Bibcode 1987PPP 60 109R doi 10 1016 0031 0182 87 90027 7 Retrieved 14 February 2017 Retrieved from https en wikipedia org w index php title Venezuelan Andes amp oldid 1143572260, wikipedia, wiki, book, books, library,

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