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Chanquillo
Chanquillo
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Chankillo[1][2][3][4][5][6][7][8] is an ancient monumental complex in the Peruvian coastal desert, found in the Casma-Sechin basin in the Áncash Department of Peru. The ruins include the hilltop Chankillo fort, the nearby Thirteen Towers solar observatory, and residential and gathering areas. The Thirteen Towers have been interpreted as an astronomical observatory built in the third century BC.[6][9] The culture that produced Chankillo is called the Casma/Sechin culture or the Sechin Complex.[citation needed] The site was awarded UNESCO World Heritage status in July 2021.[10]

Key Information

The site covers about four square kilometres (1.5 square miles) and has been interpreted as a fortified temple.[7]

The Thirteen Towers solar observatory

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The regularly-spaced thirteen towers of Chankillo were constructed atop the ridge of a low hill running near north to south, forming a "toothed" horizon with narrow gaps at regular intervals. To the east and west investigators designated two possible observation points. From these vantages, the 300m long spread of the towers along the horizon corresponds very closely to the rising and setting positions of the sun over the year,[9] albeit they are not all visible. On the winter solstice, the sun would rise behind the leftmost tower of Chankillo and rise behind each of the towers until it reached the rightmost tower six months later on the summer solstice, marking the passage of time.[11] The Thirteen Towers of Chankillo could be the earliest known observatory in the Americas. Inhabitants of Chankillo would have been able to determine an accurate date, with an error of a day or two, by observing the sunrise or sunset from the correct tower.[12] A contemporary site in Chincha Valley, Peru, of the late Paracas culture, which also marked the solstice, has recently been examined.[13]

The towers had been known to travellers for 200 years but were not determined to be an astronomical site until 2007 by Iván Ghezzi and Clive Ruggles.[14]

Panorama of Chankillo

See also

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References

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Chanquillo

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from Grokipedia
Chanquillo, also known as Chankillo, is a prehistoric archaeoastronomical complex located in the on the north-central coast of . Dating to approximately 250–200 BC during the Early Horizon period, the site was constructed by the Casma/Sechin culture and served primarily as a ceremonial center dedicated to a solar cult. Its most prominent feature is a row of thirteen cuboidal stone towers aligned north-south along a low desert ridge, which function as a solar observatory by marking the annual rising and setting arcs of the sun with 2–3 days' precision, enabling observations of solstices, equinoxes, and intermediate dates from designated viewing points. The complex also includes a triple-walled fortified temple on a nearby hill, an administrative center, and residential structures, reflecting its multifaceted roles in ritual, defense, and governance. Abandoned by the early 1st century CE, Chanquillo was largely forgotten until its rediscovery in the 19th century and systematic study beginning in the , which confirmed its astronomical significance as the oldest known solar observatory in the Americas. In 2021, it was inscribed on the World Heritage List under criteria (i) and (iv) for its outstanding universal value in demonstrating early monumental architecture and sophisticated in the ancient Americas.

Location and Setting

Geographical Position

Chanquillo is situated in the Ancash Region on the north-central coast of , within the Casma-Sechín basin. The site's precise coordinates are 9° 33' 24.7" S, 78° 14' 9.3" W. It lies approximately 365 km north of and about 15 km inland from the . The core archaeological area spans roughly 4 km², encompassing various structures and features across rock outcrops and sand ramps. This site forms part of a larger World Heritage property totaling 4,480 ha, which includes the adjacent Cerro Mucho Malo component, protected by a 43,990 ha to safeguard the surrounding landscape. In the regional context, Chanquillo is positioned near other significant sites such as Sechín and Cerro Sechín, all within the interconnected Casma-Sechín basin that characterizes this coastal area. These proximities highlight the basin's role as a hub for ancient settlements associated with the Casma-Sechín culture.

Environmental Context

Chanquillo is situated in the coastal of Peru's Casma Valley, a hyper-arid where annual precipitation averages less than 50 mm, primarily occurring during sporadic El Niño events that bring rare heavy rains. This extreme aridity, characteristic of the Peruvian , limits vegetation to sparse desert shrubs and necessitates human adaptations for survival in an otherwise barren landscape. The site's placement on a low ridge at approximately 300 meters above exploits the local , offering elevated vantage points over the Casma River valley to the east and the about 15 km to the west. This ridge-top position, amid undulating dunes and rocky outcrops spanning roughly 4 km², provided natural defensive barriers against intruders while facilitating broad observational sightlines across the horizon. In this resource-scarce environment, ancient inhabitants depended on riverine agriculture along the seasonally flooded Casma River for crops like maize, supplemented by marine resources such as shellfish harvested from the nearby coast. Construction relied on locally abundant materials, including sandstone and tonalite for stone elements and mudbrick (adobe) for walls, which proved durable in the stable, dry conditions with minimal erosion from wind or water. The arid climate and unobstructed views from the ridge also supported precise solar tracking, enhancing the site's role in calendrical observations.

Historical Background

Discovery and Excavation

Chanquillo was first documented in the late 19th century by explorers Ephraim George Squier, , and Antonio Middendorf during their surveys of Peru's coastal regions, though these early accounts primarily noted the site's prominent structures without in-depth analysis. The site remained largely overlooked until the early , when archaeologists such as Julio C. Tello, Alfred L. Kroeber, and others briefly discussed its potential ceremonial and defensive roles in regional studies. Systematic archaeological interest revived in the mid-20th century with surveys and excavations led by Peruvian researchers. In 1968–1969, Rosa Fung and Victor Pimentel conducted the most comprehensive early digs at the site, focusing on the fortress and surrounding areas, though detailed records from this period are limited. Subsequent surveys in the 1970s by Donald Pozorski, John Topic, and Christopher Wilson mapped additional features, including perimeter walls and associated settlements, highlighting the site's extent across the Casma Valley. Modern excavation efforts began in earnest with the Chankillo Archaeological Project, initiated in 2001 by Iván Ghezzi of the Pontificia Universidad Católica del Perú. Ghezzi's fieldwork from 2001 to 2007 employed geophysical surveys, magnetometry, and test pits to reveal previously unknown residential areas, ceremonial platforms, and artifacts such as ceramic vessels and figurines. These investigations uncovered evidence of site construction and use phases, including materials later used for . A landmark outcome was the 2007 publication in Science by Ghezzi and Clive Ruggles, which synthesized excavation data, alignments of structures, and ceramic artifacts to establish the site's significance as an early monumental complex. In 2025, ongoing excavations by Peruvian uncovered a fragmented vessel depicting warriors in combat near the site's entrance, providing new evidence of and elite power consolidation linked to solar cults. Additional findings include a newly identified astronomical observation point, further illuminating the site's ceremonial functions.

Chronology and Dating

The chronology of Chanquillo has been established primarily through radiocarbon (14C) dating of organic materials recovered from the site, with (AMS) applied to samples such as from hearths and wood from . Some samples were selected from outer sapwood rings of algarrobo using dendrochronological measurements (tree-ring width and density) to estimate felling dates, though absolute relies on 14C calibration. Calibrated ages place the site's construction in the BCE. Specific radiocarbon dates from lintel samples range from 2270 ± 33 to 2177 ± 36 , calibrated to approximately 300–200 BCE using OxCal software with atmospheric curves. These methods, combined with stratigraphic sequencing of depositional layers, confirm a relatively brief period of primary activity without evidence of significant later modifications. Occupation at Chanquillo appears to have been active for a short span of about 50 years, from roughly 250 BCE to 200 BCE, based on the clustering of 17 radiocarbon dates between 2350 and 2000 calibrated years , with no indications of prolonged reoccupation after abandonment. While typology, including warrior figurines associated with the , supports this timeframe through stylistic comparisons to late Early Horizon assemblages, it serves as a secondary corroborative tool rather than a primary dating method. Possible later visits are suggested by minor surface finds, but these do not indicate sustained use. In relative terms, Chanquillo aligns with the late Early Horizon period (ca. 900–200 BCE) of Andean prehistory, preceding Inca monumental architecture by over 1,000 years. This positioning highlights its role as an early example of complex ceremonial in the north coastal , contemporary with the decline of major highland centers like .

Architectural Features

The Fortification

The fortification at Chankillo consists of a triple-walled hilltop covering approximately 0.06 km² (6 hectares), strategically positioned on a promontory overlooking the Casma Valley in north coastal . This layout features triple concentric walls that reach up to 8 meters in height and 6.5 meters in thickness, forming a robust perimeter that encloses ceremonial and administrative areas. The structure's design emphasizes defense and control, with the integrating briefly with the adjacent ridge to provide elevated vantage points. Constructed from cut stone faces with rubble and gravel fill, the walls demonstrate adaptations for seismic stability suited to the region's desert environment and tectonic activity. This material choice allowed for durable, earthquake-resistant construction, with the stone facing providing additional protection against erosion from arid winds and occasional rains. Defensive features include narrow access points that could be easily controlled or blocked, along with integrated watchtowers positioned to surveil the surrounding valley and approaches. The hilltop location offers a commanding overlook, enhancing surveillance and deterring potential threats in this resource-scarce coastal plain. Internally, the enclosure is divided into distinct zones, including areas designated for residences and storage facilities, which underscore its role as an administrative hub for managing resources and . These divisions reflect a , with controlled spaces for high-status individuals and communal storage to support the complex's operations.

The Thirteen Towers

The Thirteen Towers consist of a linear array of 13 cuboidal structures aligned north-south along the ridge of a hill at the core of the Chankillo complex. These rectangular to rhomboidal towers, with flat tops, form a segmented "toothed" horizon, spaced at regular intervals of 4.7 to 5.1 meters between each pair, creating narrow gaps that enhance their visual profile from afar. The overall array spans approximately 250 meters, allowing the entire sequence to be visible from a central observation platform about 235 to 250 meters to the west. The towers gradually decrease in height from north to south, with the northernmost examples taller to offset the natural descent of the ridge. Constructed primarily of stone bonded with mortar, the towers feature solid bases and were originally finished with plaster, potentially including decorative paintings, though little evidence of such remains today. Each tower incorporates access staircases, typically 1.3 to 1.5 meters wide and 1.3 to 5.2 meters long, positioned on their eastern faces to facilitate approach from the adjacent ceremonial areas. Base dimensions vary, with individual towers covering 75 to 125 square meters and widths ranging from roughly 6 to 11 meters, though some are more elongated. Heights range from 2 to 6 meters, contributing to their monumental scale despite the arid, erosive environment. Due to prolonged exposure to wind and sand erosion, the towers exhibit partial collapse, particularly at corners and upper edges, yet their foundational alignments and core forms remain intact, preserving the original layout. Ongoing degradation has softened structural outlines, but the summits retain sufficient integrity to reveal the deliberate engineering designed to endure the coastal desert conditions.

Associated Structures

The associated structures at Chanquillo encompass residential and ceremonial buildings distributed across the northern and southern plains, spanning approximately four square kilometers and supporting the site's ceremonial and daily functions. These include scattered low platforms and compounds that likely accommodated 100 to 300 inhabitants, featuring both elite and commoner dwellings with hearths and associated refuse middens for domestic activities. Gathering spaces within these areas consist of open plazas and ceremonial platforms situated near the central enclosures, providing venues for communal assemblies and s. The , in particular, comprises a large plaza surrounded by ancillary buildings, facilitating social and ceremonial interactions. Additional features include small shrines containing offering pits. These shrines have yielded s, shell beads, and other votive items, reflecting localized practices. Recent excavations as of September 2025 uncovered a sculpted vessel depicting warriors in combat, linking to sacred solar s. Storage facilities adjacent to the plazas further supported communal . Excavated artifacts from these structures highlight a mixed and interregional trade, including domestic pottery for everyday use, stone tools for processing, and marine shells indicative of coastal resource exploitation. Warrior figurines and serving vessels among the finds underscore connections to the broader Casma-Sechin .

Astronomical Function

Solar Observation Mechanism

The Thirteen Towers of Chanquillo function as a by aligning with the rising and setting positions of the Sun throughout the year, enabling observers to track seasonal changes with precision. The towers, arranged in a low wall spanning approximately 300 meters along a , create a serrated horizon that divides the solar arc into 13 segments. From a fixed observation platform on the western side, known as El Observatorio, viewers can sight the sunrise aligning with specific towers or gaps between them; for instance, the northernmost tower (Tower 1) marks the winter sunrise in June, while the southernmost tower (Tower 13) aligns with the sunrise in December, and the equinoxes correspond to the central gap between Towers 6 and 7. This setup allows for both sunrise and sunset observations, with the eastern platform providing complementary views for sunsets. The observation method operates like a 360-degree solar clock, where the towers serve as markers to divide the horizon into regular intervals, facilitating the regulation of seasonal and agricultural activities. Observers position themselves at the western platform, approximately 235 meters from the towers, and note the Sun's position relative to the tower extremities or intervals, which correspond to roughly 10-day periods between the central towers (3 through 11). This configuration tracks the Sun's annual movement across the horizon, with the 13 gaps providing a calendrical system that encompasses the full range of solar declinations from +23.75° to -23.75°. Simulations using archaeoastronomical modeling, incorporating GPS and compass-clinometer measurements, confirm that these alignments were intentional for the site's construction period around 250–200 BCE. The mechanism's accuracy is sufficient for practical purposes, allowing determination of solstices and equinoxes to within 2-3 days, based on the provided by the tower separations. This precision arises from the towers' spacing, which yields an average interval of about 1.8° on the horizon, enabling reliable seasonal markers without requiring high angular exactitude. Supporting evidence includes from 17 samples, yielding calibrated dates spanning approximately 400 BCE to 50 CE (2350–2000 years ), with primary construction and use around 250–200 BCE during the late Early Horizon period, and ceramic artifacts stylistically consistent with the Casma-Sechin culture of that era, which show no signs of later Inca or colonial modifications to the tower alignments. The site was in use for a brief period of about 50 years before being abandoned by the early CE. The absence of post-construction alterations further indicates that the solar tracking design was integral to the original intent.

Interpretations and Significance

Chanquillo stands as the oldest known solar observatory in the , dating to approximately 250–200 BCE and predating other such structures by more than 1,500 years, thereby challenging previous assumptions about the development of pre-Inca astronomical knowledge in the region. This pioneering status underscores the site's role in demonstrating advanced horizon astronomy among early coastal Peruvian societies, where solar observations were integrated into broader cultural practices long before the rise of more famous . The site's multifunctional design combined defensive fortifications, ceremonial spaces, and calendrical functions, reflecting elite oversight of timekeeping essential for agricultural cycles and ritual observances. A hilltop fort provided protection, while an administrative center facilitated public ceremonies, and the thirteen towers enabled precise tracking of the solar year, suggesting that control over these observations bolstered the authority of ruling groups in managing communal activities. The 2007 publication by Iván Ghezzi and Clive Ruggles in Science established rigorous archaeoastronomical criteria for identifying intentional solar alignments, significantly influencing subsequent research on Andean solar cults by evidencing sophisticated sun worship that predated Inca practices by nearly two millennia. This work highlighted early horizon-based observations, shaping interpretations of how solar knowledge contributed to social and ideological structures in pre-Columbian . Comparisons with later sites reveal parallels in solar tracking, such as the equinox alignments at , but Chanquillo's linear tower arrangement creates a unique "toothed" horizon for year-round monitoring, with no evident emphasis on lunar or stellar phenomena. This distinct design emphasizes its foundational contribution to astronomy, distinct from the more complex architectural ensembles of Mesoamerican observatories.

Cultural Context

Casma-Sechin Culture

The Casma-Sechin culture, also known as the Sechín culture or Casma/Sechin Complex, represents a Late Formative society centered in the Casma Valley of northern , spanning from approximately 3600 BC to 200 BC across the Initial Period and Early Horizon, with Chanquillo dating to the late Early Horizon phase (ca. 250–200 BC). This culture is characterized by its development of complex polities in the coastal desert environment, with archaeological evidence from sites like Cerro Sechín and Sechín Alto indicating a transition to more stratified social organization. Key traits of the Casma-Sechin society include a hierarchical structure dominated by warrior-priest elites, who likely held both religious and authority, as suggested by the militaristic themes in monumental constructions. The culture is renowned for its monumental architecture, such as large platform mounds and enclosures, and distinctive relief carvings on stone slabs at sites like Cerro Sechín, which depict scenes of warfare, dismembered bodies, and hybrid combining feline and human forms to symbolize power and . These artistic elements reflect a worldview integrating forces with elite control over conflict and ceremonies. The economy of the Casma-Sechin culture relied on irrigation-based , cultivating crops like and in the fertile Casma Valley, supplemented by marine fishing along the . Technological advancements included early , with the production of alloys such as copper-gold mixtures, alongside practical innovations like extensive canal systems for water management. Ceramics featured incised designs and motifs influenced by the earlier Chavín style, including White-on-Red wares that blended local traditions with broader Andean patterns. The culture's regional extent was primarily the Casma-Sechín basin, encompassing multiple interconnected sites that formed a network of ceremonial and administrative centers, with evidence of interactions through coastal routes facilitating the exchange of goods like and metals with neighboring valleys. This positioning along the supported a mixed subsistence strategy and cultural exchanges that influenced artistic and technological developments.

Ritual and Social Role

The Thirteen Towers at Chanquillo likely served as focal points for ceremonial solar observations, regulating a calendar that included public feasts and gatherings in the adjacent plazas, where participants could witness solstice alignments to mark seasonal transitions. These events, particularly around the sunset when the sun aligned with the westernmost tower, may have involved harvest-related festivals, allowing elites to demonstrate their over agricultural cycles and celestial knowledge. Offerings discovered in the eastern plaza, such as panpipes and thorny oyster (Spondylus princeps) shells symbolizing and marine resources, underscore the site's role in rituals invoking water and abundance, potentially deposited during these communal ceremonies. In 2025, excavations uncovered a sculpted vessel near the site, further evidencing the integration of solar ceremonies with . Social hierarchy is evident in the site's , with the Fortified Temple functioning as an and restricted ceremonial space, featuring a rectangular building that suggests habitation by a warrior-priest class adorned with status symbols like headdresses and ornaments. Plazas facilitated large-scale communal gatherings that reinforced priestly authority in a theocratic society, where access to sacred observation points was controlled to maintain and power dynamics. The integration of defensive walls with structures positions Chanquillo as a sacred fortress, blending protection of elites with ceremonial functions to legitimize rulership. Symbolic elements, such as the east-west solar axis evoking connections to solar deities and the dual staircases representing Andean cosmological duality, highlight the site's role in shamanic rituals involving ascent between earthly and celestial realms. Archaeological evidence from middens near the plazas includes feasting debris like remains and serving vessels, indicating periodic large-scale events that drew diverse groups for shared rituals. Nearby cemeteries from the Early to Late Intermediate periods further suggest the site's enduring social significance, with burials possibly linked to ceremonial participants.

Preservation and Recognition

Conservation Efforts

The conservation of the Chankillo Archaeoastronomical Complex is primarily overseen by Peru's , which has coordinated protection efforts since the site's formal recognition as a national asset. A comprehensive management plan, approved via Ministerial Resolution No. 077-2020-MC in February 2020 and spanning 2020–2030, outlines 49 projects across 14 programs focused on safeguarding the site's integrity through multi-sectoral collaboration, including with local communities and international partners. Key activities encompass structural stabilization of monuments, erosion control measures such as wall reinforcements and protective coatings, and anti-looting patrols conducted in coordination with regional authorities to deter and illicit excavations. The site confronts multiple challenges that threaten its preservation. Natural factors include severe wind , mortar degradation from humidity and temperature extremes, seismic activity, and episodic heavy rainfall and flooding associated with El Niño events, which have caused up to 20.4% deterioration in some walls. Human pressures involve agricultural encroachment, potential operations in the surrounding Casma Valley, nearby urban expansion and infrastructure projects like electricity transmission lines, as well as ongoing risks of and deliberate damage. These threats are addressed through preventive monitoring and enforcement under the management plan. Notable initiatives in the 2010s included a three-phase restoration program for the Thirteen Towers, initiated in 2011 and continuing through 2022, which prioritized foundational consolidation and preventive interventions on five key structures using traditional stone and mortar materials to maintain historical authenticity. In August 2024, a new restoration was announced, set to begin the following month to enhance the site's and preservation. Community education programs in Casma, involving local schools and residents, have fostered by integrating heritage awareness into , such as through guided site visits and workshops on . Ongoing work extends to the fortified temple, with conservation of its nine gates beginning in 2021 to mitigate structural instability. Funding for these efforts draws from diverse sources, including grants from the since the site's inclusion on its 2010 Watch List, which supported initial excavations and documentation. Additional support came from the U.S. Ambassador's Fund for Cultural Preservation in 2016 for tower stabilization, alongside contributions from partners like the U.S. Embassy in , the Selz Foundation, and . International collaborations intensified following the 2007 scientific recognition of Chankillo's solar observatory function, enabling sustained interventions; the site's 2021 UNESCO World Heritage inscription has since amplified global funding opportunities.

UNESCO World Heritage Status

In July 2021, the Chankillo Archaeoastronomical Complex was inscribed on the World Heritage List under reference number , marking it as the first Peruvian site recognized solely for its archaeoastronomical significance. This designation highlights the site's unique role in ancient solar observation, distinguishing it from other Peruvian heritage sites that emphasize broader archaeological or cultural attributes. The complex satisfies criteria (i) and (iv): under (i), it represents a masterpiece of human creative genius through its innovative use of the Thirteen Towers and natural landmarks to track the solar year with high precision, serving as an early system; under (iv), it exemplifies an outstanding fortified temple complex from the initial stages of Andean monumental architecture around 300–200 BCE. These criteria underscore Chankillo's exceptional contribution to understanding pre-Columbian astronomy and ritual practices in the . The inscription expanded the site's to 4,480 hectares, incorporating a that encompasses the San Rafael Valley, Cerro Mongón, and other surrounding features like Lomas Las Haldas and Cerro Manchán to ensure comprehensive safeguarding against environmental and human threats. It has facilitated increased funding and international support for site management, including conservation projects and the development of infrastructure such as improved access trails and interpretive centers, primarily through partnerships with organizations like the . Post-inscription, the status has elevated global awareness, leading to heightened visitor interest and enhanced collaborations between Peruvian authorities, international experts, and institutions focused on and cultural preservation. This recognition not only bolsters local economic opportunities through responsible but also promotes ongoing scholarly investigations into the site's astronomical and social functions.

References

  1. https://whc.unesco.org/en/list/1624/
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  4. https://whc.unesco.org/en/list/1624/maps/
  5. https://web.astronomicalheritage.net/show-entity?identity=51&idsubentity=1
  6. https://www.wmf.org/projects/cerro-sech%25C3%25ADn
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  9. https://www.dennisrhollowayarchitect.com/Chankillo.html
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  11. https://repository.lsu.edu/context/gradschool_dissertations/article/5755/viewcontent/11_8_2018_Landscapes_of_Persistence_and_Ritual_Architecture_Diss_Draft_6b.pdf
  12. https://web.astronomicalheritage.org/images/astronomicalheritage.org/thematic-study/ch03cs3.pdf
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  14. https://www.researchgate.net/publication/227033146_Religious_Warfare_at_Chankillo
  15. https://www.science.org/doi/10.1126/science.1136415
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  18. https://www.academia.edu/224741/Religious_Warfare_at_Chankillo
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  21. https://www.wmf.org/projects/chankillo-archaeoastronomical-complex
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