References

Aerts-Bijma, A. T., Meijer, H. A. J., and van der Plicht, J. 1997 ‘AMS sample handling in Groningen’. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 123, 221–5

Aerts-Bijma, A. T., van der Plicht, J., and Meijer, H. A. J. 2001 ‘Automatic AMS sample combustion and CO2 collection’. Radiocarbon 43, 293–8

Archaeology Data Service 1997 Guidelines for Depositors. (acc. October 2013)

Archaeology Data Service 2011 Digital Archives from Excavation and Fieldwork: Guide to Good Practice, 2 edn) (acc. October 2013)

Archaeological Services Durham University 2019. Arcot, Phase 1 Cramlington, Northumberland: post excavation analysis, Report 5184

Arneborg, J., Heinemeier, J., Lynnerup, N., Nielsen, H. L., Rud, N., and Sveinbjörnsdóttir, Á. E. 1999 ‘Change of diet of the Greenland Vikings determined from stable carbon isotope analysis and 14C dating of their bones’. Radiocarbon, 41, 157–68

Arnold, A. J., and Howard, R. E., 2006 The Guildhall Complex and Pedagogue’s House, Stratford upon Avon, Warwickshire, Tree-ring Analysis of Timbers, English Heritage Centre for Archaeology Report, 68/2006

Arnold, A. J., Howard, R. E., Litton, C. D., and Dawson, G. 2005 The Tree-ring Dating of a Number of Bellframes in Leicestershire. English Heritage Centre for Archaeology Report, 5/2005

Arnold, A., Howard, R., Tyers, C., Bayliss, A., Bollhalder, S., and Wacker, L. 2020a 4 Walseker Lane, Harthill with Woodall, Rotherham, South Yorkshire: tree-ring analysis and radiocarbon wiggle-matching of oak timbers. Historic England Research Report Series, 240-2020

Arnold, A., Howard, R., and Tyers, C. 2020b 41–47 High Street and the Clarence Hotel Buildings, Exeter, Devon, Tree-ring Analysis of Oak Timbers, Historic England Research Report Series, 227-2020

Arnold, A. J., Howard, R. E., and Tyers, C., forthcoming St John The Baptist Church, Myndtown, Shropshire, Tree-ring Analysis of Timbers. Historic England Research Report Series

Ashmore, P. 1999 ‘Radiocarbon dating: avoiding errors by avoiding mixed samples’. Antiquity, 73, 124–30

Association of County Archaeological Officers 1993 Model Briefs and Specifications for Archaeological Assessments and Field Evaluations (Bedford) (acc. October 2013)

Baker, P., and Worley, P. 2019 Animal Bones and Archaeology: recovery to archive (Swindon)

Bayliss, A. 2007 ‘Bayesian Buildings: an introduction for the numerically challenged’. Vernacular Architecture, 38, 75–86

Bayliss, A. and Harry, R. 1997 ‘The radiocarbon dating programme’, in Harry, R., and Morris, C. ‘Excavations on the lower terrace, site C, Tintagel island 1990–94’. The Antiquaries Journal, 77, 108–15

Bayliss, A., and Marshall, P. 2019 ‘Confessions of a serial polygamist: the reality of radiocarbon reproducibility in archaeological samples’. Radiocarbon, 61, 1143–58

Bayliss, A., McCormac, F. G., van der Plicht, J. 2004 ‘An illustrated guide to measuring radiocarbon from archaeological samples’. Physics Education, 39, 137–44

Bayliss, A, Bronk Ramsey, C, van der Plicht, J, and Whittle, A. 2007a Bradshaw and Bayes: towards a timetable for the Neolithic. Cambridge Archaeological Journal, 17(suppl), 1–28

Bayliss, A., Boomer, I., Bronk Ramsey, C., Hamilton, D., and Waddington, C. 2007b ‘Absolute dating’, in Waddington, C. ed., Mesolithic settlement in the North Sea Basin, 65–74, (Oxford)

Bayliss, A., Hines, J., Høilund Nielsen, K., McCormac, F. G., and Scull, C. 2013 Anglo-Saxon Graves and Grave Goods of the Sixth and Seventh Centuries AD: A Chronological Framework, Society of Medieval Archaeology Monograph 33 (London)

Bayliss, A., Marshall, P., Dee, M., Friedrich, M., Heaton, T., and Wacker, L. 2020 ‘IntCal20 tree-rings: an archaeological SWOT analysis’. Radiocarbon, 62, 1045–78

Beavan, N., and Mays, S. 2013 ‘The human skeleton’, in Hines, J., and Bayliss, A., eds, Anglo-Saxon Graves and Grave Goods of the Sixth and Seventh Centuries AD: A Chronological Framework, Society of Medieval Archaeology Monograph 33, 101–32 (London)

Best, J., and Gent, T. 2007Bronze Age burnt mounds and early medieval timber structures at Town Farm Quarry, Burlescombe, Devon’. The Archaeological Journal, 164, 1–79

Bevan, A., Colledge, S., Fuller, D., Fyfe, R., Shennan, S., and Stevens, C. 2017 ‘Holocene population, food production, and climate’. Proceedings of the National Academy of Sciences, 114, E10524-E10531

Bird, D., Miranda, L., Vander Linden, M., Robinson, E., Bocinsky, R. K., Nicholson, C., Capriles, J. M., Gayo, E. M., Gil, A., d’Alpoim, J., Hoggarth, J. A., Kay, A., Loftus, A., Lombardo, U., Mackie, M., Palmisano, A., Solheim, S., Kelly, R. L., and Freeman, J. 2022 ‘p3k14c, a synthetic global database of archaeological radiocarbon dates’. Scientific Data, 9, 27

Blaauw, M. 2010 ‘Methods and code for “classical” age-modelling of radiocarbon sequences’. Quaternary Geochronology, 5, 512–18

Blaauw, M., and Christen, J. A. 2005 ‘Radiocarbon peat chronologies and environmental change’. Applied Statistics, 54, 805–16

Blaauw, M., and Christen, J. A. 2011 ‘Flexible palaeoclimate age-depth models using an autoregressive gamma process’. Bayesian Analysis, 6, 457–74

Bowman, S. 1990 Radiocarbon dating (London)

Bridge, M., Hurford, M., and Tyers, C. 2014 Dauntsey House, Dauntsey, Wiltshire, Tree-ring Analysis of Timbers, English Heritage Research Department Report Series, 62/2014

Brock F., Higham T., Bronk Ramsey C. 2010a ‘Pre-screening techniques for identification of samples suitable for radiocarbon dating of poorly preserved bones’. Journal of Archaeological Science, 37, 855–65

Brock, F., Higham, T., Ditchfield, P., Bronk Ramsey, C. 2010b ‘Current pretreatment methods for AMS radiocarbon dating at the Oxford radiocarbon accelerator unit (ORAU)’. Radiocarbon, 52, 103–12

Brock, F., Wood, R., Higham, T. F. G., Ditchfield, P., Bayliss, A., and Bronk Ramsey, C. 2012 ‘Reliability of nitrogen content (%N) and carbon:nitrogen atomic ratios (C:N) as indicators of collagen preservation suitable for radiocarbon dating’. Radiocarbon, 54, 879–86

Bronk Ramsey, C. 1995 ‘Radiocarbon calibration and analysis of stratigraphy: the OxCal program’. Radiocarbon, 36, 425–30

Bronk Ramsey, C. 1998 ‘Probability and dating’. Radiocarbon, 40, 461–74

Bronk Ramsey, C. 2001 ‘Development of the radiocarbon calibration program OxCal’. Radiocarbon, 43, 355–63

Bronk Ramsey, C. 2008 ‘Deposition models for chronological records’. Quaternary Science Reviews, 27, 42-60

Bronk Ramsey, C. 2009a ‘Bayesian analysis of radiocarbon dates’. Radiocarbon, 51, 37–60

Bronk Ramsey, C. 2009b ‘Dealing with outliers and offsets in radiocarbon dating’. Radiocarbon, 51, 1023–45

Bronk Ramsey, C. 2017 ‘Methods for summarizing radiocarbon datasets’. Radiocarbon, 59, 1809–33

Bronk Ramsey, C., and Lee, S. 2013 ‘Recent and planned developments of the program OxCal’. Radiocarbon, 55, 720–30

Bronk Ramsey, C., van der Plicht, J., and Weninger, B. 2001 ‘ “Wiggle matching” radiocarbon dates’. Radiocarbon, 43, 381–9

Bronk Ramsey, C., Higham, T., and Leach, P. 2004a ‘Towards high precision AMS: progress and limitations’. Radiocarbon, 46, 17–24

Bronk Ramsey, C., Higham, T. F., Bowles, A., and Hedges, R.E.M. 2004b ‘Improvements to the pre-treatment of bone at Oxford’. Radiocarbon 46, 155–63

Bronk Ramsey, C., Dee, M., Lee, S., Nakagawa, T., and Staff, R. A. 2010 ‘Developments in the calibration and modeling of radiocarbon dates’. Radiocarbon, 52, 953–61

Brown, D. H. 2011 Archaeological Archives. A Guide to Best Practice in Creation, Compilation, Transfer and Curation, 2 edn (Reading) (acc. August 2021).

Brunning, R., and Watson, J. 2010 Waterlogged Wood: Guidelines on the Recording, Sampling, Conservation, and Curation of Waterlogged Wood, (Swindon)

Buck, C. E., Cavanagh, W. G., and Litton, C. D. 1996 Bayesian Approach to Interpreting Archaeological Data (Chichester)

Buck, C. E., Litton, C. D. and Smith, A. F .M. 1992 ‘Calibration of radiocarbon results pertaining to related archaeological events’. Journal of Archaeological Science,19, 497–512

Buck C. E., Christen J. A., and James, G. N. 1999 ‘BCal: an on- line Bayesian radiocarbon calibration tool. Internet Archaeology, 7

Buckley, R., Morris, R., Appleby, J., King, T., O’Sullivan, D., and Foxhall, L. 2013 ‘ “The king in the car park”: new light on the death and burial of Richard III in the Grey Friars church, Leicester, in 1485’. Antiquity, 87, 519–38

Campbell, G., Moffett, L., and Straker, V. 2011 Environmental Archaeology. A Guide to the Theory and Practice of Methods, from Sampling and Recovery to Post-excavation, 2 edn. (Swindon)

Chartered Institute for Archaeologists 2014a Standard and Guidance for Archaeological Excavation. (acc. August 2021)

Chartered Institute for Archaeologists 2014b Standard and Guidance for Archaeological Field Evaluation. (acc. August 2021)

Chartered Institute for Archaeologists 2014c Code of Conduct. (acc. August 2021)

Chartered Institute for Archaeologists 2020a Standard and Guidance for Historic Environment Desk-based Assessment. (acc. August 2021)

Chartered Institute for Archaeologists 2020b Standard and Guidance for Archaeological Investigation and Recording of Standing Buildings or Structure. (acc. August 2021)

Chartered Institute for Archaeologists 2020c Standard and Guidance for an Archaeological Watching Brief. (acc. August 2021)

Chartered Institute for Archaeologists 2020d Standard and Guidance for the Collection, Documentation, Conservation and Research of Archaeological Materials. (acc. August 2021)

Christen, J. A. 1994 ‘Summarizing a set of radiocarbon determinations - a robust approach’. Applied Statistics, 43, 489–503

Christen, J. A., and Litton, C. D. 1995 ‘A Bayesian approach to wiggle-matching’. Journal of Archaeological Science, 22, 719–25

Christen, J. A., and Pérez, S. 2009 ‘A new robust statistical model for radiocarbon data’. Radiocarbon, 51, 1047–59

Clark, P., Shand, G., and Weekes, J. 2019 Chalk Hill: Neolithic and Bronze Age Discoveries at Ramsgate, Kent. (Leiden)

Darvill, T., and Wainwright, G. 2009 ‘Stonehenge excavations 2008’. The Antiquaries Journal, 89, 1–19

Dee, M., and Bronk Ramsey, C. 2000 ‘Refinement of graphite target production at ORAU’. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 172, 449–53

Dee, M., and Bronk Ramsey, C. 2014 ‘High-precision Bayesian modelling of samples susceptible to inbuilt age’. Radiocarbon, 56, 83–94

Duller, G. 2008 Luminescence Dating: guidelines on using luminescence dating in archaeology. (Swindon)

Dunbar, E., Cook, G. T., Naysmith, P., Tipney, B. G., and Xu, S. 2016 ‘AMS 14C dating at the Scottish Universities Environmental Research Centre (SUERC) Radiocarbon Dating Laboratory’. Radiocarbon, 58, 9–23

English Heritage 1998 Dendrochronology: guidelines for producing and interpreting dendrochronological dates. (London)

English Heritage 2006 Archaeomagnetic Dating: guidelines on producing and interpreting archaeomagnetic dates. (Swindon)

Esling, J., Howard, R. E., Laxton, R. R., Litton, C. D., and Simpson, W. G. 1989 ‘List 29 no 3 – Nottingham University Tree-Ring Dating Laboratory: results’. Vernacular Architecture, 20, 39–41

Fernandes, R. 2016 ‘A simple(R) model to predict the source of dietary carbon in individual consumers’. Archaeometry, 58, 500–512

Fernandes, R., Millard, A. R., Brabeck M., Nadeau, M-J., and Grootes, P. 2014 ‘Food Reconstruction Using Isotopic Transferred Signals (FRUITS): a Bayesian model for diet reconstruction’. PLoS ONE, 9, e87436

Griffiths, S., Johnston, R., May, R., McOmish, D., Marshall, P., Last, J., and Bayliss, A. 2021 ‘Dividing the land: time and land division in the English north Midlands and Yorkshire’. European Journal of Archaeology, 1-22

Harkness, D. D. 1983 ‘The extent of the natural 14C deficiency in the coastal environment of the United Kingdom’. Journal of the European Study Group on Physical, Chemical and Mathematical Techniques Applied to Archaeology PAC, 8, 351–64

Hamilton, W. D. 2010 The Use of Radiocarbon and Bayesian Modelling to (Re)Write Later Iron Age Settlement Histories in East-Central Britain. PhD thesis, University of Leicester

Haslett, J., and Parnell, A. 2008 ‘A simple monotone process with application to radiocarbon-dated depth chronologies’. Applied Statistics, 57, 399–418

Healy, F. 2012 ‘Chronology, corpses, ceramics, copper and lithics’, in Allen, M. J., Gardiner, L., and Sheridan, A., eds Is There a British Chalcolithic? People, Place and Polity in the Later 3rd Millennium. Prehistoric Society Research Paper, 4, 144–63 and cd 21–80

Heaton, T., Köhler, P., Butzin, M., Bard, E., Reimer, R., Austin, W., Bronk Ramsey, C., Grootes, P. M., Hughen, K. A., Kromer, B., Reimer, P. J., Adkins, J., Burke, A., Cook, M. S., Olsen, J., and Skinner, L. C. 2020 ‘Marine20—The marine radiocarbon age calibration curve (0–55,000 cal BP)’. Radiocarbon, 62, 779–820

Hedges, R. E. M., Bronk, C. R., and Housley, R. A. 1989 ‘The Oxford Accelerator Mass Spectrometry facility: technical developments in routine dating’. Archaeometry 31, 99–113

Hedges, R. E. M., Clement, J. G., Thomas, C. D. L., and O’Connell, T. C. 2007 ’Collagen turnover in the adult femoral mid-shaft: modelled from anthropogenic radiocarbon tracer measurements’. American Journal of Physical Anthropology, 133, 808–16

Hillam, J. 1984 Tree-ring dating of timbers from Brampton Bierlow Hall, South Yorkshire, English Heritage Ancient Monuments Laboratory Report, 4275

Hillam, J., and Groves, C. 1991 Tree-ring dating of timbers from Stank Hall Barn, near Leeds, West Yorkshire. English Heritage Ancient Monuments Laboratory Report, 19/1991

Hillam, J., and Ryder, P. F. 1980 ‘Tree-ring dating of vernacular buildings from Yorkshire: List 2’. Vernacular Architecture, 11, 23–31

Historic England 2015a Geoarchaeology Using Earth Sciences to Understand the Archaeological Record (Swindon) Historic England; (acc. August 2021)

Historic England 2015b Where on Earth Are We? The Role of Global Navigation Satellite Systems (GNSS) in Archaeological Field Survey. (Swindon) Historic England; (acc. February 2022)

Historic England 2015c Management of Research Projects in the Historic Environment: The MoRPHE Project Managers’ Guide, v 1.2. (Swindon) Historic England; (acc. August 2021)

Hogg, A, G., Lowe, D, J., and Hendy, C. 1987 ‘University of Waikato radiocarbon dates I’. Radiocarbon 29, 263–301

Howard, R. E., Laxton, R. R., Litton, C. D., and Simpson, W. G. 1992 ‘List 44 nos 11, 23 – Nottingham University Tree-Ring Dating Laboratory: results’. Vernacular Architect, 23, 51–6

Howard, R. E., Laxton, R. R., and Litton, C. D. 1996 Tree-ring Analysis of Timbers from the North Aisle of St Nicholas’ Church, Stanford-on-Avon, Northamptonshire. English Heritage Ancient Monuments Laboratory Report, 27/1996

Hua, Q., Turnbull, J. C., Santos, G. M., Rakowski, A. Z., Ancapichún, S., De Pol-Holz, R., Hammer, S. J., Lehman, S. J., Levin, I., Miller, J. B., Palmer, J. G., and Turney, C. S. M. 2021 ‘Atmospheric radiocarbon for the period 1950–2019’. Radiocarbon, 1-23

Hurford, M., Arnold, A. J., Howard, R. E., and Tyers, C. 2008 Tree-ring Analysis of Timbers from Flore’s House, High Street, Oakham, Rutland. English Heritage Research Department Research Report Series, 94/2008

Hurford, M., Howard, R. E., and Tyers, C. 2010 The Old House, Main Street, Norwell, Nottinghamshire, Tree-ring Analysis of Timbers. English Heritage Research Department Research Report Series, 52/2010

Ingham, D. 2011 ‘Farming at Hill Field, Wilshamstead in the first millennium AD’. Bedfordshire Archaeology, 26, 167–236

Jay, M., Richards, M., and Marshall, P. 2019 ‘Radiocarbon dates and their Bayesian modelling’, in Richards, M., Chamberlain, A., and Jay, M. eds,The Beaker People: isotopes, mobility and diet in prehistoric Britain. Prehistoric Society Monograph, (Oxford), 43–80

Johnson, B., and Waddington, C. 2008 ‘Prehistoric and Dark Age settlement remains from Cheviot Quarry, Milfield Basin, Northumberland’. The Archaeological Journal, 165, 107–264

Jordan, D., Haddon-Reece, D., and Bayliss, A. 1994 Radiocarbon Dates from Samples Funded by English Heritage and Dated before 1981. (London) English Heritage

Keaveney, E. M. and Reimer, P. J. 2012 ‘Understanding the variability in freshwater radiocarbon reservoir offsets: a cautionary tale’. Journal of Archaeological Science, 39, 1306–16

King, T., Fortes, G., Balaresque, P., Thomas, M. G., Balding, D., Delser, P. M., Neumann, R., Parson, W., Knapp, M., Walsh, S., Tonasso, L., Holt, J., Kayser, M., Appleby, J., Forster, P., Ekserdjian, D., Hofreiter, M., and Schürer, K. 2014 ‘Identification of the remains of King Richard III’. Nature Communications, 5, 5631

Kinnes, I. 1979 Round Barrows and Ring-Ditches of the British Neolithic. British Museum Occasional Paper 7 (London)

Lanos, P., and Dufresne, P. 2019 ChronoModel version 2.0: Software for Chronological Modelling of Archaeological Data using Bayesian Statistics

Lanos, P., and Philippe, A. 2017 ‘Hierarchical Bayesian modeling for combining dates in archeological context’. Journal de la Société Française de Statistique, 158, 72–88

Lanos, P., and Philippe, A. 2018 ‘Event date model: a robust Bayesian tool for chronology building’. Communications for Statistical Applications and Methods, 25, 131–57

Lanting, J. N., Aerts-Bijma, A. T., and van der Plicht, J., 2001 'Dating of cremated bones'. Radiocarbon, 43, 249–54

Laxton, R. R., Litton, C. D., and Zainodin, H. J. 1988 ‘An objective method for forming a master ring-width sequence’, in T. Hackens, T. Munaut, A. V., and Till, C., eds, Wood and Archaeology. PACT ( Strasbourg), Journal of the European Study Group on Physical, Chemical and Mathematical Techniques Applied to Archaeology, Conseil de l’Europe, 22, 25–35

Leary, J., Darvill, T., and Field, D. 2010 Round Mounds and Monumentality in the British Neolithic and Beyond. Neolithic Studies Group Seminar Papers 10, (Oxford)

Leggett, P. A.1980 ‘The use of tree-ring analyses in the absolute dating of historical sites and their use in the interpretation of past climatic trends’. PhD thesis CNAA, Liverpool Polytechnic

Lindley, D. V. 1991 Making Decisions, 2 edn. (London)

Litton, C. D., and Zainodin, H. J. 1991 ‘Statistical models of dendrochronology’. Journal of Archaeological Science¸18, 29–40

Longin, R. 1971 ‘New method of collagen extraction for radiocarbon dating’. Nature 230, 241–2

Longworth, C., and Wood, B. 2000 Standards in Action Book 3: working with archaeology. (Cambridge)

Lougheed, B. C., and Obrochta, S. P. 2016 ‘MatCal: open source Bayesian 14C age calibration in MatLab’. Journal of Open Research Software, 4, e42

Marshall, P., Darvill, T., Parker Pearson, M., and Wainwright, G. 2012 Stonehenge, Amesbury, Wiltshire – Chronological Modelling. English Heritage Research Report Series 1/2012

Marshall, P., Bayliss, A., Leary, J., Campbell, G., Worley, F., Bronk Ramsey, C., and Cook, G. 2013 ‘The Silbury chronology’, in Leary, J., Field, D., and Campbell, G., eds, Silbury Hill: the largest prehistoric mound in Europe (Swindon), 97–116

Mays, S., Elders, J., Humphrey, L., White, W., and Marshall, P. 2013 Science and the dead: a guide for the destructive sampling of archaeological human remains for scientific analysis. (Swindon)

Ministry of Housing, Communities and Local Government 2021 National Planning Policy Framework. (London) (acc. August 2021)

Mook, W. G., and van der Plicht, J. 1999 ‘Reporting 14C activities and concentrations’. Radiocarbon, 41, 227–40

Mook, W. G., and Waterbolk, H. T. 1985 Radiocarbon Dating: European Science Foundation Handbook for Archaeologists 3. (Strasbourg)

Morgan, R. 1980 ‘Tree-ring dates for buildings: List 1’. Vernacular Architecture, 11, 22

Müldner, G., and Richards, M. P. 2005 ‘Fast or feast: reconstructing diet in later medieval England by stable isotope analysis’. Journal of Archaeological Science, 32, 39–48

Museum and Galleries Commission 1992 Standards in the Museum Care of Archaeological Collections. (London)

Nayling, N. 2006 Gorcott Hall, Warwickshire, Tree-ring Analysis of Timbers. English Heritage Research Department Report Series, 54/2006

Needham, S., Bronk Ramsey, C., Coombs, D., Cartwright, C., and Pettitt, P. B. 1998 ‘An independent chronology for British Bronze Age metalwork: the results of the Oxford Radiocarbon Accelerator programme’. The Archaeological Journal, 154, 55–107

Němec, M., Wacker, L., Hajdas, .I, and Gäggeler, H. 2010 ‘Alternative methods for cellulose preparation for AMS measurement’. Radiocarbon, 52, 1358–70

North-East Regional Research Framework for the Historic Environment 2022. (acc. February 2022)

O’Connell, T. C., Kneale, C. J., Tasevska, N., and Kuhnle, G. G. C. 2012 ‘The diet-body offset in human nitrogen isotopic values: a controlled dietary study’. American Journal of Physical Anthropology, 149, 426–3

Olsen J., Heinemeier J., Hornstrup K. M., Bennike P., Thrane, H. 2012 ‘ “Old wood” effect in radiocarbon dating of prehistoric cremated bones?’. Journal of Archaeological Science, 40, 30–4

Parnell, A. C., and Gehrels, W. R. 2015 ‘Using chronological models in late holocene sea-level reconstructions from salt marsh sediments’, in Shennan, I., Horton, B. P., and Long, A. J., eds, Handbook of Sea Level Research (Chichester), 500–13

Parnell, A. C., Inger, R., Bearhop S., and Jackson, A. L. 2010 ‘Source partitioning using stable isotopes: coping with too much variation’. PLoS ONE, 5, e9672

Parnell, A. C., Phillips, D. L., Bearhop, S., Semmens, B. X., Ward, E. J., Moore, J. W., Jackson, A. L., Grey, J., Kelly, D. J., and Inger, R. 2013 ‘Bayesian stable isotope mixing models’. Environmetrics, 24, 387–99

Pelling, R., Campbell, G., Carruthers, W., Hunter, K., and Marshall, P. 2015 ‘Exploring contamination (intrusion and residuality) in the archaeobotanical record: case studies from central and southern England’. Vegetation History and Archaeobotany, 24, 85–99

Phillips, D., and Gregg, J. W. 2003 ‘Source partitioning using stable isotopes: coping with too many sources’. Oecologia, 136, 261–9

Rainbird, P., and Lichtenstein, L. 2018 ‘A Middle Neolithic ring ditch and settlement at King Alfred Way, Newton Poppleford’. Proceedings of the Devon Archaeological Society, 76, 29–56

Reimer, R. W., and Reimer, P. J. 2017 ‘An online application for ΔR calculation’. Radiocarbon, 59, 1623–7

Reimer, P. J., Austin, W. E. N., Bard, E., Bayliss, A., Blackwell, P., Bronk Ramsey, C., Butzin, M., Cheng, H., Edwards, R. L., Friedrich, M., Grootes, P. M., Guilderson, T. P., Hajdas, I., Heaton, T. J., Hogg, A. G., Hughen, K. A., Kromer, B., Manning, S. W., Muscheler, R., Palmer, J. G., Pearson, C., van der Plicht, J., Reimer, R W., Richards, D. A., Scott, E. M., Southon, J. R., Turney, C. S. M., Wacker, L., Adolphi, F., Büntgen, U., Capano, M., Fahrni, S., Fogtmann-Schultz, A., Friedrich, R., Kudsk, S., Miyake, F., Olsen, J., Reinig, F., Sakamoto, M., Sookdeo, A., and Talamo, S. 2020 ‘The IntCal20 Northern Hemispheric radiocarbon calibration curve (0–55 kcal BP’). Radiocarbon, 62, 725–57

Reynolds, P. J. 1995 ‘The life and death of a posthole’. Interpreting Stratigraphy, 5, 21–5

Ryder, P. F. 1987 ‘Five South Yorkshire timber-framed houses’. The Yorkshire Archaeological Journal, 59, 51–79

Scott, E. M. 2003 ‘The third international radiocarbon intercomparison (TIRI) and the fourth international radiocarbon intercomparison (FIRI) 1990–2002: results, analyses, and conclusions’. Radiocarbon, 45, 135–408

Scott, E. M., Naysmith, P., and Cook, G. T. 2017 ‘Should archaeologists care about 14C intercomparisons? Why? A summary report on SIRI’. Radiocarbon, 59, 1589–96

Slota Jr, P. J., Jull, A. J. T., Linick, T. W., and Toolin, L. J. 1987 ‘Preparation of small samples for 14C accelerator targets by catalytic reduction of CO’. Radiocarbon 29, 303–6

Snoeck, C., Brock, F., and Schulting, R. J. 2014 ‘Carbon exchanges between bone apatite and fuels during cremation: impact on radiocarbon dates’. Radiocarbon, 56, 591–602

Sookdeo, A., Kromer, B., Büntgen, U., Friedrich, M., Friedrich, R., Helle, G., Pauly, M., Nievergelt, D., Reinig, F., Treydte, K., Synal, H-A., and Wacker, L. 2020 ‘Quality dating: a well-defined protocol implemented at ETH for high-precision 14C-dates tested on late glacial wood’. Radiocarbon, 62, 891–99

Speed, G. P., and Holst, M. 2018 A1 Leeming to Barton. Death, Burial and Identity, 3000 Years of Death in the Vale of Mowbray. Northern Archaeological Associates, Monograph Series 4

Sponheimer, M., Ryder, C. M., Fewlass, H., Smith, E.. K, Pestle, W. J., and Talamo, S. 2019 ‘Saving old bones: a non-destructive method for bone collagen prescreening’. Scientific Reports, 9, 13928

Stastney, P., Scaife, R., Carretero, L. G., Whittaker, J. E., Cameron, N., Allison, E. 2021 ‘Modelling prehistoric topography and vegetation in the Lower Thames valley, UK: palaeoenvironmental context for wetland archaeology and evidence for Neolithic landnám from North Woolwich’. Environmental Archaeology

Stuiver, M., and Polach, H. A. 1977 ‘Reporting of 14C data’. Radiocarbon, 19, 355–63

Stuiver, M., and Reimer, P. J. 1993 ‘Extended 14C data base and revised CALIB 3.0 14C age calibration program’. Radiocarbon, 35, 215–30

Synal, H. A., Stocker, M., and Suter, M. 2007 ‘MICADAS: a new compact radiocarbon AMS system’. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 259, 7–13

Taylor, R. E., and Bar-Yosef, O. 2014 Radiocarbon dating: an archaeological perspective, 2 edn (Walnut Creek, CA)

Telford, R. J., Heegaard, E., and Birks, H. J. B. 2004 ‘The intercept is a poor estimate of a calibrated radiocarbon age’. The Holocene, 14, 296–98

Tyers, I. 2001 ‘Dendrochronological analysis of timbers from Headlands Hall, Liversedge, Yorkshire’, ARCUS Report 574c (unpublished)

Tyers, I. 2008 ‘Tree-ring analysis of timbers from 2 buildings on the Hanson House site, Syndale Road, Normanton’, Dendrochronological Consultancy Report 180 (unpublished)

van der Plicht, J., Wijma, S., Aerts, A. T., Pertuisot, M. H. and Meijer, H. A. J. 2000 ‘Status report: the Groningen AMS facility’. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 172, 58–65

Van Strydonck, M., Boudin, M., and De Muldner, G. 2010 ‘The carbon origin of structural carbonate in bone apatite of cremated bones’. Radiocarbon, 52, 578–86

Vandeputte, K., Moens, L., and Dams, R. 1996 ‘Improved sealed-tube combustion of organic samples to CO2 for stable isotopic analysis, radiocarbon dating and percent carbon determinations’. Analytical Letters 29, 2761–74

Wacker, L., Němec, M., and Bourquin, J. 2010a ‘A revolutionary graphitisation system: fully automated, compact and simple’. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 268, 931–4

Wacker, L., Bonani, G., Friedrich, M., Hajdas, I., Kromer, B., Němec, M., Ruff, M., Suter, M., Synal, H-A., and Vockenhuber, C. 2010b ‘MICADAS: routine and high-precision radiocarbon dating’. Radiocarbon, 52, 252–62

Wacker, L., Christl, M., and Synal, H-A. 2010c ‘Bats: A new tool for AMS data reduction’. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 268, 976–9

Wacker, L., Scott, E. M., Bayliss, A., Brown, D., Bard, E., Bollhalder, S., Friedrich, M., Capano, M., Cherkinsky, A., Chivall, D., Culleton, B. J., Dee, M. W., Friedrich, R., Hodgins, G. W. L., Hogg, A., Kennett, D. J., Knowles, T. D. J., Kuitems, M., Lange, T. E., Miyake, F., Nadeau, M-J., Nakamura, T., Naysmith, J. P., Olsen, J., Omori, T., Petchey, F., Philippsen, B., Bronk Ramsey, C., Prasad, G. V. R., Seiler, M., Southon, J., Staff, R., and Tuna, T. 2020 ‘Findings from an in-depth annual tree-ring radiocarbon intercomparison’. Radiocarbon, 62, 891–9

Walker, K. 1990 Guidelines for the Preparation of Excavation Archives for Long-term Storage. (London)

Walker, M. 2012 Quaternary Dating Methods. (Chichester)

Walker, M. J. C., Bryant, C., Coope, G. R., Harkness, D. D., Lowe, J. J., and Scott, E. M. 2001 ‘Towards a radiocarbon chronology of the Late-Glacial: sample selection strategies’. Radiocarbon, 43, 1007–21

Ward, G. K., and Wilson, S. R. 1978 ‘Procedures for comparing and combining radiocarbon age determinations: a critique’. Archaeometry, 20, 19–31

Waterbolk, H. T. 1971 ‘Working with radiocarbon dates’. Proceedings Prehistoric Society, 37, 15–33

Whittle, A., Healy, F., and Bayliss, A. 2011 Gathering time: dating the early Neolithic enclosures of southern Britain and Ireland. (Oxford)

Wohlfarth, B., Skog, G., Possnert, G., and Holmqvist, B. 1998 ‘Pitfalls in the AMS radiocarbon-dating of terrestrial macrofossils’. Journal of Quaternary Science, 13, 137–45

Xu, S., Anderson, R., Bryant, C., Cook, G., Dougans, A., Freeman, S., Naysmith, P., Schnabel, C., and Scott, E. 2004 ‘Capabilities of the new SUERC 5MV AMS facility for 14C dating’. Radiocarbon, 46, 59–64

Zeidler, J. A., Buck, C. E., Litton, C. D. 1998 ‘The integration of archaeological phase information and radiocarbon results from the Jama River Valley, Ecuador: a Bayesian approach’. Latin American Antiquity, 9, 135–59