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Cuyo (Argentina)

Coordinates: 32°54′26″S 68°03′37″W / 32.9073°S 68.0603°W / -32.9073; -68.0603
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(Redirected from Virgin of Cuyo)
Location of the Cuyo region in Argentina

Cuyo is the wine-producing, mountainous region of central-west Argentina. Historically it comprised the provinces of San Juan, San Luis and Mendoza. The modern New Cuyo includes both Cuyo proper and the province of La Rioja. New Cuyo is a political and economic macroregion, but culturally La Rioja is part of the North-West rather than of Cuyo.

Cuyo has some of the most popular tourist attractions in Argentina and the highest mountain massifs in the Andes, including Aconcagua itself, the highest peak outside Asia, and the Ischigualasto Provincial Park.

The soil is arid and reddish, crossed by few rivers. Most of the rivers are fed by the thawing of snow on the peaks, and their volume of water increases considerably in spring. The Desaguadero River is the main collector, receiving waters from the Bermejo, Vinchina and Salado before reaching the Colorado River.

Viticulture is one of the main activities of the area. The wine production of the region represents almost 80% of national production, and the wines are highly regarded throughout the world. Olives, potatoes, tomatoes and some fruits are also cultivated, and there is production of sweets and preserved foodstuffs. Quarrying and oil exploitation are other important industries.

The cities and towns in the region are characterised by colonial low houses and churches, and narrow streets, contrasting in the principal cities with the modern parts. The Universidad Nacional de Cuyo, founded in 1939, is the most important within these provinces, and has its campus in Mendoza, but has faculties as far as Río Negro.

Cuyo province by GDP (nominal) and GDP per capita

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This article includes a list of Cuyo Province sorted by their Gross Domestic Product (nominal) per capita, the value of all final goods and services produced within a nation in a given year, divided by the average population for the same year. The table below includes data for the year 2013 for the 23 provinces

Rank Province GDP Comparable
country
($)
per capita
Comparable
country
1 Mendoza 22,023 Zambia 11,957 Libya
2 San Juan 7,341 Niger 10,170 Costa Rica
3 San Luis 6,117 Guinea 13,201 Poland
4 La Rioja (Argentina) 2,447 Maldives 6,844 China

Table of Cuyo provinces according to the 2001 census [INDEC].

Province Population % of Cuyo Area (km2) % of Cuyo Density (inhabitants/km2)
Mendoza 1,579,651 55.28 148,827 36.76 10.6
San Juan 620,023 21.70 89,651 22.14 6.9
San Luis 367,933 12.88 76,748 18.95 4.8
La Rioja 289,983 10.15 89,680 22.15 3.2
Cuyo Total 2,857,590 100 404,906 100 7.1
Argentina Total 36,260,130 - 2,780,4031 - 13.0

Climate

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Colder weather predominates at higher elevations which can receive snow during the winter
Much of the region is dry, depending on rivers for irrigation

The region of Cuyo has an arid climate or a semi-arid climate with an average annual precipitation of about 100 to 500 millimetres (4 to 20 in) that is generally unreliable from year to year.[1][2] The region, which encompasses a wide range of latitudes combined with elevations ranging from 500 m to nearly 7,000 m means that it has a diverse range of different climates.[2][3] In general, most of the region has a temperate climate with higher elevation valleys having a more milder climate.[4] At the highest elevations (over 4,000 m), icy conditions persist year round.[2] The diurnal range is very large with very hot temperatures during the day followed by cold nights.[5] Amongst all locations in Argentina, the region has the largest diurnal range in the country with areas in San Juan Province having a diurnal range exceeding 19.1 °C (34.38 °F).[6] The Andes prevent rain–bearing clouds from the Pacific Ocean from coming in, while its latitude puts it in a band of the sub-tropical high pressure belt keeping this region dry.[1][7] With very low humidity, abundant sunshine throughout the year, and a temperate climate, the region is suitable for wine production.[3] Droughts are often frequent and prolonged.[7] The Cuyo region is influenced by the subtropical, semi–permanent South Atlantic anticyclone to the east in the Atlantic, the semi-permanent South Pacific anticyclone to the west of the Andes, the development of a low pressure system ("Chaco low") over northern Argentina and westerlies in the southern parts of the region.[1][8] Most of the precipitation falls during the summer, when hot temperatures and high insolation lead to the development of a low pressure system ("Chaco low") situated over northern Argentina that interacts with the South Atlantic anticyclone to generate a pressure gradient that brings moist easterly winds to the region, favouring precipitation, which mostly occurs in the form of convective thunderstorms.[7][9][1][8] More than 85% of the annual rainfall occurs from October to March, which represents the warm season.[1] In contrast, the winter months are dry due to these systems weakening, and the lower insolation that weakens the Chaco low over northern Argentina.[8] Eastern and southeastern areas of the region receive more precipitation than the western areas since they receive more summer rainfall.[8] As such, most of Mendoza province and San Juan province receive the lowest annual precipitation with mean summer precipitation averaging less than 100 mm (3.9 in) and in rare cases, no summer rainfall.[8] Further eastwards in San Luis province, mean summer rainfall averages around 500 mm (20 in) and can exceed 700 mm (28 in) in some areas.[8][10] Higher elevation locations receive precipitation in the form of snow during the winter months.[11][12][13] In the Cuyo region, annual precipitation is highly variable from year to year and appears to follow a cycle between dry and wet years in periods of about 2, 4–5, 6–8, and 16–22 years.[1] In wet years, easterly winds caused by the subtropical South Atlantic anticyclone are stronger, which causes more moisture towards this region while during the dry years, these winds are weaker.[1][8]

Summers in the region are hot and generally very sunny, averaging as much as 10 hours per day.[5][14] In contrast, winters are dry and cold and average around 7–8 hours of sunshine per day.[5][14] Since this region has a wide range of elevations, ranging from 500 m to nearly 7,000 m, temperatures can vary widely with elevation. In the lowlands of Mendoza province, which lie at an elevation of around 440 m to 530 m, mean annual temperatures range from 18.2 to 18.7 °C (64.8 to 65.7 °F) in the northern parts to 15 °C (59 °F) in the south.[15] At higher elevation locations and in the western parts of Mendoza province, the mean annual temperatures range from −1.7 °C (28.9 °F) in Cristo Redentor to 13.6 °C (56.5 °F) with a larger difference in temperatures between winter and summer months.[11] In San Juan Province, the mean annual temperature ranges from 17.3 °C (63.1 °F) in the provincial capital to −0.2 °C (31.6 °F).[16] In San Luis province, mean annual temperatures range from 15.8 °C (60.4 °F) in Villa Reynolds to 16.6 °C (61.9 °F) in the provincial capital.[10][17] The Sierras Pampeanas, which cross into both San Juan province and San Luis province have a milder climate with mean annual temperatures ranging from 12 to 18 °C (53.6 to 64.4 °F).[13] In all locations, at elevations over 3,800 m, permafrost is present while icy conditions persist year round at elevations over 4,000 m.[2]

The Zonda, a Foehn wind characterized by warm, dry air can cause temperatures to exceed 30 °C (86.0 °F) in some cases while in summer, temperatures can exceed 45 °C (113.0 °F) such as in 2003.[18][19] This wind often precedes following a cold front passage across Argentina and tends to occur when a low pressure system brings heavy rain to the Chilean side, and when an upper-level trough allows the winds to pass over the Andes to descend downwards.[18][20][21] As such, when a zonda wind event occurs, the temperature may raise as much as 20 °C (68.0 °F) in a few hours with humidity approaching 0%.[20] In contrast, cold waves are also common, owing to the Andes channeling cold air from the south, allowing cold fronts to frequently come during the winter months, causing cool to cold temperatures with temperatures that can fall below freezing.[21][22] Temperatures can dip below −10 to −30 °C (14.0 to −22.0 °F) at the higher elevations.[12]

Tourism

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As in other parts of Argentina, nature tourism is an important source of income. Amongst sites that receive a large number of visitors, the following are its main attractions:

References

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  1. ^ a b c d e f g Eduardo, Agosta; Compagnucci, Rosa (2012). "Central-West Argentina Summer Precipitation Variability and Atmospheric Teleconnections" (PDF). Journal of Climate. 25 (5): 1657–1677. Bibcode:2012JCli...25.1657A. doi:10.1175/JCLI-D-11-00206.1. hdl:11336/68178.
  2. ^ a b c d Daudon, Dominique; Moreiras, Stella; Beck, Elise (2014). "Multi Hazard Scenarios in the Mendoza/San Juan Provinces, Cuyo Region Argentina". Procedia Economics and Finance. 18: 560–567. doi:10.1016/S2212-5671(14)00976-9. hdl:11336/32034.
  3. ^ a b "Reseña de la vitivinicultura argentina" (in Spanish). Acenología. Archived from the original on 13 June 2015. Retrieved 11 June 2015.
  4. ^ Canziani, Pablo; Scarel, Eduardo. "South American Viticulture, Wine Production, and Climate Change" (PDF). Pontificia Universidad Católica Argentina. Retrieved 18 June 2015.
  5. ^ a b c "Región de Cuyo" (PDF) (in Spanish). Ministerio del Interior y Transporte. Retrieved June 17, 2015.
  6. ^ "Datos extremos en el país y en el mundo" (in Spanish). Servicio Meteorológico Nacional. Retrieved June 19, 2015.
  7. ^ a b c "Climate Overview" (PDF). Met Office. Retrieved 7 June 2015.
  8. ^ a b c d e f g Compagnucci, Rosa; Eduardo, Agosta; Vargas, W. (2002). "Climatic change and quasi-oscillations in central-west Argentina summer precipitation: main features and coherent behaviour with southern African region" (PDF). Climate Dynamics. 18 (5): 421–435. Bibcode:2002ClDy...18..421C. doi:10.1007/s003820100183. S2CID 128568839. Archived from the original (PDF) on 23 June 2015. Retrieved 17 June 2015.
  9. ^ Veblen, Thomas; Young, Kenneth; Orme, Antony (2007). The Physical Geography of South America. Oxford University Press. p. 233. ISBN 978-0-19-531341-3.
  10. ^ a b "Provincia de San Luis–Clima Y Metéorologia" (in Spanish). Secretaria de Mineria de la Nacion (Argentina). Archived from the original on July 1, 2015. Retrieved June 22, 2015.
  11. ^ a b "Provincia de Mendoza–Clima Y Metéorologia" (in Spanish). Secretaria de Mineria de la Nacion (Argentina). Archived from the original on June 23, 2015. Retrieved June 22, 2015.
  12. ^ a b "Provincia de San Juan–Clima Y Metéorologia" (in Spanish). Secretaria de Mineria de la Nacion (Argentina). Archived from the original on June 23, 2015. Retrieved June 22, 2015.
  13. ^ a b "Región de Las Sierras Pampeanas" (PDF) (in Spanish). Retrieved June 23, 2015.
  14. ^ a b "Argentina". BBC Weather. Retrieved 7 June 2015.
  15. ^ Loyarte, Maria; Menenti, Massimo; Diblasi, Angela (2008). "Modelling bioclimate by means of Fourier analysis of NOAA–AVHRR NDVI time series in Western Argentina". International Journal of Climatology. 28 (9): 1175–1188. Bibcode:2008IJCli..28.1175L. doi:10.1002/joc.1610. hdl:11336/92890. S2CID 129352110.
  16. ^ "Cap. 10 Clima de la Provincia de San Juan" (in Spanish). Centro Regional de Investigaciones Científicas y Tecnológicas. Retrieved June 22, 2015.
  17. ^ "Villa Reynolds Climate Normals 1961–1990". National Oceanic and Atmospheric Administration. Retrieved June 22, 2015.
  18. ^ a b Norte, Federico; Ulke, Ana (2008). "The severe zonda wind event of 11 July 2006 east of the Andes Cordillera (Argentine): a case study using the BRAMS model" (PDF). Climate Dynamics. 18 (5): 421–435. Bibcode:2002ClDy...18..421C. doi:10.1007/s003820100183. S2CID 128568839. Retrieved 23 June 2015.
  19. ^ Seluchi, Marcelo; Norte, Federico; Gomes, Jorge; Simonelli, Silvia (2008). Synoptic and Thermodynamic Analysis of an Extreme Heat Wave over Subtropical South America (PDF). 8th International Conference on Southern Hemisphere Meteorology and Oceanography. Archived from the original (PDF) on 24 June 2015. Retrieved 23 June 2015.
  20. ^ a b Seluchi, Marcelo; Norte, Federico; Satyamurty, Prakki; Chou, Sin (2003). "Analysis of Three Situations of the Foehn Effect over the Andes (Zonda Wind) using the Eta–CPTEC Regional Model". Weather and Forecasting. 18 (3): 481–501. Bibcode:2003WtFor..18..481S. doi:10.1175/1520-0434(2003)18<481:AOTSOT>2.0.CO;2. hdl:11336/40961.
  21. ^ a b Nobre, Carlos; Chou, S.; Figueroa, S.; Nicolini, Matillde (1998). "The Andes & Associated Circulations over Central & Eastern South America" (PDF). Retrieved 23 June 2015.
  22. ^ Seluchi, Marcelo; Garreaud, Rene; Norte, Federico; Saulo, A. (2006). "Influence of the Subtropical Andes on Baroclinic Disturbances: A Cold Front Case Study" (PDF). Monthly Weather Review. 134 (11): 3317–3335. Bibcode:2006MWRv..134.3317S. doi:10.1175/MWR3247.1. Archived from the original (PDF) on 24 June 2015. Retrieved 23 June 2015.
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32°54′26″S 68°03′37″W / 32.9073°S 68.0603°W / -32.9073; -68.0603