Jump to content

Clovis culture

From Wikipedia, the free encyclopedia

Clovis culture
Map showing the extent of the Clovis culture
Geographical rangeNorth America
PeriodPaleoindian
Dates13,050–12,750 BP (11,100–10,800 BC)
Type siteBlackwater Draw, New Mexico
Followed byFolsom tradition (among others)

The Clovis culture is an archaeological culture from the Paleoindian period of North America, spanning around 13,050 to 12,750 years Before Present (BP).[1] The type site is Blackwater Draw locality No. 1 near Clovis, New Mexico, where stone tools were found alongside the remains of Columbian mammoths in 1929.[2] Clovis sites have been found across North America.[1] The most distinctive part of the Clovis culture toolkit are Clovis points,[3] which are projectile points with a fluted, lanceolate shape.[n 1] Clovis points are typically large, sometimes exceeding 10 centimetres (3.9 in) in length. These points were multifunctional, also serving as cutting tools. Other stone tools used by the Clovis culture include knives, scrapers, and bifacial tools, with bone tools including beveled rods and shaft wrenches, with possible ivory points also being identified. Hides, wood, and natural fibers may also have been utilized, though no direct evidence of this has been preserved. Clovis artifacts are often found grouped together in caches where they had been stored for later retrieval, and over 20 Clovis caches have been identified.[4]

The Clovis peoples are thought to have been highly mobile groups of hunter-gatherers.[5] It is generally agreed that these groups were reliant on hunting big game (megafauna),[6] having a particularly strong association with mammoths, and to a lesser extent with mastodon, bison, camel, and horse,[7] but they also consumed smaller animals and plants.[6] The Clovis hunters may have contributed to the Late Pleistocene megafauna extinctions in North America, though this idea has been subject to controversy.[7] Only one human burial has been directly associated with tools from the Clovis culture: Anzick-1, a young boy found buried in Montana,[8][9][10] who has a close genetic relation to some modern Native American populations, primarily in Central and South America.[10][11][12]

The Clovis culture represents the earliest widely recognised archaeological culture in North America[13] (though in western North America, it appears to have been contemporaneous with the Western Stemmed Tradition). While historically, many scholars held to a "Clovis first" model, where Clovis represented the earliest inhabitants in the Americas, today this is largely rejected, with several generally accepted sites across the Americas like Monte Verde II being dated to at least a thousand years earlier than the oldest Clovis sites.[14]

The end of the Clovis culture may have been driven by the decline of the megafauna that the Clovis hunted as well as decreasing mobility, resulting in local differentiation of lithic and cultural traditions across North America.[15] Beginning around 12,750–12,600 years BP, the Clovis culture was succeeded by more regional cultures,[16] including the Folsom tradition in central North America,[16] the Cumberland point in mid/southern North America,[17] the Suwannee and Simpson points in the southeast,[18] and Gainey points in the NortheastGreat Lakes region.[19] The Clovis and Folsom traditions may have overlapped, perhaps for around 80–400 years.[20] The end of the Clovis culture is generally thought be the result of normal cultural change over time.[15][20]

In South America, the widespread similar Fishtail or Fell point style was contemporaneous to the usage of Clovis points in North America[1][21] and possibly developed from Clovis points.[22]

Discovery

[edit]

On August 29, 1927, the first evidence of Pleistocene humans seen by multiple archaeologists in the Americas was discovered near Folsom, New Mexico. At this site, they found the first in situ Folsom point with the bones of the extinct bison species Bison antiquus. This confirmation of a human presence in the Americas during the Pleistocene inspired many people to start looking for evidence of early humans.[23]

In 1929, 19-year-old Ridgely Whiteman, who had been closely following the excavations in nearby Folsom in the newspapers, discovered the Clovis site near the Blackwater Draw in eastern New Mexico. Despite several earlier Paleoindian discoveries, the best documented evidence of the Clovis complex was collected and excavated between 1932 and 1937 near Clovis, New Mexico, by a crew under the direction of Edgar Billings Howard until 1935 and later by John L. Cotter from the Academy of Natural Sciences at the University of Pennsylvania. Howard's crew left their excavation in Burnet Cave, the first professionally excavated Clovis site, in August 1932, and visited Whiteman and his Blackwater Draw site. By November, Howard was back at Blackwater Draw to investigate additional finds from a construction project.[24]

The American Journal of Archaeology, in its January–March 1932 edition, mentions Howard's work in Burnet Cave, including the discovery of extinct fauna and a "Folsom type" point 4 ft below a Basketmaker burial. Reference is made to a slightly earlier article on Burnet Cave in The University Museum Bulletin from November 1931.[25]

The Dent site in Colorado was the first known association of Clovis points with mammoth bones, as noted by Hannah Marie Wormington in her book Ancient Man in North America (4th ed. 1957).[26] Gary Haynes, in his book The Early Settlement of North America, suggested the type of fluted point thereafter associated with megafauna (especially mammoths) at over a dozen other archaeological sites in North America would have been more appropriately named "Dent" rather than Clovis, the town near Blackwater Draw that gave the type of point its name.[27]

Material culture

[edit]

A feature considered to be distinctive of the Clovis tradition is overshot flaking, which is defined as flakes that "during the manufacture of a biface are struck from prepared edges of a piece and travel from one edge across the face", with limited removal of the opposite edge. Whether or not the overshot flaking was intentional on the part of the stoneknapper has been contested,[28] with other authors suggesting that overface flaking (where flakes that travel past the midline but terminate before reaching the opposite end are removed) was the primary goal.[6] Other elements considered distinctive of the Clovis culture tool complex include "raw material selectivity; distinctive patterns of flake and blade platform preparation, thinning and flaking; characteristic biface size and morphology, including the presence of end-thinning; and the size, curvature and reduction strategies of blades".[29] It has long been recognised that the definition of the Clovis culture is to a degree ambiguous, the term being "used in a number of ways, referring to an era, to a culture, and most specifically, to a distinctive projectile point type", with disagreement between scholars about distinguishing between Clovis and various other Paleoindian archaeological cultures.[30]

Tools

[edit]

Clovis point

[edit]
Example of a Clovis point

A hallmark of the toolkit associated with the Clovis culture is the distinctively shaped lithic point known as the Clovis point. Clovis points are bifacial (having flakes removed from both faces) and typically fluted (having an elongate flake removed from the base of the point[6]) on both sides, with the fluting typically running up a third[31] or a half of the length of the point, distinct from many later Paleoindian traditions where the flute runs up the entire point length.[6] Clovis points are typically parallel-sided to slightly convex, with the base of the point being concave.[31] Although no direct evidence of what was attached to Clovis points has been found,[32] Clovis points are commonly thought to have served as tips for spears/darts likely used as handheld thrusting or throwing weapons, possibly in combination with a spear thrower, for hunting and possibly self-defense.[33][34] Wear on Clovis points indicates that they were multifunctional objects that also served as cutting and slicing tools, with some authors suggesting that some Clovis-point types were primarily used as knives.[35] Clovis points were at least sometimes resharpened, though the idea that they were continually resharpened "long-life" tools has been questioned.[36] The shape and size of Clovis points varies significantly over space and time;[13] the largest points exceed 10 centimetres (3.9 in) in length.[4] The points required considerable effort to make and often broke during knapping,[13] particularly during fluting. The fluting may have served to make the finished points more durable during use by acting as a "shock absorber" to redistribute stress during impact, though others have suggested that it may have been purely stylistic or used to strengthen the hafting to the spear handle.[37][38] The points were generally produced from nodules or siliceous cryptocrystalline rocks.[13] Clovis points were thinned using end-thinning ("the removal of blade-like flakes parallel to the long-axis").[6] They were initially prepared using percussion flaking, with the point being finished using pressure flaking.[13]

Blades

[edit]

Clovis blades—long flakes removed from specially prepared conical or wedge-shaped cores—are part of the global Upper Paleolithic blade tradition.[39] Clovis blades are twice as long as they are wide and were used and modified to create a variety of tools, including endscrapers (used to scrape hides), serrated tools, and gravers.[6] Unlike bifaces, Clovis blade cores do not appear to have been regularly transported over long distances, with only the blades typically carried in the mobile toolkit.[40]

Bifaces

[edit]

Bifaces served a variety of roles for Clovis hunter-gatherers, such as cutting tools, preforms for formal tools such as points, and as portable sources of large flakes useful as preforms or tools.[41]

Other tools

[edit]

Other tools associated with the Clovis culture are adzes (likely used for woodworking),[6] bone "shaft wrenches" (suggested to have been used to straighten wooden shafts),[42] as well as rods, some of which have beveled (diagonally cut) ends. These rods are made of bone, antlers,[43] and ivory.[6] The function of the rods is unknown and has been subject to numerous hypotheses. Rods that were beveled on both ends are most often interpreted as foreshafts to which stone points were hafted, with a pair of rods surrounding each side of the point, while rods that are beveled on only one end, with the other being pointed, are most often interpreted as projectile points. The rods may have served other purposes, such as prybars.[43] Clovis people are also known to have used ivory and bone to create projectile points.[6]

Caches

[edit]

A distinctive feature of the Clovis culture generally not found in subsequent cultures is "caching", where a collection of artifacts (typically stone tools, such as Clovis points or bifaces) were deliberately left at a location, presumably with the intention to return to collect them later, though some authors have interpreted cache deposits as ritual behavior. Over twenty such "caches" have been identified across North America.[4]

Art and ritual practices

[edit]

A few Clovis culture artifacts are suspected to reflect creative expression, such as rock art, the use of red ochre, and engraved stones. The best-known examples of this were found at the Gault site in Texas and consist of limestone nodules incised with expressive geometric patterns, some of which mimic leaf patterns.[44] Clovis peoples, like other Paleoindian cultures, used red ocher for a variety of artistic and ritual purposes, including burials,[45] and to cover objects in caches.[46] Clovis peoples are known to have transported ocher 100 kilometres (62 mi) from its original outcrop.[45] They are also suggested to have produced beads out of animal bones.[47]

Lifestyle

[edit]

Clovis hunter-gatherers are characterized as "high-technology foragers" who utilized sophisticated technology to maintain access to resources under conditions of high mobility.[48] In many Clovis localities, the stone tools found at a site were hundreds of kilometers away from the source stone outcrop, in one case over 900 kilometres (560 mi) away.[49] The people who produced the Clovis culture probably had a low population density but with geographically extensive cultural networks.[13] The Clovis culture is suggested to have heavily utilized hides, wood, and natural fibres, though no direct evidence of this has been preserved.[4] Clovis culture artifacts have often been found associated with big game, including proboscideans (Columbian mammoth, mastodon,[7] and the gomphothere Cuvieronius[50]) bison,[7] equines of the genus Equus,[51] and the extinct camel Camelops.[52] A handful of sites possibly suggest the hunting of caribou/reindeer, peccaries (Platygonus, Mylohyus), ground sloths (Paramylodon), glyptodonts (Glyptotherium), tapirs, and the llama Hemiauchenia.[7][53] Proboscideans (especially mammoths) are the most common recorded species found in Clovis sites, followed by bison. However, the Clovis culture is not exclusively associated with large animals, with several sites showing the exploitation of small game like tortoises and jackrabbits.[7] It is generally agreed that the people who produced the Clovis culture were reliant on big game for a significant portion of their diet (while also consuming smaller animals and plants),[6] though to what degree they were reliant on megafauna is disputed, with some authors arguing for a generalist hunter-gatherer lifestyle that also involved the occasional targeting of megafauna.[7][54] The effectiveness of Clovis tools for hunting proboscideans has been contested by some authors, though others have asserted that Clovis points were likely capable of killing proboscideans, noting that replica Clovis points have been able to penetrate elephant hide in experimental tests, and that groups of hunter-gatherers in Africa have been observed killing elephants using spears.[55]

In the Southern Plains, Clovis people created campsites of considerable size, which are often on the periphery of the region near sources of workable stone, from which they are suggested to have seasonally migrated into the plains to hunt megafauna. In the southeast, Clovis peoples created large camps that may have served as "staging areas", which may have been seasonally occupied, where a number of bands may have gathered for social occasions.[6] At Jake Bluff in northern Oklahoma, Clovis points are associated with numerous butchered Bison antiquus bones, which represented a bison herd of at least 22 individuals. At the time of deposition, the site was a steep-sided arroyo (dry watercourse) that formed a dead end, suggesting that hunters trapped the bison herd within the arroyo before killing them.[56]

Megafauna extinction

[edit]

Beginning in the 1950s, Paul S. Martin proposed the "overkill hypothesis", suggesting that the Late Pleistocene megafauna extinctions in North America were driven by human hunting, including by Clovis peoples, with the hunting and extinction of large herbivores having a knock-on effect causing the extinction of large carnivores. This suggestion has been the subject of controversy.[57] The timing of megafauna extinction in North America also coincides with major climatic changes, making it difficult to disentangle the effects of various factors.[58] In a 2012 survey of archaeologists in The SAA Archaeological Record, 63% of respondents said that megafauna extinctions were likely the result of a "combination of factors".[59]

Genetics

[edit]

The only known Clovis burial is that of Anzick-1, an infant boy who was found near Wilsall, Montana, in 1968. The body was associated with over 100 stone and bone artifacts, all of which were stained with red ocher, and it dates to approximately 12,990–12,840 years BP.[60] Sequencing of his genome demonstrates that he belonged to a population that is ancestral to many contemporary Indigenous peoples of the Americas,[12] particularly those from Central and South America, and less related to those from contemporary North America, including northern Mexico,[12][61] though there is considerable variability in the genetic closeness of Central and South American indigenous peoples to Anzick-1, with older ancient South American remains generally being closer, suggesting that the Native American population had already diverged into multiple genetically distinct groups by the time of the Clovis culture, followed by subsequent migration of these populations later in the Holocene.[62] Like other Native Americans, Anzick-1 is closely related to Siberian peoples, confirming the Asian origin of the Clovis culture.[12] He belongs to Y chromosome Haplogroup Q-L54, which is common among contemporary Native Americans, and to mitochondrial haplogroup D4h3a, which is rare among contemporary Native Americans (occurring in only 1.4%, primarily along the Pacific coast) but more common in the very earliest Indigenous Americans.[12]

Distribution and chronology

[edit]

Some authors have suggested that the Clovis culture lasted for a relatively short period of a few centuries, with a 2020 study suggesting a temporal range, based on ten securely radiocarbon-dated Clovis sites, of 13,050 to 12,750 calibrated years BP, ending subsequent to the onset of the Younger Dryas,[1] consistent with the results obtained in a 2007 study by the same authors.[63] Other authors have argued that some sites extend the range of the Clovis culture back to 13,500 years BP, though the dating for these earlier sites is not secure.[58] Some scholars have supported a long chronology for Clovis of around 1,500 years.[13]

Historically, many authors argued for a "Clovis first" paradigm, where Clovis, which represents the earliest recognisable archaeological culture in North America,[13] were suggested to represent the earliest inhabitants of the Americas south of the Laurentide Ice Sheet. However, since the beginning of the 21st century, this hypothesis has been abandoned by most researchers,[59] as several widely accepted sites, notably Monte Verde II in Chile (c. 14,500 years BP)[64] as well as Paisley Caves in Oregon (c. 14,200 years BP)[65] and Cooper's Ferry in Idaho (c. 15,800 years BP)[66] are suggested to be considerably older than the oldest Clovis sites. Historically, it was suggested that the ancestors of the people who produced the Clovis culture migrated into North America along the "ice-free corridor", but many later scholars have suggested that a migration along the Pacific coast is more likely.[67]

The Clovis culture is known from localities across North America, from southern Canada[52] to northern Mexico and across the east and west of the continent.[1] The area of its origin remains unclear, though the development of fluted Clovis points appears to have occurred in North America south of the Laurentide Ice Sheet and not in Beringia. The Clovis culture may have originated from the Dyuktai lithic style widespread in Beringia. While some authors have suggested that the Clovis culture resulted from diffusion of traditions through an already pre-existing Paleoindian population, others have asserted that the culture likely originated from the expansion of a single population.[3] In Western North America, the Clovis culture was contemporaneous with and perhaps preceded by the Western Stemmed Tradition, which produced unfluted projectile points,[65] with the Western Stemmed Tradition continuing in the region for several thousand years after the end of Clovis.[68]

The end of the Clovis culture may have been driven by the decline of the megafauna that the Clovis hunted, as well as decreasing mobility, resulting in local differentiation of lithic and cultural traditions across North America.[15] This is generally considered to be the result of normal cultural change through time.[15][20] There is no evidence that the disappearance of the Clovis culture was the result of the onset of the Younger Dryas, or that there was a population decline of Paleoindians following the end of the Clovis culture.[69]

The Clovis culture was succeeded by various regional point styles, such as the Folsom tradition in central North America,[16] the Cumberland point in mid/southern North America,[17] the Suwannee and Simpson points in the southeast,[18] and the Gainey points in the northeast-Great Lakes region.[19] The Clovis and Folsom traditions may have overlapped, perhaps for around 80–400 years.[20]

A number of authors have suggested that the Clovis culture is ancestral to other fluted point-producing cultures in Central and South America, like the widespread Fishtail or Fell point style.[22]

See also

[edit]

Notes

[edit]
  1. ^ Fluted: Having a flake removed from the base, either on one or both sides.
    Lanceolate: Tapering to a point at one end, like the head of a lance.

References

[edit]
  1. ^ a b c d e Waters, Michael R.; Stafford, Thomas W.; Carlson, David L. (October 23, 2020). "The age of Clovis—13,050 to 12,750 cal yr B.P." Science Advances. 6 (43): eaaz0455. Bibcode:2020SciA....6..455W. doi:10.1126/sciadv.aaz0455. ISSN 2375-2548. PMC 7577710. PMID 33087355.
  2. ^ Boldurian, Anthony T. (January 2008). "Clovis Type-Site, Blackwater Draw, New Mexico: A History, 1929–2009". North American Archaeologist. 29 (1): 65–89. doi:10.2190/NA.29.1.d. ISSN 0197-6931.
  3. ^ a b Morrow, Juliet E. (April 3, 2019). "On Fluted Point Morphometrics, Cladistics, and the Origins of the Clovis Culture". PaleoAmerica. 5 (2): 191–205. doi:10.1080/20555563.2019.1618179. ISSN 2055-5563.
  4. ^ a b c d Schroedl, Alan R. (April 3, 2021). "The geographic origin of Clovis technology: Insights from Clovis biface caches". Plains Anthropologist. 66 (258): 120–148. doi:10.1080/00320447.2021.1888188. ISSN 0032-0447.
  5. ^ Ellis, Christopher (July 2013). "Clovis Lithic Technology: The Devil Is in the Details". Reviews in Anthropology. 42 (3): 127–160. doi:10.1080/00938157.2013.817867. ISSN 0093-8157. S2CID 161844234.
  6. ^ a b c d e f g h i j k l Thomas A. Jennings and Ashley M. Smallwood "The Clovis Record" The SAA Archaeological Record May 2019 • Volume 19 • Number 3
  7. ^ a b c d e f g Waguespack, Nicole M.; Surovell, Todd A. (April 2003). "Clovis Hunting Strategies, or How to Make out on Plentiful Resources". American Antiquity. 68 (2): 333–352. doi:10.2307/3557083. ISSN 0002-7316. JSTOR 3557083.
  8. ^ Owsley, Douglas W; Hunt, David (May 2001). "Clovis and early Archaic crania from the Anzick site (24PA506), Park County, Montana". Plains Anthropologist. 46 (176): 115–124. doi:10.1080/2052546.2001.11932062. S2CID 159572593.
  9. ^ New Rdiocarbon Dates for the Anzick Clovis Burial by Juliet E. Morrow and Stuart J.Fiedel. In Paleoindian Archaeology, edited by J.E.Morrow and C.G.Gnecco. University Press of Florida, Gainesville.
  10. ^ a b Raff, Jennifer (February 8, 2022). "A Genetic Chronicle of the First Peoples in the Americas". Sapiens. Retrieved October 9, 2022.
  11. ^ Raff, J. A.; Bolnick, D. A. (February 13, 2014). "Palaeogenomics: Genetic roots of the first Americans". Nature. 506 (7487): 162–163. Bibcode:2014Natur.506..162R. doi:10.1038/506162a. PMID 24522593. S2CID 4445278.
  12. ^ a b c d e Rasmussen, M.; Anzick, S. L.; Waters, M. R.; Skoglund, P.; DeGiorgio, M.; Stafford, T. W.; Rasmussen, S.; Moltke, I.; Albrechtsen, A.; Doyle, S. M.; Poznik, G. D.; Gudmundsdottir, V.; Yadav, R.; Malaspinas, A. S.; White, S. S.; Allentoft, M. E.; Cornejo, O. E.; Tambets, K.; Eriksson, A.; Heintzman, P. D.; Karmin, M.; Korneliussen, T. S.; Meltzer, D. J.; Pierre, T. L.; Stenderup, J.; Saag, L.; Warmuth, V. M.; Lopes, M. C.; Malhi, R. S.; Brunak, S. R.; Sicheritz-Ponten, T.; Barnes, I.; Collins, M.; Orlando, L.; Balloux, F.; Manica, A.; Gupta, R.; Metspalu, M.; Bustamante, C. D.; Jakobsson, M.; Nielsen, R.; Willerslev, E. (February 13, 2014). "The genome of a Late Pleistocene human from a Clovis burial site in western Montana". Nature. 506 (7487): 225–229. Bibcode:2014Natur.506..225R. doi:10.1038/nature13025. PMC 4878442. PMID 24522598.
  13. ^ a b c d e f g h Eren, Metin I.; Story, Brett; Perrone, Alyssa; Bebber, Michelle; Hamilton, Marcus; Walker, Robert; Buchanan, Briggs (October 1, 2020). "North American Clovis Point Form and Performance: An Experimental Assessment of Penetration Depth". Lithic Technology. 45 (4): 263–282. doi:10.1080/01977261.2020.1794358. ISSN 0197-7261.
  14. ^ Potter, Ben A.; Chatters, James C.; Prentiss, Anna Marie; Fiedel, Stuart J.; Haynes, Gary; Kelly, Robert L.; Kilby, J. David; Lanoë, François; Holland-Lulewicz, Jacob; Miller, D. Shane; Morrow, Juliet E.; Perri, Angela R.; Rademaker, Kurt M.; Reuther, Joshua D.; Ritchison, Brandon T. (January 2, 2022). "Current Understanding of the Earliest Human Occupations in the Americas: Evaluation of Becerra-Valdivia and Higham (2020)". PaleoAmerica. 8 (1): 62–76. doi:10.1080/20555563.2021.1978721. ISSN 2055-5563.
  15. ^ a b c d Haynes, Gary (2002). The Early Settlement of North America: The Clovis Era. New York: Cambridge University Press. p. 52. ISBN 978-0-521-52463-6.
  16. ^ a b c Surovell, Todd A.; Boyd, Joshua R.; Haynes, C. Vance; Hodgins, Gregory W. L. (April 2, 2016). "On the Dating of the Folsom Complex and its Correlation with the Younger Dryas, the End of Clovis, and Megafaunal Extinction". PaleoAmerica. 2 (2): 81–89. doi:10.1080/20555563.2016.1174559. ISSN 2055-5563.
  17. ^ a b Tune, Jesse W. (July 2, 2016). "The Clovis–Cumberland–Dalton Succession: Settling into the Midsouth United States during the Pleistocene to Holocene Transition". PaleoAmerica. 2 (3): 261–273. doi:10.1080/20555563.2016.1199193. ISSN 2055-5563.
  18. ^ a b Faught, Michael K.; Pevny, Charlotte Donald (January 2, 2019). "Pre-Clovis to the Early Archaic: Human Presence, Expansion, and Settlement in Florida over Four Millennia". PaleoAmerica. 5 (1): 73–87. doi:10.1080/20555563.2019.1597608. ISSN 2055-5563.
  19. ^ a b Ellis, Christopher J. (July 3, 2019). "On the Reality of Gainey Points". PaleoAmerica. 5 (3): 211–217. doi:10.1080/20555563.2019.1591141. ISSN 2055-5563.
  20. ^ a b c d Buchanan, Briggs; Kilby, J. David; LaBelle, Jason M.; Surovell, Todd A.; Holland-Lulewicz, Jacob; Hamilton, Marcus J. (July 2022). "Bayesian Modeling of the Clovis and Folsom Radiocarbon Records Indicates a 200-Year Multigenerational Transition". American Antiquity. 87 (3): 567–580. doi:10.1017/aaq.2021.153. ISSN 0002-7316.
  21. ^ Potter, Ben A.; Chatters, James C.; Prentiss, Anna Marie; Fiedel, Stuart J.; Haynes, Gary; Kelly, Robert L.; Kilby, J. David; Lanoë, François; Holland-Lulewicz, Jacob; Miller, D. Shane; Morrow, Juliet E.; Perri, Angela R.; Rademaker, Kurt M.; Reuther, Joshua D.; Ritchison, Brandon T. (January 2, 2022). "Current Understanding of the Earliest Human Occupations in the Americas: Evaluation of Becerra-Valdivia and Higham (2020)". PaleoAmerica. 8 (1): 62–76. doi:10.1080/20555563.2021.1978721. ISSN 2055-5563. S2CID 239834259.
  22. ^ a b Fiedel, Stuart J. (July 2017). "The Anzick genome proves Clovis is first, after all". Quaternary International. 444: 4–9. Bibcode:2017QuInt.444....4F. doi:10.1016/j.quaint.2017.06.022.
  23. ^ "America's Stone Age Explorers". Nova. PBS TV. 2004.
  24. ^ Mann, Charles C. (2005). 1491: New revelations of the Americas before Columbus. Knopf. ISBN 978-1-4000-4006-3. OCLC 56632601.
  25. ^ Heffner, Edward H.; Blegen, Elizabeth Pierce; Burrows, Millar (1932). "Archaeological News". American Journal of Archaeology. 36 (1): 43–73. doi:10.2307/498270. JSTOR 498270. S2CID 245265264.
  26. ^ Wormington, H.M. (1957). Early Man in North America (4th ed.). Denver, CO: Denver Museum of Natural History. pp. 43–44.
  27. ^ Haynes, Gary (2002). The Early Settlement of North America: The Clovis Era. Cambridge, U.K.: Cambridge University Press. p. 56. ISBN 9780521524636.
  28. ^ Eren, Metin I.; Patten, Robert J.; O'Brien, Michael J.; Meltzer, David J. (March 2014). "More on the Rumor of "Intentional Overshot Flaking" and the Purported Ice-Age Atlantic Crossing". Lithic Technology. 39 (1): 55–63. doi:10.1179/0197726113Z.00000000033. ISSN 0197-7261.
  29. ^ Eren, Metin I.; Meltzer, David J.; Andrews, Brian N. (July 3, 2018). "Is Clovis Technology Unique to Clovis?". PaleoAmerica. 4 (3): 202–218. doi:10.1080/20555563.2018.1531277. ISSN 2055-5563.
  30. ^ Beck, Charlotte; Jones, George T.; Taylor, Amanda K. (April 3, 2019). "What's Not Clovis? An Examination of Fluted Points in the Far West". PaleoAmerica. 5 (2): 109–120. doi:10.1080/20555563.2019.1613145. ISSN 2055-5563.
  31. ^ a b Buchanan, Briggs; O'Brien, Michael J.; Collard, Mark (June 2014). "Continent-wide or region-specific? A geometric morphometrics-based assessment of variation in Clovis point shape". Archaeological and Anthropological Sciences. 6 (2): 145–162. Bibcode:2014ArAnS...6..145B. doi:10.1007/s12520-013-0168-x. ISSN 1866-9557.
  32. ^ Eren, Metin I.; Meltzer, David J.; Story, Brett; Buchanan, Briggs; Yeager, Don; Bebber, Michelle R. (October 2022). "Not just for proboscidean hunting: On the efficacy and functions of Clovis fluted points". Journal of Archaeological Science: Reports. 45: 103601. doi:10.1016/j.jasrep.2022.103601.
  33. ^ Eren, Metin I.; Meltzer, David J.; Story, Brett; Buchanan, Briggs; Yeager, Don; Bebber, Michelle R. (October 1, 2021). "On the efficacy of Clovis fluted points for hunting proboscideans". Journal of Archaeological Science: Reports. 39: 103166. Bibcode:2021JArSR..39j3166E. doi:10.1016/j.jasrep.2021.103166. ISSN 2352-409X.
  34. ^ Baldino, Jacob; McKinny, Scott; Taylor, Jaymes; Wilson, Michael; Buchanan, Briggs; Walker, Robert S.; Story, Brett; Bebber, Michelle R.; Eren, Metin I. (October 20, 2023). "North American Clovis Point Form and Performance V: An Experimental Assessment of Spear Thrusting Penetration Depth and Entry Wound Size". Lithic Technology: 1–16. doi:10.1080/01977261.2023.2270255. ISSN 0197-7261.
  35. ^ Mika, Anna; Buchanan, Briggs; Walker, Robert; Key, Alastair; Story, Brett; Bebber, Michelle; Eren, Metin I. (July 3, 2022). "North American Clovis Point Form and Performance III: An Experimental Assessment of Knife Cutting Efficiency". Lithic Technology. 47 (3): 203–220. doi:10.1080/01977261.2021.2016257. ISSN 0197-7261.
  36. ^ Buchanan, Briggs; Eren, Metin I.; Boulanger, Matthew T.; O'Brien, Michael J. (September 2015). "Size, shape, scars, and spatial patterning: A quantitative assessment of late Pleistocene (Clovis) point resharpening". Journal of Archaeological Science: Reports. 3: 11–21. Bibcode:2015JArSR...3...11B. doi:10.1016/j.jasrep.2015.05.011.
  37. ^ Buchanan, Briggs; Hamilton, Marcus J.; Gala, Nicholas; Smith, Heather; Wilson, Michael; Eren, Metin I.; Walker, Robert S. (April 2024). "Comparing Clovis and Folsom fluting via scaling analysis". Archaeometry. 66 (2): 266–281. doi:10.1111/arcm.12921. ISSN 0003-813X.
  38. ^ Thomas, Kaitlyn A.; Story, Brett A.; Eren, Metin I.; Buchanan, Briggs; Andrews, Brian N.; O'Brien, Michael J.; Meltzer, David J. (May 2017). "Explaining the origin of fluting in North American Pleistocene weaponry". Journal of Archaeological Science. 81: 23–30. Bibcode:2017JArSc..81...23T. doi:10.1016/j.jas.2017.03.004.
  39. ^ Collins, Michael B. (1999). Clovis Blade technology: a comparative study of the Keven Davis Cache, Texas. Texas archaeology and ethnohistory series. Austin (Tx): University of Texas. ISBN 978-0-292-71235-5.
  40. ^ Kilby, David. "A Regional Perspective on Clovis Blades and Blade Caching." In "Clovis: On the Edge of a New Understanding," Ed. by Ashley Smallwood and Thomas Jennings, TAMU Press., 2014.
  41. ^ Kelly, Robert L. (October 1988). "The Three Sides of a Biface". American Antiquity. 53 (4): 717–734. doi:10.2307/281115. ISSN 0002-7316. JSTOR 281115.
  42. ^ Haynes, C. Vance; Hemmings, E. Thomas (January 12, 1968). "Mammoth-Bone Shaft Wrench from Murray Springs, Arizona". Science. 159 (3811): 186–187. Bibcode:1968Sci...159..186V. doi:10.1126/science.159.3811.186. ISSN 0036-8075. PMID 17792354.
  43. ^ a b Sutton, Mark Q. (July 3, 2018). "Paleoindian-Era Osseous Rods: Distribution, Dating, and Function". PaleoAmerica. 4 (3): 183–201. doi:10.1080/20555563.2018.1525600. ISSN 2055-5563.
  44. ^ Lemke, Ashley K.; Wernecke, D. Clark; Collins, Michael B. (January 2015). "Early Art in North America: Clovis and Later Paleoindian Incised Artifacts from the Gault Site, Texas (41BL323)". American Antiquity. 80 (1): 113–133. doi:10.7183/0002-7316.79.4.113. ISSN 0002-7316.
  45. ^ a b Zarzycka, Sandra E.; Surovell, Todd A.; Mackie, Madeline E.; Pelton, Spencer R.; Kelly, Robert L.; Goldberg, Paul; Dewey, Janet; Kent, Meghan (June 2019). "Long-distance transport of red ocher by Clovis foragers". Journal of Archaeological Science: Reports. 25: 519–529. Bibcode:2019JArSR..25..519Z. doi:10.1016/j.jasrep.2019.05.001.
  46. ^ Kilby, J. David, and Bruce B. Huckell. 2013. "Clovis caches: Current perspectives and future directions". In Paleoamerican Odyssey, edited by Kelly E. Graf, Caroline V. Ketron, and Michael R. Waters, 257–272. College Station: Center for the Study of the First Americans, Texas A&M University.
  47. ^ Surovell, Todd A.; Litynski, McKenna L.; Allaun, Sarah A.; Buckley, Michael; Schoborg, Todd A.; Govaerts, Jack A.; O'Brien, Matthew J.; Pelton, Spencer R.; Sanders, Paul H.; Mackie, Madeline E.; Kelly, Robert L. (February 5, 2024). "Use of hare bone for the manufacture of a Clovis bead". Scientific Reports. 14 (1): 2937. Bibcode:2024NatSR..14.2937S. doi:10.1038/s41598-024-53390-9. ISSN 2045-2322. PMC 10844228. PMID 38316967.
  48. ^ Kelly, Robert L.; Todd, Lawrence C. (April 1988). "Coming into the Country: Early Paleoindian Hunting and Mobility". American Antiquity. 53 (2): 231–244. doi:10.2307/281017. ISSN 0002-7316. JSTOR 281017.
  49. ^ Wernick, Christopher D. (August 2015). "Clovis points on flakes: A technological variation seen in long distance lithic transport". Plains Anthropologist. 60 (235): 246–265. doi:10.1179/2052546X15Y.0000000004. ISSN 0032-0447.
  50. ^ Sanchez, Guadalupe; Holliday, Vance T.; Gaines, Edmund P.; Arroyo-Cabrales, Joaquín; Martínez-Tagüeña, Natalia; Kowler, Andrew; Lange, Todd; Hodgins, Gregory W. L.; Mentzer, Susan M. (July 29, 2014). "Human (Clovis)–gomphothere (Cuvieronius sp.) association ~13,390 calibrated yBP in Sonora, Mexico". Proceedings of the National Academy of Sciences. 111 (30): 10972–10977. Bibcode:2014PNAS..11110972S. doi:10.1073/pnas.1404546111. ISSN 0027-8424. PMC 4121807. PMID 25024193.
  51. ^ Kooyman, Brian; Newman, Margaret E.; Cluney, Christine; Lobb, Murray; Tolman, Shayne; McNeil, Paul; Hills, L. V. (October 2001). "Identification of Horse Exploitation by Clovis Hunters Based on Protein Analysis". American Antiquity. 66 (4): 686–691. doi:10.2307/2694181. ISSN 0002-7316. JSTOR 2694181.
  52. ^ a b Kooyman, Brian; Hills, L.V.; Tolman, Shayne; McNeil, Paul (January 2012). "Late Pleistocene Western Camel ( Camelops Hesternus ) Hunting in Southwestern Canada". American Antiquity. 77 (1): 115–124. doi:10.7183/0002-7316.77.1.115. ISSN 0002-7316.
  53. ^ Haynes, Gary (2009), Haynes, Gary (ed.), "Estimates of Clovis-Era Megafaunal Populations and Their Extinction Risks", American Megafaunal Extinctions at the End of the Pleistocene, Vertebrate Paleobiology and Paleoanthropology, Dordrecht: Springer Netherlands, pp. 39–53, doi:10.1007/978-1-4020-8793-6_3, ISBN 978-1-4020-8792-9, retrieved May 2, 2024
  54. ^ Smallwood, Ashley M.; Jennings, Thomas A. (2014). "From Mammoth to Bison: Changing Clovis Prey Availability at the End of the Pleistocene". Clovis: On the Edge of a New Understanding. College Station: Texas A&M University Press. ISBN 978-1-62349-228-1.
  55. ^ Kilby, J. David; Surovell, Todd A.; Huckell, Bruce B.; Ringstaff, Christopher W.; Hamilton, Marcus J.; Haynes, C. Vance (October 2022). "Evidence supports the efficacy of Clovis points for hunting proboscideans". Journal of Archaeological Science: Reports. 45: 103600. Bibcode:2022JArSR..45j3600K. doi:10.1016/j.jasrep.2022.103600.
  56. ^ Bement, Leland C.; Carter, Brian J. (October 2010). "Jake Bluff: Clovis Bison Hunting on the Southern Plains of North America". American Antiquity. 75 (4): 907–933. doi:10.7183/0002-7316.75.4.907. ISSN 0002-7316.
  57. ^ Grayson, Donald K.; Meltzer, David J. (May 2003). "A requiem for North American overkill". Journal of Archaeological Science. 30 (5): 585–593. Bibcode:2003JArSc..30..585G. doi:10.1016/S0305-4403(02)00205-4.
  58. ^ a b Fiedel, Stuart J (August 2022). "Initial Human Colonization of the Americas, Redux". Radiocarbon. 64 (4): 845–897. Bibcode:2022Radcb..64..845F. doi:10.1017/RDC.2021.103. ISSN 0033-8222.
  59. ^ a b Amber D. Wheat "Survey of professional opionions regarding the peopling of the Americas." The SAA Archaeological Record Volume 12, No. March 2, 2012
  60. ^ Becerra-Valdivia, Lorena; Waters, Michael R.; Stafford, Thomas W.; Anzick, Sarah L.; Comeskey, Daniel; Devièse, Thibaut; Higham, Thomas (July 3, 2018). "Reassessing the chronology of the archaeological site of Anzick". Proceedings of the National Academy of Sciences. 115 (27): 7000–7003. Bibcode:2018PNAS..115.7000B. doi:10.1073/pnas.1803624115. ISSN 0027-8424. PMC 6142201. PMID 29915063.
  61. ^ García-Ortiz, Humberto; Barajas-Olmos, Francisco; Contreras-Cubas, Cecilia; Cid-Soto, Miguel Ángel; Córdova, Emilio J.; Centeno-Cruz, Federico; Mendoza-Caamal, Elvia; Cicerón-Arellano, Isabel; Flores-Huacuja, Marlen; Baca, Paulina; Bolnick, Deborah A.; Snow, Meradeth; Flores-Martínez, Silvia Esperanza; Ortiz-Lopez, Rocio; Reynolds, Austin W. (October 12, 2021). "The genomic landscape of Mexican Indigenous populations brings insights into the peopling of the Americas". Nature Communications. 12 (1): 5942. Bibcode:2021NatCo..12.5942G. doi:10.1038/s41467-021-26188-w. ISSN 2041-1723. PMC 8511047. PMID 34642312.
  62. ^ Posth, Cosimo; Nakatsuka, Nathan; Lazaridis, Iosif; Skoglund, Pontus; Mallick, Swapan; Lamnidis, Thiseas C.; Rohland, Nadin; Nägele, Kathrin; Adamski, Nicole; Bertolini, Emilie; Broomandkhoshbacht, Nasreen; Cooper, Alan; Culleton, Brendan J.; Ferraz, Tiago; Ferry, Matthew (November 2018). "Reconstructing the Deep Population History of Central and South America". Cell. 175 (5): 1185–1197.e22. doi:10.1016/j.cell.2018.10.027. PMC 6327247. PMID 30415837.
  63. ^ Waters, Michael R.; Stafford, Thomas W. (February 23, 2007). "Redefining the Age of Clovis: Implications for the Peopling of the Americas". Science. 315 (5815): 1122–1126. Bibcode:2007Sci...315.1122W. doi:10.1126/science.1137166. ISSN 0036-8075. PMID 17322060.
  64. ^ Pino, Mario; Dillehay, Tom D. (June 2023). "Monte Verde II: an assessment of new radiocarbon dates and their sedimentological context". Antiquity. 97 (393): 524–540. doi:10.15184/aqy.2023.32. ISSN 0003-598X.
  65. ^ a b Smith, Geoffrey M.; Duke, Daron; Jenkins, Dennis L.; Goebel, Ted; Davis, Loren G.; O'Grady, Patrick; Stueber, Dan; Pratt, Jordan E.; Smith, Heather L. (January 2, 2020). "The Western Stemmed Tradition: Problems and Prospects in Paleoindian Archaeology in the Intermountain West". PaleoAmerica. 6 (1): 23–42. doi:10.1080/20555563.2019.1653153. ISSN 2055-5563.
  66. ^ Davis, Loren G.; Madsen, David B.; Sisson, David A.; Becerra-Valdivia, Lorena; Higham, Thomas; Stueber, Daniel; Bean, Daniel W.; Nyers, Alexander J.; Carroll, Amanda; Ryder, Christina; Sponheimer, Matt; Izuho, Masami; Iizuka, Fumie; Li, Guoqiang; Epps, Clinton W. (December 23, 2022). "Dating of a large tool assemblage at the Cooper's Ferry site (Idaho, USA) to ~15,785 cal yr B.P. extends the age of stemmed points in the Americas". Science Advances. 8 (51): eade1248. Bibcode:2022SciA....8E1248D. doi:10.1126/sciadv.ade1248. ISSN 2375-2548. PMC 9788777. PMID 36563150.
  67. ^ Braje, Todd J.; Erlandson, Jon M.; Rick, Torben C.; Davis, Loren; Dillehay, Tom; Fedje, Daryl W.; Froese, Duane; Gusick, Amy; Mackie, Quentin; McLaren, Duncan; Pitblado, Bonnie; Raff, Jennifer; Reeder-Myers, Leslie; Waters, Michael R. (January 2020). "Fladmark + 40: What Have We Learned about a Potential Pacific Coast Peopling of the Americas?". American Antiquity. 85 (1): 1–21. doi:10.1017/aaq.2019.80. ISSN 0002-7316.
  68. ^ Rosencrance, R. L., D. Duke, A. Hartman, and A. Hoskins. 2024. "Western Stemmed Tradition Projectile Point Chronology in the Intermountain West". In Current Perspectives of Stemmed and Fluted Technologies in the American Far West, edited by K. N. McDonough, R. L. Rosencrance, and J. E. Pratt, 21–58. Salt Lake City: University of Utah Press.
  69. ^ Holliday, Vance T.; Daulton, Tyrone L.; Bartlein, Patrick J.; Boslough, Mark B.; Breslawski, Ryan P.; Fisher, Abigail E.; Jorgeson, Ian A.; Scott, Andrew C.; Koeberl, Christian; Marlon, Jennifer R.; Severinghaus, Jeffrey; Petaev, Michail I.; Claeys, Philippe (December 2023). "Comprehensive refutation of the Younger Dryas Impact Hypothesis (YDIH)". Earth-Science Reviews. 247: 104502. Bibcode:2023ESRv..24704502H. doi:10.1016/j.earscirev.2023.104502.

Further reading

[edit]