Kendrick's Cave Explained

Kendrick's Cave
Map Type:UK Wales#United Kingdom
Map Alt:Kendrick's Cave
Map Size:240
Relief:yes
Coordinates:53.3278°N -3.8328°W
Location:on the Great Orme
Region:Llandudno, Wales
Type:limestone massif
Excavations:1880
Archaeologists:Thomas Kendrick

Kendrick's Cave on the Great Orme, Llandudno, Wales, was the site of important archaeological finds by Thomas Kendrick in 1880. The site is a small natural cavern on the south of the Great Orme Head, a limestone massif on the seaward side of Llandudno (Ordnance Survey ref SH 78008284).[1]

Kendrick, a lapidary, was clearing a cave in his garden to extend his workshop. In the process he found a decorated horse jaw, flint artefacts, bear teeth with holes for use as beads or pendants and human and animal bones.[2] A project in 2008 involving the British Museum, the Field Club, Llandudno Museum and Archives, Llandudno and Colwyn Bay Historical Society, the National Museum of Wales, and Oxford and Bradford Universities reunited the once dispersed finds from the cave for an exhibition in Llandudno Museum.[3]

Human diet

An analysis of stable isotopes in the human bones found shows that they had a diet high in seafood. The individuals from Kendrick’s Cave show evidence of intensive consumption of marine and freshwater foods, including piscivorous marine mammals such as seals.[4] [5] [6]

Radiocarbon dating

The boundary start date for human activity at the site is 16,410–14,070 calibrated years before the present, with a boundary end date of 13,730–13,140 calibrated years before the present. This estimate is subject to more uncertainty than usual because the proportion of stable carbon derived from a marine diet by these humans is uncertain.[7]

Burial site

The presence of un-modified human bones has been taken to indicate that the cave was a burial site rather than a camp site.[7]

Ancient DNA

DNA from one specimen, Kendricks_074, showed that this person was male and carried haplogroup U5a2. A number of British Mesolithic individuals carry the U5 mitochondrial haplogroup, including one individual from Kent’s Cavern who also carried U5a2. Analysis of the 476,347 single nucleotide polymorphisms recovered from Kendricks_074 shows that he shares most drift with the individuals belonging to the ~14,000–7,000-year-old Villabruna genetic cluster. Eleven Mesolithic individuals from elsewhere in the British Isles, the Western Hunter-Gatherer population, can also be modeled as having entirely Villabruna ancestry, except for Cheddar Man with some 85% Villabruna ancestry.[7]

A different contemporary culture with genetically-different individuals

However, a Palaeolithic individual from Gough’s Cave in SW England, who possibly lived at approximately the same time as Kendricks_074,[7] shares most drift with the individuals belonging to the ~19,000–14,000-year-old Goyet Q2 genetic cluster. De-fleshing marks and secondary treatment of human material at Gough’s Cave (also found at other Magdalenian culture sites such as Brillenhöhle and Hohle Fels in Germany and Maszycka Cave in Poland) has been taken as evidence of cannibalism.[8] This suggests that at least two different human groups, with different genetic affinities and different dietary and cultural behaviours, were present in Britain during the Late Glacial.[7]

See also

Further reading

External links

Notes and References

  1. Sieveking . G. de G. . The Kendrick's Cave Mandible . . 1971 . 35 . 1/4 . 230–250 . 10.2307/4423084 . 4423084 .
  2. https://www.britishmuseum.org/explore/highlights/highlight_objects/pe_prb/d/decorated_horse_jaw.aspx Decorated horse jaw.
  3. Web site: 2008 . Sharing the Treasures: Kendrick's Cave . https://web.archive.org/web/20121022160601/https://www.britishmuseum.org/whats_on/touring_exhibitions_and_loans/sharing_the_treasures.aspx . 22 October 2012 . 24 October 2022 . British Museum.
  4. Richards . M. P. . Jacobi . R. . Cook . J. . Pettitt . P. B. . Stringer . C. B. . Isotope evidence for the intensive use of marine foods by Late Upper Palaeolithic humans . Journal of Human Evolution . 1 September 2005 . 49 . 3 . 390–394 . 10.1016/j.jhevol.2005.05.002 . 15975629 .
  5. Bocherens . Hervé . Drucker . Dorothée G. . Isotope evidence for paleodiet of late Upper Paleolithic humans in Great Britain: A response to Richards et al. (2005) . Journal of Human Evolution . October 2006 . 51 . 4 . 440–442 . 10.1016/j.jhevol.2005.12.014 . 16777188 .
  6. Pickard . Catriona . Bonsall . Clive . Post-glacial hunter-gatherer subsistence patterns in Britain: dietary reconstruction using FRUITS . Archaeological and Anthropological Sciences . July 2020 . 12 . 7 . 142 . 10.1007/s12520-020-01087-1 . 220049759 . free . 20.500.11820/acd7248f-c120-4bd4-a5b8-e2a01dce0a24 . free .
  7. Charlton . Sophy . Brace . Selina . Hajdinjak . Mateja . Kearney . Rebecca . Booth . Thomas . Reade . Hazel . Tripp . Jennifer A. . Sayle . Kerry L. . Grimm . Sonja B. . Bello . Silvia M. . Walker . Elizabeth A. . Gilardet . Alexandre . East . Philip . Glocke . Isabelle . Larson . Greger . Higham . Tom . Stringer . Chris . Skoglund . Pontus . Barnes . Ian . Stevens . Rhiannon E. . 3 . Dual ancestries and ecologies of the Late Glacial Palaeolithic in Britain . Nature Ecology & Evolution . 24 October 2022 . 1–11 . 10.1038/s41559-022-01883-z . 36280785 . 253109710 . free . 9630104 . Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License.
  8. Orschiedt . Jörg . Schüler . Tim . Połtowicz-Bobak . Marta . Bobak . Dariusz . Kozłowski . Stefan Karol . Terberger . Thomas . Human Remains From Maszycka Cave (Woj. Małopolskie / Pl): The Treatment Of Human Bodies In The Magdalenian . Archäologisches Korrespondenzblatt . 1 January 2017 . 47 . 4 . 423–439 . 10.5281/zenodo.1208071 .