Site type

Location

Coordinates (degrees)
044.952° N, 001.002° E
Coordinates (DMS)
044° 57' 00" E, 001° 00' 00" N
Country (ISO 3166)
France (FR)

radiocarbon date Radiocarbon dates (13)

Lab ID Context Material Taxon Method Uncalibrated age Calibrated age References
GifA-100630 bone NA NA 19600±200 BP Binder 2002: 81 note 1 Bird et al. 2022
GifA-100632 boneàNA NA 20690±210 BP Banadora. Tisnerat-Laborde N. 2003. Radiocarbon 45: 409-419. Bird et al. 2022
GifA-100634 bone NA NA 19550±340 BP Pigeaud R. 2003. C.R. Palevol 2: 161-168.. Bigot 1988. sol chevaux pponctuÔøΩes Bird et al. 2022
GrN-4441 bone NA NA 20000±240 BP Banadora. Tisnerat-Laborde N. 2003. Radiocarbon 45: 409-419. Bird et al. 2022
GrN-4442 charcoal NA NA 19600±140 BP Gabori-Csank V. 1968.La station du paleolithique moyen d'Erd-Hongrie. Akademiai Kado Budapest. Bird et al. 2022
GrN-4446 charcoal NA NA 20810±230 BP http://pageperso.aol.fr/vdujardin/14C.html Bird et al. 2022
GrN-4469 bone NA NA 20160±100 BP Vermeersch2019 Bird et al. 2022
GrN-4495 bone NA NA 19740±200 BP http://pageperso.aol.fr/vdujardin/14C.html. Vogel 1967. Radiocarbon 9 Bird et al. 2022
GrN-4605 bone Coelodonta antiquitatis Linty NA NA 19870±190 BP Furholt 2003 228f. Bird et al. 2022
Ly-974 bone NA NA 13970±480 BP Vermeersch2019 Bird et al. 2022
Lyon-1173 (OxA) bone NA NA 19524±155 BP French J. 2015. JAS 55: 122-134. Bird et al. 2022
Lyon-1174 NA NA 20195±265 BP Valladas 2005. BSPF 102:109-113. Gonzalez J. . 2007. L'Anthropologie doi: 10.1016/j.anthro.2007.07.001. J. Combier 2012. QuartÔøΩr 59: 131-152. Faigenbaum-Golovin S. 2016. PNAS 113: 4670-4675. Bird et al. 2022
OxA-29438 antler hammer NA NA 12385±55 BP Carciumaru M. 2004-2005. Annales d'universite Valahia Tagoviste VI-VII: 7-40. G van Klinken RM Hedges - Radiocarbon 2006: 292-295. Bird et al. 2022

typological date Typological dates (0)

Classification Estimated age References

Bibliographic reference Bibliographic references

@misc{Binder 2002: 81 note 1,
  
}
@misc{Banadora. Tisnerat-Laborde  N.  2003. Radiocarbon 45: 409-419.,
  
}
@misc{Pigeaud R.  2003. C.R. Palevol 2: 161-168.. Bigot 1988. sol chevaux pponctuÔøΩes,
  
}
@misc{Gabori-Csank V. 1968.La station du paleolithique moyen d'Erd-Hongrie. Akademiai Kado Budapest.,
  
}
@misc{http://pageperso.aol.fr/vdujardin/14C.html,
  
}
@misc{Vermeersch2019,
  
}
@misc{http://pageperso.aol.fr/vdujardin/14C.html. Vogel  1967. Radiocarbon 9,
  
}
@misc{Furholt 2003 228f.,
  
}
@misc{French J.  2015. JAS 55: 122-134.,
  
}
@misc{Valladas  2005. BSPF 102:109-113. Gonzalez J. .  2007. L'Anthropologie doi: 10.1016/j.anthro.2007.07.001. J. Combier  2012. QuartÔøΩr 59:  131-152. Faigenbaum-Golovin S.  2016. PNAS 113: 4670-4675.,
  
}
@misc{Carciumaru M. 2004-2005. Annales d'universite Valahia Tagoviste VI-VII: 7-40. G van Klinken RM Hedges - Radiocarbon 2006: 292-295.,
  
}
@article{p3k14c,
  title = {P3k14c, a Synthetic Global Database of Archaeological Radiocarbon Dates},
  author = {Bird, Darcy and Miranda, Lux and Vander Linden, Marc and Robinson, Erick and Bocinsky, R. Kyle and Nicholson, Chris and Capriles, José M. and Finley, Judson Byrd and Gayo, Eugenia M. and Gil, Adolfo and d’Alpoim Guedes, Jade and Hoggarth, Julie A. and Kay, Andrea and Loftus, Emma and Lombardo, Umberto and Mackie, Madeline and Palmisano, Alessio and Solheim, Steinar and Kelly, Robert L. and Freeman, Jacob},
  year = {2022},
  month = {jan},
  journal = {Scientific Data},
  volume = {9},
  number = {1},
  pages = {27},
  publisher = {Nature Publishing Group},
  issn = {2052-4463},
  doi = {10.1038/s41597-022-01118-7},
  abstract = {Archaeologists increasingly use large radiocarbon databases to model prehistoric human demography (also termed paleo-demography). Numerous independent projects, funded over the past decade, have assembled such databases from multiple regions of the world. These data provide unprecedented potential for comparative research on human population ecology and the evolution of social-ecological systems across the Earth. However, these databases have been developed using different sample selection criteria, which has resulted in interoperability issues for global-scale, comparative paleo-demographic research and integration with paleoclimate and paleoenvironmental data. We present a synthetic, global-scale archaeological radiocarbon database composed of 180,070 radiocarbon dates that have been cleaned according to a standardized sample selection criteria. This database increases the reusability of archaeological radiocarbon data and streamlines quality control assessments for various types of paleo-demographic research. As part of an assessment of data quality, we conduct two analyses of sampling bias in the global database at multiple scales. This database is ideal for paleo-demographic research focused on dates-as-data, bayesian modeling, or summed probability distribution methodologies.},
  copyright = {2022 The Author(s)},
  langid = {english},
  keywords = {Archaeology,Chemistry},
  month_numeric = {1}
}
{"bibtex_key":"Binder 2002: 81 note 1","bibtex_type":"misc"}{"bibtex_key":"Banadora. Tisnerat-Laborde  N.  2003. Radiocarbon 45: 409-419.","bibtex_type":"misc"}{"bibtex_key":"Pigeaud R.  2003. C.R. Palevol 2: 161-168.. Bigot 1988. sol chevaux pponctuÔøΩes","bibtex_type":"misc"}{"bibtex_key":"Gabori-Csank V. 1968.La station du paleolithique moyen d'Erd-Hongrie. Akademiai Kado Budapest.","bibtex_type":"misc"}{"bibtex_key":"http://pageperso.aol.fr/vdujardin/14C.html","bibtex_type":"misc"}{"bibtex_key":"Vermeersch2019","bibtex_type":"misc"}{"bibtex_key":"http://pageperso.aol.fr/vdujardin/14C.html. Vogel  1967. Radiocarbon 9","bibtex_type":"misc"}{"bibtex_key":"Furholt 2003 228f.","bibtex_type":"misc"}{"bibtex_key":"French J.  2015. JAS 55: 122-134.","bibtex_type":"misc"}{"bibtex_key":"Valladas  2005. BSPF 102:109-113. Gonzalez J. .  2007. L'Anthropologie doi: 10.1016/j.anthro.2007.07.001. J. Combier  2012. QuartÔøΩr 59:  131-152. Faigenbaum-Golovin S.  2016. PNAS 113: 4670-4675.","bibtex_type":"misc"}{"bibtex_key":"Carciumaru M. 2004-2005. Annales d'universite Valahia Tagoviste VI-VII: 7-40. G van Klinken RM Hedges - Radiocarbon 2006: 292-295.","bibtex_type":"misc"}[{"bibtex_key":"p3k14c","bibtex_type":"article","title":"{P3k14c, a Synthetic Global Database of Archaeological Radiocarbon Dates}","author":"{Bird, Darcy and Miranda, Lux and Vander Linden, Marc and Robinson, Erick and Bocinsky, R. Kyle and Nicholson, Chris and Capriles, José M. and Finley, Judson Byrd and Gayo, Eugenia M. and Gil, Adolfo and d’Alpoim Guedes, Jade and Hoggarth, Julie A. and Kay, Andrea and Loftus, Emma and Lombardo, Umberto and Mackie, Madeline and Palmisano, Alessio and Solheim, Steinar and Kelly, Robert L. and Freeman, Jacob}","year":"{2022}","month":"{jan}","journal":"{Scientific Data}","volume":"{9}","number":"{1}","pages":"{27}","publisher":"{Nature Publishing Group}","issn":"{2052-4463}","doi":"{10.1038/s41597-022-01118-7}","abstract":"{Archaeologists increasingly use large radiocarbon databases to model prehistoric human demography (also termed paleo-demography). Numerous independent projects, funded over the past decade, have assembled such databases from multiple regions of the world. These data provide unprecedented potential for comparative research on human population ecology and the evolution of social-ecological systems across the Earth. However, these databases have been developed using different sample selection criteria, which has resulted in interoperability issues for global-scale, comparative paleo-demographic research and integration with paleoclimate and paleoenvironmental data. We present a synthetic, global-scale archaeological radiocarbon database composed of 180,070 radiocarbon dates that have been cleaned according to a standardized sample selection criteria. This database increases the reusability of archaeological radiocarbon data and streamlines quality control assessments for various types of paleo-demographic research. As part of an assessment of data quality, we conduct two analyses of sampling bias in the global database at multiple scales. This database is ideal for paleo-demographic research focused on dates-as-data, bayesian modeling, or summed probability distribution methodologies.}","copyright":"{2022 The Author(s)}","langid":"{english}","keywords":"{Archaeology,Chemistry}","month_numeric":"{1}"}]
---
:bibtex_key: 'Binder 2002: 81 note 1'
:bibtex_type: :misc
---
:bibtex_key: 'Banadora. Tisnerat-Laborde  N.  2003. Radiocarbon 45: 409-419.'
:bibtex_type: :misc
---
:bibtex_key: 'Pigeaud R.  2003. C.R. Palevol 2: 161-168.. Bigot 1988. sol chevaux
  pponctuÔøΩes'
:bibtex_type: :misc
---
:bibtex_key: Gabori-Csank V. 1968.La station du paleolithique moyen d'Erd-Hongrie.
  Akademiai Kado Budapest.
:bibtex_type: :misc
---
:bibtex_key: http://pageperso.aol.fr/vdujardin/14C.html
:bibtex_type: :misc
---
:bibtex_key: Vermeersch2019
:bibtex_type: :misc
---
:bibtex_key: http://pageperso.aol.fr/vdujardin/14C.html. Vogel  1967. Radiocarbon
  9
:bibtex_type: :misc
---
:bibtex_key: Furholt 2003 228f.
:bibtex_type: :misc
---
:bibtex_key: 'French J.  2015. JAS 55: 122-134.'
:bibtex_type: :misc
---
:bibtex_key: 'Valladas  2005. BSPF 102:109-113. Gonzalez J. .  2007. L''Anthropologie
  doi: 10.1016/j.anthro.2007.07.001. J. Combier  2012. QuartÔøΩr 59:  131-152. Faigenbaum-Golovin
  S.  2016. PNAS 113: 4670-4675.'
:bibtex_type: :misc
---
:bibtex_key: 'Carciumaru M. 2004-2005. Annales d''universite Valahia Tagoviste VI-VII:
  7-40. G van Klinken RM Hedges - Radiocarbon 2006: 292-295.'
:bibtex_type: :misc
---
- :bibtex_key: p3k14c
  :bibtex_type: :article
  :title: "{P3k14c, a Synthetic Global Database of Archaeological Radiocarbon Dates}"
  :author: "{Bird, Darcy and Miranda, Lux and Vander Linden, Marc and Robinson, Erick
    and Bocinsky, R. Kyle and Nicholson, Chris and Capriles, José M. and Finley, Judson
    Byrd and Gayo, Eugenia M. and Gil, Adolfo and d’Alpoim Guedes, Jade and Hoggarth,
    Julie A. and Kay, Andrea and Loftus, Emma and Lombardo, Umberto and Mackie, Madeline
    and Palmisano, Alessio and Solheim, Steinar and Kelly, Robert L. and Freeman,
    Jacob}"
  :year: "{2022}"
  :month: "{jan}"
  :journal: "{Scientific Data}"
  :volume: "{9}"
  :number: "{1}"
  :pages: "{27}"
  :publisher: "{Nature Publishing Group}"
  :issn: "{2052-4463}"
  :doi: "{10.1038/s41597-022-01118-7}"
  :abstract: "{Archaeologists increasingly use large radiocarbon databases to model
    prehistoric human demography (also termed paleo-demography). Numerous independent
    projects, funded over the past decade, have assembled such databases from multiple
    regions of the world. These data provide unprecedented potential for comparative
    research on human population ecology and the evolution of social-ecological systems
    across the Earth. However, these databases have been developed using different
    sample selection criteria, which has resulted in interoperability issues for global-scale,
    comparative paleo-demographic research and integration with paleoclimate and paleoenvironmental
    data. We present a synthetic, global-scale archaeological radiocarbon database
    composed of 180,070 radiocarbon dates that have been cleaned according to a standardized
    sample selection criteria. This database increases the reusability of archaeological
    radiocarbon data and streamlines quality control assessments for various types
    of paleo-demographic research. As part of an assessment of data quality, we conduct
    two analyses of sampling bias in the global database at multiple scales. This
    database is ideal for paleo-demographic research focused on dates-as-data, bayesian
    modeling, or summed probability distribution methodologies.}"
  :copyright: "{2022 The Author(s)}"
  :langid: "{english}"
  :keywords: "{Archaeology,Chemistry}"
  :month_numeric: "{1}"

Changelog