Atacama Desert Explained

Atacama Desert
Map:Atacama map.svg
Map Size:250
Biogeographic Realm:Neotropical
Biome:Deserts and xeric shrublands
Border:Central Andean dry puna
Border1:Chilean matorral,
Border2:Sechura Desert
Area:104,741
Country:Chile
Protected:3,385 km² (3
Protected Ref:)[1]

The Atacama Desert (Spanish; Castilian: Desierto de Atacama) is a desert plateau located on the Pacific coast of South America, in the north of Chile. Stretching over a 1600km (1,000miles) strip of land west of the Andes Mountains, it covers an area of 105000-3NaN-3,[2] which increases to 128000-3NaN-3 if the barren lower slopes of the Andes are included.[3]

The Atacama Desert is the driest nonpolar desert in the world, and the second driest overall, behind some specific spots within the McMurdo Dry Valleys.[4] [5] [6] [7] It is the only true desert to receive less precipitation than polar deserts, and the largest fog desert in the world. The area has been used as an experimentation site for Mars expedition simulations due to its similarities to the Martian environment.

The constant temperature inversion caused by the cool north-flowing Humboldt ocean current and the strong Pacific anticyclone contribute to the extreme aridity of the desert.[8] The most arid region of the Atacama Desert is situated between two mountain chains, the Andes and the Chilean Coast Range, which are high enough to prevent moisture advection from either the Pacific or the Atlantic Ocean, creating a two-sided rain shadow effect.[9]

Setting

See also: Andean orogeny and Arid Diagonal. According to the World Wide Fund for Nature, the Atacama Desert ecoregion occupies a continuous strip for nearly 1600sigfig=1NaNsigfig=1 along the narrow coast of the northern third of Chile, from near Arica (18°24′S) southward to near La Serena (29°55′S). The National Geographic Society considers the coastal area of southern Peru to be part of the Atacama Desert[10] [11] and includes the deserts south of the Ica Region in Peru. However, other sources consider that the part of the desert in Peru is a different ecosystem, and should properly be named as Pampas de la Joya desert.

Peru borders it on the north and the Chilean Matorral ecoregion borders it on the south. To the east lies the less arid Central Andean dry Puna ecoregion. The drier portion of this ecoregion is located south of the Loa River between the parallel Sierra Vicuña Mackenna and the Cordillera Domeyko. To the north of the Loa lies the Pampa del Tamarugal.

The Coastal Cliff of northern Chile west of the Chilean Coast Range is the main topographical feature of the coast.[12] The geomorphology of the Atacama Desert has been characterized as a low-relief bench "similar to a giant uplifted terrace" by Armijo and co-workers.[13] The intermediate depression (or Central Valley) forms a series of endorheic basins in much of the Atacama Desert south of latitude 19°30'S. North of this latitude, the intermediate depression drains into the Pacific Ocean.[14]

In December 2023, scientists, for the first time, reported on a recently discovered area in the territory of Puna de Atacama, which may have similarities to Earth during the Archean eon and thus to the environment of the first life forms on Earth. It could as well be similar to conceivably-hospitable conditions on the planet Mars during earlier Martian times.[15]

Climate

The almost total lack of precipitation is the most prominent characteristic of the Atacama Desert.[16]

Aridity

The Atacama Desert is commonly known as the driest place in the world, especially the surroundings of the abandoned Yungay mining town, where the University of Antofagasta Desert Research Station is located,[17] in Antofagasta Region, Chile.[18] The average rainfall is about 151NaN1 per year,[19] although some locations only receive 1to in a year.[20] Moreover, some weather stations in the Atacama have never received rain. Periods up to four years have been registered with no rainfall in the central sector, delimited by the cities of Antofagasta, Calama, and Copiapó, in Chile.[21] Evidence suggests that the Atacama may not have had any significant rainfall from 1570 to 1971.[2] The Atacama Desert may be the oldest desert on earth, and has experienced hyper aridity since at least the Middle Miocene, since the establishment of a proto-Humboldt current in conjunction with the opening of the Tasmania-Antarctic passage ca. 33 Ma.[22] The opening of the Tasmania-Antarctic passage allowed for cold currents to move along the west coast of South America, which influenced the availability of warm humid air to travel from the Amazon Basin to the Atacama. Though there was a general lack of humid air after 33 Ma, there were punctuated intervals of increased humidity,[23] such as between around 10.86 and 6.4 Ma, when the Tiliviche Palaeolake existed before turning into a salar sometime before the Middle Pliocene.[24] The long history of aridity raises the possibility that supergene mineralisation, under the appropriate conditions, can form in arid environments, instead of requiring humid conditions.[25] The presence of evaporite formations suggests that in some sections of the Atacama Desert, arid conditions have persisted for the last 200 million years (since the Triassic).

Aridity in Atacama Desert predates the rise of the Central Andes, yet hyper-aridity is generally thought to have resulted from the rise of the Andes. As such it is hypothesised it had climatic conditions akin to the Namib Desert prior to the rise of the mountains.[26]

The Atacama is so arid that many mountains higher than 6000m (20,000feet) are completely free of glaciers. Only the highest peaks (such as Ojos del Salado, Monte Pissis, and – debatably – Llullaillaco) have some permanent snow coverage.

The southern part of the desert, between 25° and 27°S, may have been glacier-free throughout the Quaternary (including during glaciations), though permafrost extends down to an altitude of 4400-2NaN-2 and is continuous above 5600-2NaN-2. Studies by a group of British scientists have suggested that some river beds have been dry for 120,000 years.[27] However, some locations in the Atacama receive a marine fog known locally as the camanchaca, providing sufficient moisture for hypolithic algae, lichens, and even some cacti—the genus Copiapoa is notable among these.

Geographically, the aridity of the Atacama is explained by its being situated between two mountain chains (the Andes and the Chilean Coast Range) of sufficient height to prevent moisture advection from either the Pacific or the Atlantic Oceans, a two-sided rain shadow.

Despite modern views of the Atacama Desert as fully devoid of vegetation, in pre-Columbian and colonial times a large flatland area there known as Pampa del Tamarugal was a woodland, but demand for firewood associated with silver and saltpeter mining in the 18th and 19th centuries resulted in widespread deforestation.[28]

Comparison to Mars

In a region about 100-1NaN-1 south of Antofagasta, which averages 3000-3NaN-3 in elevation, the soil has been compared to that of Mars. Owing to its otherworldly appearance, the Atacama has been used as a location for filming Mars scenes, most notably in the television series .

In 2003, a team of researchers published a report in which they duplicated the tests used by the Viking 1 and Viking 2 Mars landers to detect life and were unable to detect any signs in Atacama Desert soil in the region of Yungay.[29] The region may be unique on Earth in this regard and is being used by NASA to test instruments for future Mars missions. The team duplicated the Viking tests in Mars-like Earth environments and found that they missed present signs of life in soil samples from Antarctic dry valleys, the Atacama Desert of Chile and Peru, and other locales.However, in 2014, a new hyperarid site was reported, María Elena South, which was much drier than Yungay and, thus, a better Mars-like environment.[30]

In 2008, the Phoenix Mars Lander detected perchlorates on the surface of Mars at the same site where water was first discovered.[31] Perchlorates are also found in the Atacama and associated nitrate deposits have contained organics, leading to speculation that signs of life on Mars are not incompatible with perchlorates. The Atacama is also a testing site for the NASA-funded Earth–Mars Cave Detection Program.[32]

On 21 February 2023, scientists reported the findings of a "dark microbiome" of unfamiliar microorganisms in the Atacama Desert.[33] [34]

Extreme weather events

In June 1991, Antofagasta and Taltal and inland regions as far as Calama received unusual rainfall leading to formation of a series of mudflows that killed 91 persons.[35] [36] [37]

In 2012, the altiplano winter brought floods to San Pedro de Atacama.[38] [39]

On 25 March 2015, heavy rainfall affected the southern part of the Atacama Desert.[40] [41] Resulting floods triggered mudflows that affected the cities of Copiapo, Tierra Amarilla, Chanaral, and Diego de Almagro, causing the deaths of more than 100 people.

Flora

In spite of the geographic and climatic conditions of the desert, a rich variety of flora has evolved there. Over 500 species have been gathered within the border of this desert. These species are characterized by their extraordinary ability to adapt to this extreme environment.[42] The most common species are herbs and flowers such as thyme, llareta, and saltgrass (Distichlis spicata), and where humidity is sufficient, trees such as the chañar (Geoffroea decorticans), the pimiento tree, and the leafy algarrobo (Prosopis chilensis).

The llareta is one of the highest-growing wood species in the world. It is found at altitudes between 3000and. Its dense form is similar to a pillow some 3to thick. It concentrates and retains the heat from the day to cope with low evening temperatures. The growth rate of the llareta has been recently estimated at 1.5cm/year, making many llaretas over 3,000 years old. It produces a much-prized resin, which the mining industry once harvested indiscriminately as fuel, making this plant endangered.

The desert is also home to cacti, succulents, and other plants that thrive in a dry climate. Cactus species here include the candelabro (Browningia candelaris) and cardon (Echinopsis atacamensis), which can reach a height of 7m (23feet) and a diameter of 70cm (30inches).

The Atacama Desert flowering () can be seen from September to November in years with sufficient precipitation, as happened in 2015.[40] [41]

Fauna

The climate of the Atacama Desert limits the number of animals living permanently in this extreme ecosystem. Some parts of the desert are so arid, no plant or animal life can survive. Outside of these extreme areas, sand-colored grasshoppers blend with pebbles on the desert floor, and beetles and their larvae provide a valuable food source in the lomas (hills). Desert wasps and butterflies can be found during the warm and humid season, especially on the lomas. Red scorpions also live in the desert.A unique environment is provided by some lomas, where the fog from the ocean provides enough moisture for seasonal plants and a few animal species. Surprisingly few reptile species inhabit the desert and even fewer amphibian species. Chaunus atacamensis, the Vallenar toad or Atacama toad, lives on the lomas, where it lays eggs in permanent ponds or streams. Iguanians and lava lizards inhabit parts of the desert, while salt flat lizards, Liolaemus, live in the dry areas bordering the ocean.[43] One species, Liolaemus fabiani, is endemic to the Salar de Atacama, the Atacama salt flat.[44]

Birds are one of the most diverse animal groups in the Atacama. Humboldt penguins live year-round along the coast, nesting in desert cliffs overlooking the ocean. Inland, high-altitude salt flats are inhabited by Andean flamingos, while Chilean flamingos can be seen along the coast. Other birds (including species of hummingbirds and rufous-collared sparrow) visit the lomas seasonally to feed on insects, nectar, seeds, and flowers. The lomas help sustain several threatened species, such as the endangered Chilean woodstar.

Because of the desert's extreme aridity, only a few specially adapted mammal species live in the Atacama, such as Darwin's leaf-eared mouse. The less arid parts of the desert are inhabited by the South American gray fox and the viscacha (a relative of the chinchilla). Larger animals, such as guanacos and vicuñas, graze in areas where grass grows, mainly because it is seasonally irrigated by melted snow. Vicuñas need to remain near a steady water supply, while guanacos can roam into more arid areas and survive longer without fresh water. South American fur seals and South American sea lions often gather along the coast.

Human presence

thumb|View of Caspana a village and Likan Antai settlement in the interior Atacama Desert

The Atacama is sparsely populated, with most towns located along the Pacific coast.[45] In interior areas, oases and some valleys have been populated for millennia and were the location of the most advanced pre-Columbian societies found in Chile.

Chinchorro culture

See main article: Chinchorro culture.

The Chinchorro culture developed in the Atacama Desert area from 7000 BCE to 1500 BCE. These peoples were sedentary fishermen inhabiting mostly coastal areas. Their presence is found from today's towns of Ilo, in southern Peru, to Antofagasta in northern Chile. Presence of fresh water in the arid region on the coast facilitated human settlement in these areas. The Chinchorro were famous for their detailed mummification and funerary practices.[46]

Inca and Spanish empires

San Pedro de Atacama, at about 2400-3NaN-3 elevation, is like many of the small towns. Before the Inca Empire and prior to the arrival of the Spanish, the extremely arid interior was inhabited primarily by the Atacameño tribe. They are noted for building fortified towns called pucarás, one of which is located a few kilometers from San Pedro de Atacama. The town's church was built by the Spanish in 1577.

The Atacameño[47] were an extinct South American Indian culture,[48] different from the Aymara to the north and the Diaguita to the south.

The oasis settlement of Pica has Pre-hispanic origins and served as an important stopover for transit between the coast and the Altiplano during the time of the Inca Empire.[49]

The coastal cities originated in the 16th, 17th, and 18th centuries during the time of the Spanish Empire, when they emerged as shipping ports for silver produced in Potosí and other mining centers. At the end of the 18th century, Carlos IV defines the southern border of the Viceroyalty of Peru at the port of Nuestra Señora del Paposo.

Republican period

During the 19th century, the desert came under control of Bolivia, Chile, and Peru. With the discovery of sodium nitrate deposits and as a result of Chilean expansion plans, the area soon became a zone of conflict and resulted in the War of the Pacific. Chile annexed most of the desert, and cities along the coast developed into international ports, hosting many Chilean workers who migrated there.[50] [51] [52]

With the guano and saltpeter booms of the 19th century, the population grew immensely, mostly as a result of immigration from central Chile. In the 20th century, the nitrate industry declined and at the same time, the largely male population of the desert became increasingly problematic for the Chilean state. Miners and mining companies came into conflict, and protests spread throughout the region.

Around 1900, there were irrigation system of puquios spread through the oases of Atacama Desert. Puquios are known from the valleys of Azapa and Sibaya and the oases of La Calera, Pica-Matilla and Puquio de Núñez. In 1918, geologist Juan Brüggen mentioned the existence of 23 socavones (shafts) in the Pica oasis, yet these have since been abandoned due to economic and social changes.[53]

Abandoned nitrate mining towns

See main article: List of saltpeter works in Tarapacá and Antofagasta. The desert has rich deposits of copper and other minerals and the world's largest natural supply of sodium nitrate (Chile saltpeter), which was mined on a large scale until the early 1940s. The Atacama border dispute over these resources between Chile and Bolivia began in the 19th century and resulted in the War of the Pacific.[54]

The desert is littered with about 170 abandoned nitrate (or "saltpeter") mining towns, almost all of which were shut down decades after the invention of synthetic nitrate in Germany in the first decade of the 20th century (see Haber process). The towns include Chacabuco, Humberstone, Santa Laura, Pedro de Valdivia, Puelma, María Elena, and Oficina Anita.

The Atacama Desert is rich in metallic mineral resources such as copper, gold, silver and iron, as well as nonmetallic minerals including important deposits of boron, lithium, sodium nitrate, and potassium salts. The Salar de Atacama is where bischofite is extracted. These resources are exploited by various mining companies such as Codelco, Lomas Bayas, Mantos Blancos, and Soquimich.[55] [56]

Pollution

In recent years, large amounts of used clothing imported from overseas have begun to accumulate in portions of the desert. Because of the dry conditions, they do not decompose at the normal rate, and fires have exposed nearby residents to air pollution.[57]

Astronomical observatories

Because of its high altitude, nearly nonexistent cloud cover, dry air, and freedom from light pollution and radio interference from widely populated cities and towns, this desert is one of the best places in the world to conduct astronomical observations.[58] [59] Hundreds of thousands of stars can be viewed via telescope since the desert experiences more than 200 cloudless nights each year. A number of telescopes have been installed to help astronomers from across the globe study the universe.[60] A radio astronomy telescope, called the Atacama Large Millimeter Array, built by European countries, Japan, the United States, Canada, and Chile in the Llano de Chajnantor Observatory officially opened on 3 October 2011.[61] A number of radio astronomy projects, such as the CBI, the ASTE and the ACT, among others, have been operating in the Chajnantor area since 1999. On 26 April 2010, the ESO council decided to build a fourth site, Cerro Armazones, to be home to the Extremely Large Telescope.[62] [63] [64] Construction work at the ELT site started in June 2014.[65] The Carnegie Institution for Science operates the Las Campanas Observatory with several telescope in the southern portion of the desert.

The European Southern Observatory operates three major observatories in the Atacama and is currently building a fourth:

Other uses

Sports

The Atacama Desert is popular with all-terrain sports enthusiasts. Various championships have taken place here, including the Lower Atacama Rally, Lower Chile Rally, Patagonia-Atacama Rally, and the latter Dakar Rally's editions. The rally was organized by the Amaury Sport Organisation and held in 2009, 2010, 2011, and 2012. The dunes of the desert are ideal rally races located in the outskirts of the city of Copiapó.[66] The 2013 Dakar 15-Day Rally started on 5 January in Lima, Peru, through Chile, Argentina and back to Chile finishing in Santiago.[67] Visitors also use the Atacama Desert sand dunes for sandboarding .

A week-long foot race called the Atacama Crossing has the competitors cross the various landscapes of the Atacama.[68]

An event called Volcano Marathon takes place near the Lascar volcano in the Atacama Desert.[69]

Solar car racing

Eighteen solar powered cars were displayed in front of the presidential palace (La Moneda) in Santiago in November 2012.[70] The cars were then raced 1300km (800miles) through the desert from 15–19 November 2012.[71]

Tourism

Most people who go to tour the sites in the desert stay in the town of San Pedro de Atacama.[72] The Atacama Desert is in the top three tourist locations in Chile. The specially commissioned ESO hotel is reserved for astronomers and scientists.[73]

El Tatio Geyser

See main article: El Tatio. About 80 geysers occur in a valley about 80 km from the town of San Pedro de Atacama. They are closer to the town of Chiu Chiu.[74]

Termas Baños de Puritama

The Baños de Puritama are rock pools which are 37abbr=offNaNabbr=off from the geysers.[75]

Protected areas

Legends

See also

References

Bibliography

External links

Notes and References

  1. Eric Dinerstein, David Olson, et al. (2017). An Ecoregion-Based Approach to Protecting Half the Terrestrial Realm, BioScience, Volume 67, Issue 6, June 2017, Pages 534–545; Supplemental material 2 table S1b. https://doi.org/10.1093/biosci/bix014
  2. Book: The New York Times Almanac . Penguin Books . 2006 . 978-0-14-303820-7 . Wright . John W. . 2007 . New York . 456 . registration.
  3. Book: Rundel . P.W. . Physical Geography of South America . Villagra . P.E. . Dillon . M.O. . Roig-Juñent . S. . Debandi . G. . . 2007 . Veblen . Thomas T. . Thomas T. Veblen . 158–183 . Arid and Semi-Arid Ecosystems . 2 . Young . Kenneth R. . Orme . Anthony R..
  4. Clow GD, McKay CP, Simmons Jr GM, Wharton Jr RA . Climatological observations and predicted sublimation rates at Lake Hoare, Antarctica . 1988 . Journal of Climate . 1 . 7 . 715–728 . 11538066 . 1988JCli....1..715C . 10.1175/1520-0442(1988)001<0715:COAPSR>2.0.CO;2 . free.
  5. Doran PT, McKay CP, Clow GD, Dana GL, Fountain AG, Nylen T, Lyons WB . Valley floor climate observations from the McMurdo Dry Valleys . Journal of Geophysical Research: Atmospheres . 107 . D24 . ACL–13 . 2002.
  6. Porazinska DL, Fountain AG, Nylen TH, Tranter M, Virginia RA, Wall DH . The biodiversity and biogeochemistry of cryoconite holes from McMurdo Dry Valley glaciers, Antarctica . Arctic, Antarctic, and Alpine Research . 36 . 1 . 84–91 . 2004 . 10.1657/1523-0430(2004)036[0084:TBABOC]2.0.CO;2 . 35782175 . 1523-0430.
  7. Web site: Our Planet . Top 10 driest places on Earth . 9 November 2015 .
  8. Mckay . Christopher P. . Temperature and Moisture Conditions for Life in the Extreme Arid Region of the Atacama Desert: Four Years of Observations Including the El Niño of 1997–1998 . Astrobiology . 3 . 2 . 393–406 . 2003 . 2003AsBio...3..393M . 14577886 . 10.1.1.516.2293 . 10.1089/153110703769016460.
  9. Book: Veblen, Thomas T.. Thomas T. Veblen . The Physical Geography of South America . Oxford University Press . 2007 . 160 . 978-0-19-531341-3.
  10. Web site: Handwerk. Brian. Viking Mission May Have Missed Mars Life, Study Finds. https://web.archive.org/web/20061106191148/http://news.nationalgeographic.com/news/2006/10/061023-mars-life.html. dead. 6 November 2006. National Geographic News. National Geographic Society. 3 April 2013. 23 October 2006.
  11. Web site: Minard. Anne. Giant Penguins Once Roamed Peru, Fossils Show. https://web.archive.org/web/20070628185533/http://news.nationalgeographic.com/news/2007/06/070625-giant-penguins.html. dead. 28 June 2007. National Geographic News. National Geographic Society. 3 April 2013. 25 June 2007.
  12. Quezada . Jorge . Cerda . José Luis . Jensen . Arturo . 2010 . Efectos de la tectónica y el clima en la configuración morfológica del relieve costero del norte de Chile . es . . 37 . 1 . 78–109 . 10.4067/s0718-71062010000100004. free .
  13. Armijo . Rolando . Lacassin . Robin . Coudurier-Curveur . Aurélie . Carrizo . Daniel . Coupled tectonic evolution of Andean orogeny and global climate . Earth-Science Reviews . 143 . 1–35 . 2015 . 2015ESRv..143....1A . 10.1016/j.earscirev.2015.01.005 . free.
  14. Evenstar . Laura . Mather . Anna . Stuart . Finlay . Cooper . Frances. Sparks. Steve . May 2014 . Geomorphic surfaces and supergene enrichment in Northern Chile . EGU General Assembly Conference Abstracts . 11126 . EGU General Assembly 2014, held 27 April - 2 May 2014 . Vienna . 2014EGUGA..1611126E.
  15. News: Strain . Daniel . Deep within an inhospitable desert, a window to the first life on Earth . 6 December 2023 . . live . https://archive.today/20231230225404/https://www.colorado.edu/today/2023/12/06/deep-within-inhospitable-desert-window-first-life-earth . 30 December 2023 . 30 December 2023 .
  16. News: Hyper-Arid Atacama Desert Hit By Snow . live . . 7 July 2011 . 7 July 2011 . https://web.archive.org/web/20110708015400/http://www.bbc.co.uk/news/science-environment-14067245 . 8 July 2011.
  17. Web site: Yungay - the driest place in the world . www.wondermondo.com. 6 May 2017. 3 November 2010.
  18. Book: Boehm, Richard G. . The World and its People . 2005 . Glencoe/McGraw-Hill . New York. 978-0-07-860977-0. 276. Teacher's wraparound. Armstrong, David G. . Hunkins, Francis P. . Reinhartz, Dennis . Lobrecht, Merry.
  19. Web site: The desert biome. University of California Museum of Paleontology.
  20. Web site: Rare snow in the Atacama Desert: Image of the Day. NASA. 13 July 2011.
  21. Vesilind . Priit J.. The Driest Place on Earth . https://web.archive.org/web/20071218212813/http://ngm.nationalgeographic.com/ngm/0308/feature3/ . dead . 18 December 2007 . August 2003 . National Geographic Magazine. 2 April 2013. (Excerpt)
  22. Dunai . Tibor J. . González López . Gabriel A. . Juez-Larré . Joaquim . 2005 . Oligocene–Miocene age of aridity in the Atacama Desert revealed by exposure dating of erosion-sensitive landforms . Geology . 33 . 4 . 321 . 10.1130/g21184.1 . 2005Geo....33..321D . 0091-7613.
  23. Medialdea . Alicia . May . Simon Matthias . Brill . Dominik . King . Georgina . Ritter . Benedikt . Wennrich . Volker . Bartz . Melanie . Zander . Anja . Kuiper . Klaudia . Hurtado . Santiago . Hoffmeister . Dirk . Schulte . Philipp . Gröbner . Marie . Opitz . Stephan . Brückner . Helmut . Bubenzer . Olaf . January 2020 . Identification of humid periods in the Atacama Desert through hillslope activity established by infrared stimulated luminescence (IRSL) dating . . 185 . 103086 . 10.1016/j.gloplacha.2019.103086 . 2020GPC...18503086M . 1871.1/b0bea7ff-0aa7-4901-b17a-5b5bc285768d . 214198721 . 13 November 2022. free .
  24. Kirk-Lawlor . Naomi E. . Jordan . Teresa E. . Rech . Jason A. . Lehmann . Sophie B. . 1 October 2013 . Late Miocene to Early Pliocene paleohydrology and landscape evolution of Northern Chile, 19° to 20° S . . 387 . 76–90 . 10.1016/j.palaeo.2013.07.011 . 2013PPP...387...76K . 15 November 2022.
  25. Antiquity of aridity in the Chilean Atacama Desert . Jonathan D. A. Clarke . Geomorphology . 73 . 1–2 . 2006 . 101–114 . https://web.archive.org/web/20150905182608/http://quest.nasa.gov/projects/spacewardbound/docs/sdarticle.pdf . 5 September 2015 . 10.1016/j.geomorph.2005.06.008. dead . 2006Geomo..73..101C.
  26. A comparative study of the atmospheric water vapor in the Atacama and Namib Desert . . Veloso . José Vicencio . 232 . Böhm . Christoph . 10.1016/j.gloplacha.2023.104320 . 2024 . Schween . Jan H. . Löhnert . Ulrich . Crewell . Susanne.
  27. News: Chile desert's super-dry history . BBC News . 8 December 2005 . 25 April 2010.
  28. El bosque de la Pampa del Tamarugal y la industria salitrera: El problema de la deforestación, los proyectos para su manejo sustentable y el debate político (Tarapacá, Peru-Chile 1829-1941). Scripta Nova. Castro Castro. Luis. 2020-07-01. XXIV. Universitat de Barcelona. 641. es. The Forest of Pampa del Tamarugal and the Saltpeter Industry: The Deforestation Problem, the Projects for their Sustainable Management and the Political Debate (Tarapacá, Perú-Chile 1829-1941).
  29. Navarro-Gonzalez. R.. 18220447. Mars-Like Soils in the Atacama Desert, Chile, and the Dry Limit of Microbial Life. Science. 7 November 2003. 302. 5647. 1018–1021. 10.1126/science.1089143. 14605363. 2003Sci...302.1018N.
  30. azua-bustos. A.. Discovery and microbial content of the driest site of the hyperarid Atacama Desert, Chile.. Environmental Microbiology Reports. 24 December 2014. 25545388. 10.1111/1758-2229.12261. 7. 3. 388–94.
  31. Web site: Thompson . Andrea . Scientists Set Record Straight on Martian Salt Find . Space.com . 5 August 2008 . 6 August 2008.
  32. Wynne . J.J. . Cabrol . N.A. . Chong Diaz . G. . Grin . G.A. . Jhabvala . M.D. . Moersch . J.E. . Titus . T.N. . Earth–Mars Cave Detection Program Phase 2 – 2008 Atacama Desert Expedition . dead . 3 April 2013 . 1 September 2019 . https://web.archive.org/web/20190901184720/https://www.explorers.org/flag_reports/Flag_52_-_J_Judson_Wynne_Flag_Report.pdf.
  33. News: Achenbach . Joel . Strange DNA found in the desert offers lessons in the hunt for Mars life . 21 February 2023 . . 21 February 2023 .
  34. Azua-Bustos, Armando . et al. . Dark microbiome and extremely low organics in Atacama fossil delta unveil Mars life detection limits . 21 February 2023 . . 14 . 808 . 808 . 10.1038/s41467-023-36172-1 . 36810853 . 9944251 . 2023NatCo..14..808A .
  35. News: A 28 años del aluvión de Antofagasta, estudio advierte riesgos en zona de La Chimba. Yáñez. Cecilia. June 18, 2019. June 18, 2021. La Tercera. es.
  36. Web site: Melin . Jorge . June 15, 2002 . Las heridas del aluvión . El Mercurio de Antofagasta. es. June 18, 2021.
  37. Web site: June 18, 2007 . El aluvión de Antofagasta y la solidaridad de loinos . . es . June 18, 2021 . 26 June 2021 . https://web.archive.org/web/20210626190020/https://www.mercuriocalama.cl/prontus4_nots/site/artic/20070618/pags/20070618040943.html . dead .
  38. News: 11 February 2012 . Inundación en San Pedro de Atacama deja 800 afectados y 13 turistas evacuados . es . El Mostrador . 3 December 2012 . 31 May 2013 . https://web.archive.org/web/20130531090910/http://www.elmostrador.cl/noticias/pais/2012/02/11/inundacion-en-san-pedro-de-atacama-deja-800-afectados-y-13-turistas-evacuados/ . dead .
  39. Web site: 15 February 2012 . Tourism in San Pedro de Atacama restricted by floods . dead . https://web.archive.org/web/20131202222016/http://www.thisischile.cl/7509/2/tourism-in-san-pedro-de-atacama-is-restricted-by-floods/News.aspx . 2 December 2013 . 3 December 2012 . This is Chile.
  40. Web site: 29 October 2015 . Atacama Desert Blooms Pink After Historic Rainfall (Photos) . LiveScience.com.
  41. Web site: Erin Blakemore . The World's Driest Desert Is in Breathtaking Bloom . Smithsonian.
  42. Thos. Morong. . 2475523. The Flora of the Desert of Atacama . Bulletin of the Torrey Botanical Club . 18 . 2 . 12 February 1891 . 39–48 . 10.2307/2475523.
  43. Web site: Animals that live in the Atacama Desert . Monique Bos . Paw Nation . 1 August 2013 . https://web.archive.org/web/20140102192958/http://animals.pawnation.com/animals-live-atacama-desert-2505.html . 2 January 2014 . dead .
  44. Claudio M. Escobar . et al . Chemical Composition of Precloacal Secretions of Two Liolaemus fabiani Populations: Are They Different? . Diary of Chemical Ecology . 29 . 3 . March 2003 . 629–638 . 10.1023/A:1022858919037. 12757324 . 12330002 .
  45. http://southamerica.zoom-maps.com/ South America physical map
  46. Sanz, Nuria; Arriaza, Bernardo T.; Standen, Vivien G., The Chinchorro Culture: A Comparative Perspective. The archaeology of the earliest human mummification. UNESCO Office Mexico; Universidad de Tarapacá (Chile); National Monuments Council (Chile) Paris, UNESCO, 2014
  47. Web site: Atacama Desert Dwellers, Ancient Cultures & Pre-Columbian Societies Britannica . 2024-01-06 . www.britannica.com . en.
  48. Web site: 2022-08-30 . South American Indian History, Culture & Traditions Britannica . 2024-01-06 . www.britannica.com . en.
  49. Tráfico e interacción en el oasis de Pica y la costa arreica en el desierto tarapaqueño (norte de Chile). Estudios Atacameños. Núñez A.. Lautaro. Lautaro Núñez Atencio. 56. Briones M.. Luis. 10.4067/S0718-10432017000300006. 2017. 56. 133–161. es. Transit and interacctions between the oasis of Pica and the coast in the Atacama Desert (northern Chile). free.
  50. Book: Holsti, K.J.. The State, War, and the State of War. 1997. Cambridge University Press . 978-0-521-57790-8. 151.
  51. Book: Clayton, Lawrence A.. The Bolivarian Nations. 1984. The Forum Press. 978-0-88273-603-7 . 26.
  52. St. John. Robert Bruce . The Bolivia-Chile-Peru dispute in the Atacama Desert . 1994 . International Boundaries Research Unit.
  53. Exploration, mapping and characterization of filtration galleries of the Pica Oasis, northern Chile: A contribution to the knowledge of the Pica aquifer. Andean Geology. Lictevout. Elizabeth. 47. 3. 529–558. Abellanosa. Carlos . Maass. Constanza. Pérez. Nicolás. Gonzalo . Yáñez. Véronique . Leonardi. 2020. 10.5027/andgeoV47n3-3272. free .
  54. Encyclopedia: War of the Pacific South American history . Encyclopedia Britannica . 27 September 2018.
  55. Web site: Exploring the Atacama. yes. 3 December 2012. 17 January 2013. https://web.archive.org/web/20130117082222/http://www.musc.edu/cando/geocam/atacama/atacama.html. dead.
  56. Book: Kogel, Jessica Elzea . Industrial Minerals & Rocks: Commodities, Markets, and Uses . 2006 . Society for Mining, Metallurgy, and Exploration . Littleton, Colo. . 978-0-87335-233-8 . 605 . 7th . Kogel, Jessica Elzea . Trivedi, Nikhil . Barker, James . Krukowski, Stanley.
  57. Web site: Alarcón . Julia Shipley, Muriel . 2024-01-04 . The world's fashion waste ended up in Chile's Atacama Desert . 2024-02-11 . Grist . en-us.
  58. News: Top 10 Atacama Desert Facts That Every Tourist Must Know. 19 November 2015.
  59. 10.1086/679330 . Parque Astronómico de Atacama: An Ideal Site for Millimeter, Submillimeter, and Mid-Infrared Astronomy . 2014 . Bustos . R. . Rubio . M. . Otárola . A. . Nagar . N. . Publications of the Astronomical Society of the Pacific . 126 . 946 . 1126 . 1410.2451 . 2014PASP..126.1126B . 118539242 . 2 .
  60. Web site: Schilling. Govert. An Astronomer's Paradise, Chile May Be the Best Place on Earth to Enjoy a Starry Sky. 2021-11-02. Smithsonian Magazine. en.
  61. News: In Chile desert, huge telescope begins galaxy probe . Rosser . Toll . AFP . 3 October 2011 . 3 October 2011.
  62. News: 26 April 2010 . E-ELT Site Chosen . ESO . 2011-04-29.
  63. Web site: Comprehensive characterization of astronomical sites. 2011-10-04.
  64. Web site: Conference Astronomical Site Testing Data in Chile. 2011-10-04.
  65. News: European Extremely Large Telescope to break ground (using dynamite) live later today . James Vincent. The Independent. 19 June 2014.
  66. News: Ruíz-Tagle ve difícil que Chile no esté en un nuevo Dakar. 3 December 2012. La Nacion. 21 November 2012. 17 November 2016. https://web.archive.org/web/20161117221852/http://www.lanacion.cl/ruiz-tagle-ve-dificil-que-chile-no-este-en-un-nuevo-dakar/noticias/2012-11-21/144735.html. dead.
  67. Web site: Dakar Rally event 2013 to culminate in Chilean capital. yes. This is Chile. 3 December 2012. 26 March 2012. 29 October 2013. https://web.archive.org/web/20131029193802/http://www.thisischile.cl/7626/2/dakar-rally-2013-to-culminate-in-chilean-capital/News.aspx. dead.
  68. Web site: Atacama Crossing. yes. 4 deserts. 3 December 2012.
  69. http://www.volcanomarathon.com Volcano Marathon
  70. News: Nueva generación de autos solares son presentados en Chile. 3 December 2012. La Nacion. 7 November 2012. 17 November 2016. https://web.archive.org/web/20161117221859/http://www.lanacion.cl/nueva-generacion-de-autos-solares-son-presentados-en-chile/noticias/2012-11-07/152040.html. dead.
  71. News: Los autos que competirán en la súper carrera solar de Atacama. 3 December 2012. La Nacion. 8 November 2012. 17 November 2016. https://web.archive.org/web/20161117221904/http://www.lanacion.cl/los-autos-que-competiran-en-la-super-carrera-solar-de-atacama/noticias/2012-11-08/124405.html. dead.
  72. Web site: Guide to Atacama Desert. Conde Nast Traveller. 11 November 2009. Conde Nast. 3 April 2013. 5 April 2013. https://web.archive.org/web/20130405011836/http://www.cntraveller.com/guides/south-america/chile/atacama-desert/where-to-stay. dead.
  73. Book: Vickers, Graham . 21st Century Hotel . 2005 . Laurence King . London . 978-1-85669-401-8 . 122.
  74. Book: Erfurt-Cooper . Patricia . Cooper . Malcolm . Volcano and Geothermal Tourism: Sustainable Geo-resources for Leisure and Recreation . Earthscan . London . 2010 . 978-1-84407-870-7.
  75. Book: Mroue . Haas . Schreck . Kristina . Luongo . Michael . Frommer's Argentina & Chile . registration . Wiley . Hoboken, NJ [u.a.] . 3rd . 2005 . 308 . 978-0-7645-8439-8.