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1

Christie, Mike. "Radiocarbon dating." WikiJournal of Science 1, no. 1 (2018): 6. http://dx.doi.org/10.15347/wjs/2018.006.

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2

KIGOSHI, Kunihiko. "Radiocarbon Dating." Journal of Geography (Chigaku Zasshi) 94, no. 7 (1986): 706–10. http://dx.doi.org/10.5026/jgeography.94.706.

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3

VITA-FlNZI, C. "Radiocarbon dating." Nature 333, no. 6174 (1988): 604. http://dx.doi.org/10.1038/333604c0.

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4

Housley, Rupert. "Radiocarbon dating." Journal of Archaeological Science 19, no. 4 (1992): 471–72. http://dx.doi.org/10.1016/0305-4403(92)90065-b.

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5

Lawson, John A., Alan Saville, and Rob Engl. "Radiocarbon dating." Scottish Archaeological Internet Reports 103 (March 17, 2023): 31–32. http://dx.doi.org/10.9750/issn.2056-7421.2023.103.31-32.

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6

Roy, Mike. "Radiocarbon Dating." Scottish Archaeological Internet Reports 110 (April 25, 2025): 18–22. https://doi.org/10.9750/issn.2056-7421.2025.110.18-22.

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Archaeological excavations conducted in 2017 at Grantown Road, Forres form the final phase of works on a residential development that began in 2002. The earlier works examined an area of more than 70ha and confirmed the presence of an extensive Iron Age settlement represented by ring-ditch, ring-groove, and post-ring structures, in association with four-post structures, a souterrain, and metalworking furnaces. The 2017 works (Canmore ID 320363), reported here, have expanded the record of prehistoric and medieval settlement in the area and revealed that a previously recorded cropmark site repre
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7

Komar, O. V. "EXPERIENCE OF USE OF THE RADIOCARBON METHOD DATING OF EARLY SLAVIC SITES FROM UKRAINE (1970—1987)." Archaeology and Early History of Ukraine 30, no. 1 (2019): 254–67. http://dx.doi.org/10.37445/adiu.2019.01.20.

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The introduction of radiocarbon dating method in USSR and Ukrainian archeology was much slower compared to world practice. Natural scientific methods of dating in archeology have found quick application for the study of prehistoric sites — from the Paleolithic to the late Bronze Age. Much more time passed before the method began to be used for dating of sites of the 1st and 2nd millennium AD.
 The initiative of serial sampling from the medieval archaeological complexes of Ukraine for radiocarbon analysis initially came not from archaeologists. This led at the first stage to a confrontatio
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8

Dresser, P. Q. "3.2 Radiocarbon Dating." Proceedings of the Prehistoric Society 55, S2 (1989): 62–65. http://dx.doi.org/10.1017/s0079497x00061387.

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9

Otlet, R. L. "Radiocarbon Dating Certificate." Proceedings of the Prehistoric Society 53, S4 (1987): 50. http://dx.doi.org/10.1017/s0079497x00078865.

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10

Hajdas, Irka, Carlo Cristi, Georges Bonani, and Mantana Maurer. "Textiles and Radiocarbon Dating." Radiocarbon 56, no. 2 (2014): 637–43. http://dx.doi.org/10.2458/56.17757.

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Natural textiles provide suitable material for radiocarbon dating. Short-lived organic matter is usually involved and, if 14C dating is applied to pieces that are stylistically well dated, a better understanding of 14C dating of this type of material can be gained. This study presents some examples of dating that support the stylistic dates. Repeated analyses illustrate the robustness of the standard treatment applied to the textiles.
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11

LYSENKO, O. B., N. A. SKULSKY, E. V. SOBOTOVICH, and I. V. FLORINSKY. "RESTRICTIONS RADIOCARBON DATING METHODS." Geological Journal, no. 1 (February 23, 2012): 31–38. http://dx.doi.org/10.30836/igs.1025-6814.2012.1.139082.

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12

Creel, Darrell, and Austin Long. "Radiocarbon Dating of Corn." American Antiquity 51, no. 4 (1986): 826–37. http://dx.doi.org/10.2307/280869.

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Nine samples from well-dated prehistoric sites in the southwestern United States have been radiocarbon dated in order to determine the accuracy of 14C dates on corn. The results indicate that a normalized and calibrated 14C date on corn is as accurate an estimate of the sample's age as is a 14C date for any other material. This accuracy has implications not only for future selection of 14C samples but also for interpretation of existing dates on corn and on other kinds of materials.
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13

Mazzotti, Davide, Saverio Bartalini, Simone Borri, et al. "All-Optical Radiocarbon Dating." Optics and Photonics News 23, no. 12 (2012): 52. http://dx.doi.org/10.1364/opn.23.12.000052.

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14

Anonymous. "Radiocarbon dating accuracy improved." Eos, Transactions American Geophysical Union 71, no. 29 (1990): 979. http://dx.doi.org/10.1029/eo071i029p00979-01.

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15

GOVE, H. E. "Radiocarbon-dating the shroud." Nature 333, no. 6169 (1988): 110. http://dx.doi.org/10.1038/333110c0.

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16

Ilger, Wayne, Marian Hyman, John Southon, and Marvin Rowe. "Dating Pictographs with Radiocarbon." Radiocarbon 37, no. 2 (1995): 299–310. http://dx.doi.org/10.1017/s0033822200030770.

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We report here progress on our technique for14C dating pictographs. We use low-temperature oxygen plasmas coupled with high-vacuum techniques to selectively remove carbon-containing material in the paints without contamination from rock substrates or accretions. We dated >16 pictograph samples that generally agree with ages expected on the basis of archaeological inference. We have shown that carbonate and calcium oxalate decomposition does not occur during our procedure; little mass fractionation is produced. We also used the technique on samples of known14C activity. In each case our resu
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17

Hajdas, Irka, Carlo Cristi, Georges Bonani, and Mantana Maurer. "Textiles and Radiocarbon Dating." Radiocarbon 56, no. 02 (2014): 637–43. http://dx.doi.org/10.1017/s0033822200049675.

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Natural textiles provide suitable material for radiocarbon dating. Short-lived organic matter is usually involved and, if14C dating is applied to pieces that are stylistically well dated, a better understanding of14C dating of this type of material can be gained. This study presents some examples of dating that support the stylistic dates. Repeated analyses illustrate the robustness of the standard treatment applied to the textiles.
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18

Jope, E. M. "High-Precision Radiocarbon Dating." Antiquaries Journal 66, no. 2 (1986): 358–60. http://dx.doi.org/10.1017/s0003581500028122.

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19

Possnert, Goran, and Allan Wetterholm. "Radiocarbon dating of iron." Norwegian Archaeological Review 28, no. 1 (1995): 19–30. http://dx.doi.org/10.1080/00293652.1995.9965582.

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20

Fowler, Alison J., Richard Gillespie, and Robert E. M. Hedges. "Radiocarbon Dating of Sediments." Radiocarbon 28, no. 2A (1986): 441–50. http://dx.doi.org/10.1017/s0033822200007578.

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In 14C dating of sediment, the date of deposition is associated with its C age. Most sediments are complex mixtures containing little organic material frequently derived from several sources. The most conspicuous sources of error result from 1) the incorporation of “fossil” carbon (eg, graphite, lignite, etc) into a more recent sediment. This is particularly important in low carbon sediments (Olsson, 1972); 2) the incorporation of older, ‘reworked’ sedimentary material, eg, from terrigenous sources into a lacustrine environment (Schoute, Mook & Streuerman, 1983); 3) the dating of mainly au
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21

Robertson, Steve, and Rainer Grün. "Towards portable radiocarbon dating." Quaternary Science Reviews 13, no. 2 (1994): 179–81. http://dx.doi.org/10.1016/0277-3791(94)90045-0.

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22

Madeja, Jacek, and Dariusz Latowski. "Too Old AMS Radiocarbon Dates Obtained from Moss Remains from Lake Kwiecko Bottom Sediments (N Poland)." Geochronometria 32, no. -1 (2008): 13–19. http://dx.doi.org/10.2478/v10003-008-0029-2.

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Too Old AMS Radiocarbon Dates Obtained from Moss Remains from Lake Kwiecko Bottom Sediments (N Poland)The paper presents the results of the AMS radiocarbon dating of moss macrofossils which seem to be too old in the context of palynological data. The lack of agreement between the obtained results of radiocarbon dating and pollen analysis has been discussed. Some possible causes of the discrepancies between the results of radiocarbon dating and palynological dating have been given.
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23

Coudé-Gaussen, G., P. Rognon, A. Rapp, and T. Nihlén. "Dating of peridesert loess in Matmata, south Tunisia, by radiocarbon and thermoluminescence methods." Zeitschrift für Geomorphologie 31, no. 2 (1987): 129–44. http://dx.doi.org/10.1127/zfg/31/1987/129.

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24

Brychová, Veronika, Lucie Davidová, Ivo Světlík, Kateřina Pachnerová Brabcová, Markéta Petrová, and Gabriela Florescu. "Compound-Specific Radiocarbon Analysis." Chemické listy 117, no. 2 (2023): 100–106. http://dx.doi.org/10.54779/chl20230100.

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Compound-specific radiocarbon analysis has played important role in the methodology applied in radiocarbon dating since the development of modern analytical instrumentation. Thank to this evolution it is nowadays possible to radiocarbon date samples which would be normally considered as undatable due to their heterogenous nature or secondary contamination. The aim of this review is to introduce molecular-specific radiocarbon dating approach and show some particular applications already successfully tested and used in radiocarbon dating.
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25

Wiśniewski, Andrzej, Dariusz Bobak, Marta Połtowicz-Bobak, and Piotr Moska. "Late Middle Palaeolithic and Early Upper Palaeolithic in Poland in the light of new numerical dating." Geographia Polonica 97, no. 3 (2024): 295–325. http://dx.doi.org/10.7163/gpol.0281.

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Although the first numerical dating of Middle and Upper Palaeolithic sites in Poland was applied at the beginning of the second half of the 20th century, it has only been in the last two decades that a data increase has been recorded, making it possible to discuss both the development of human behaviour and cultural phenomena in time perspective. This paper aims to show the chronological diversity of sites dating from the beginning of the Weichselian glaciation (MIS 5a – MIS 5d, GI-19 – GI-23, Greenland Interstadials) to the middle part of MIS 3 (GI-8 – GI-10). We considered sites dated mainly
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26

van der Plicht, J. "Borderline radiocarbon." Netherlands Journal of Geosciences - Geologie en Mijnbouw 91, no. 1-2 (2012): 257–61. http://dx.doi.org/10.1017/s0016774600001645.

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AbstractRadiocarbon dating of peat has its intrinsic problems. This is often caused by mobile organic fractions. For the Weichselian Pleniglacial, another methodological problem arises: the limit of the 14C dating method. This is discussed in terms of bulk (i.e. non-selected material, generally dated conventionally) vs AMS (i.e. selected botanical remains) dates, contamination, background and calibration, guided by a series of peat samples from the Belgian/Dutch border.
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27

Vasil'chuk, Yurij K., Alla C. Vasil'chuk, Austin Long, A. J. T. Jull, and D. J. Donahue. "AMS Dating Mammoth Bones: Comparison with Conventional Dating." Radiocarbon 42, no. 2 (2000): 281–84. http://dx.doi.org/10.1017/s0033822200059087.

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Fossilized Siberian mammoth remains are important indicators of environmental change in the Late Pleistocene. The NSF-Arizona AMS Laboratory radiocarbon results on amino acid separations compare well with mammoth bone collagen from the same specimens treated by HCl and dated by beta counting (the Russian Academy Geological Institute Radiocarbon Laboratory). Neither laboratory was aware of the other's dates for these comparisons. The results coincide very closely (a difference of 50–800 yr), and demonstrate that AMS dating provides a very good perspective for applications of past mammoth popula
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28

Görsdorf, Jochen, and Burkhardt Vogt. "Excavations at Ma'layba and Sabir, Republic of Yemen: Radiocarbon Datings in the Period 1900 to 800 cal BC." Radiocarbon 43, no. 3 (2001): 1353–61. http://dx.doi.org/10.1017/s0033822200038595.

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The Bronze and Iron Age cultures in Yemen have no parallels to the well dated cultures in the Syro-Palestinian region. Radiocarbon datings are therefore exceptionally important for the Yemenite archaeological excavation sites of Ma'layba and Sabir, the latter being the largest excavation site of the Sabir culture. Dating series were done in order to determine the architectural development of the sites and find time marks for the ceramic development. Sample materials were dated from the 2nd and 1st millennium before Christ. The 14C dating results allow statements about the cultural development
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29

Konstantinos, Kalogeropoulos. "Μέθοδοι χρονολόγησης στην Αρχαιολογία". Archive 17, № 1 (2021): 39–50. https://doi.org/10.5281/zenodo.4587318.

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Archaeological science, also known as Archaeometry, is related to the application of scientific techniques, physical and chemical, for the analysis of archaeological materials, with the main goal of dating them. Dating methods used not only for archeology, are two, relative and absolute dating. Relative dating is the science of determining the relative order of past events. Before the discovery of radiometric dating in the early 20th century has been used in geology, to correlate rock or superficial deposits, fossils and lithologies and determine the sequential order in which a series of event
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30

Park, Chang Hyun, Kwang Hee Lee, and Soo Chul Kim. "Speicies Identification and Dating for Wooden Warehouse Excavated at Baengnyeongsanseong in Geumsan, Korea." Journal of Conservation Science 38, no. 3 (2022): 192–200. http://dx.doi.org/10.12654/jcs.2022.38.3.02.

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This study aimed for species identification and tree-ring dating and radiocarbon dating of wooden warehous materials excavated from Baengnyeongsanseong in Geumsan. The species of 83 wooden materials were identified as 38 <i>Platycarya</i> spp., 34 Cerris Section, 8 Prinus section, 2 Hard pine, and 1 <i>Kalopanax pictus</i>. After cross-dating of 5 Cerris Section samples with the TSAP program, one Cerris Section chronology (GSQU 1S) was constructed. To identify the exact date, one material which show many tree-ring (GSQU 05) was analyzed by radiocarbon dating using wiggl
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31

Liu, Tsung-Kwei. "National Taiwan University Radiocarbon Dates III." Radiocarbon 36, no. 1 (1994): 113–32. http://dx.doi.org/10.1017/s0033822200014363.

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This list consists of radiocarbon dates for geological samples measured from 1988 to 1990 at the resumed National Taiwan University (NTU) Radiocarbon Dating Laboratory. The NTU Radiocarbon Dating Laboratory was re-activated in 1988, after more than 14 years.
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32

Hwang, Jaehoon, Jiyoung Park, Junkyu Kim, and Yongje Oh. "A Review of the Problems and Alternatives of the Use of Radiocarbon Dating in Korean Archaeology." Korean Ancient Historical Society 116 (May 30, 2022): 113–59. http://dx.doi.org/10.18040/sgs.2022.116.113.

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As the use of radiocarbon dating is gradually increasing, this article is written to provide a review of best practices in the use of radiocarbon dates and their application in Korean archaeology.
 To promote better understanding of radiocarbon dating, first of all, before reviewing research cases, methods and principles, standard error, calibration curve, measured dates, and calibration dates are explained in detail, and the necessity of a statistical approach to measurement results and the use of calibration dates are emphasized. In addition, methods, procedures, and points to be noted
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33

Sun, Chunqing, Jiaqi Liu, Bing Xu, and Haitao You. "First radiocarbon dating of a Holocene eruption of the Datong volcanic field, eastern China." Journal of Volcanology and Geothermal Research 384 (October 2019): 275–79. http://dx.doi.org/10.1016/j.jvolgeores.2019.08.002.

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34

Kulkova, Marianna Alexeevna. "RADIOCARBON DATING OF ANCIENT POTTERY." Samara Journal of Science 3, no. 3 (2014): 115–22. http://dx.doi.org/10.17816/snv20143212.

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The radiocarbon dating of ancient ceramics is an important aspect of investigations both the radiocarbon analysis and the archaeology. The time of a making and using of pottery corresponds directly with the time of the ancient people existing. In spite on that fact that the pottery radiocarbon dating has many problems because of different sources of carbon inside pottery, there is the possibility for correct radiocarbon dating with using both the AMS technique and the conventional technique. The main problem of pottery radiocarbon dating is how to separate intrinsic pottery carbon from older g
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35

Morrison, David, and R. E. Taylor. "Radiocarbon Dating: An Archaeological Perspective." Arctic and Alpine Research 22, no. 1 (1990): 116. http://dx.doi.org/10.2307/1551730.

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36

Valášek, Vojtěch, Kateřina Pachnerová Brabcová, Jitka Kufnerová, Mihály Molnár, and Ivo Světlík. "REFINING RADIOCARBON DATING OF IVORY." Radiation Protection Dosimetry 198, no. 9-11 (2022): 675–80. http://dx.doi.org/10.1093/rpd/ncac118.

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Abstract Elephants are on the verge of extinction due to extensive poaching to obtain ivory and illegal income. According to international law, the trade in ivory of African elephants is outlawed, with a few exceptions, as for example in European Union for antique ivory obtained before 1947. There is basically only one physical method for determining the age of ivory and that is radiocarbon dating. The method uses artificially temporarily enhanced 14C content in the atmosphere to date relevant samples with high resolution. Since this advantage is slowly fading, the question arises of how to fi
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37

Hwang, Jae Hoon. "Radiocarbon Dating in Korean Archaeology." Yeongnam Archaeological Society 90 (May 31, 2021): 5–30. http://dx.doi.org/10.47417/yar.2021.90.5.

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38

Switsur, Roy. "Geophysics: New radiocarbon dating system." Nature 324, no. 6092 (1986): 18–19. http://dx.doi.org/10.1038/324018a0.

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39

Boaretto, E. "Using Radiocarbon Dating in Jerusalem." Science 316, no. 5825 (2007): 689b—690b. http://dx.doi.org/10.1126/science.316.5825.689b.

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40

Vita-Finzi, C., and R. E. Taylor. "Radiocarbon Dating: An Archaeological Perspective." Man 23, no. 3 (1988): 567. http://dx.doi.org/10.2307/2803274.

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41

Pachnerová Brabcová, Kateřina, Veronika Brychová, Zuzana Golec Mírová, et al. "Time Travel with Radiocarbon Dating." Interdisciplinaria Archaeologica - Natural Sciences in Archaeology XV, no. 2 (2024): 209–17. http://dx.doi.org/10.24916/iansa.2024.2.6.

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Radiocarbon dating is a critical tool in archaeology and Quaternary Earth science, providing absolute age estimates. Established in 2004, the Czech Radiocarbon Laboratory (CRL) has advanced from radiometric methods requiring large sample sizes to using Accelerator Mass Spectrometry, which allows for the dating of microsamples. Since 2018, CRL has undergone significant upgrades, including the acquisition of the MILEA AMS system, enhancing its capacity and precision. CRL’s research spans a broad chronological range, providing insights into various periods from early human dispersal in Central Eu
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42

Christen, J. A., and C. E. Buck. "Sample selection in radiocarbon dating." Journal of the Royal Statistical Society: Series C (Applied Statistics) 47, no. 4 (2002): 543–57. http://dx.doi.org/10.1111/1467-9876.00127.

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43

Taylor, R. E. "Fifty Years of Radiocarbon Dating." American Scientist 88, no. 1 (2000): 60. http://dx.doi.org/10.1511/2000.15.765.

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44

Blaauw, M. "The Problems of Radiocarbon Dating." Science 308, no. 5728 (2005): 1551–53. http://dx.doi.org/10.1126/science.308.5728.1551.

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45

Berger, Rainer, Reinaldo Chohfi, Alfredo Valencia Zegarra, Wilfredo Yepez, and Octavio Fernandez Carrasco. "Radiocarbon dating Machu Picchu, Peru." Antiquity 62, no. 237 (1988): 707–10. http://dx.doi.org/10.1017/s0003598x00075116.

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New radiocarbon dates confirm the evident possibility that Machu Picchu was not an Inca foundation on a wholly new site, and give a first indication of the duration of the citadel's previous occupation.
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46

Hajdas, Irka. "Applications of Radiocarbon Dating Method." Radiocarbon 51, no. 1 (2009): 79–90. http://dx.doi.org/10.1017/s0033822200033713.

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The main force driving technical development of the radiocarbon dating technique is the wide spectrum of applications that cross interdisciplinary boundaries of Earth and social sciences. This paper provides a very brief overview of some of the many applications of 14C analysis to various studies of human origin and migration, cultures and history, past and present environment, and the human body itself.
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47

Zaitseva, G., V. Skripkin, N. Kovaliukh, G. Possnert, P. Dolukhanov, and A. Vybornov. "Radiocarbon Dating of Neolithic Pottery." Radiocarbon 51, no. 2 (2009): 795–801. http://dx.doi.org/10.1017/s0033822200056101.

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The direct measurement of organic matter included in archaeological pottery may yield a reliable assessment of age. The main problem consists in the identification of possible origins and assessment of distortion for the age of organic inclusions. Our experiments show that shells included in pottery fabrics are strongly influenced by the reservoir effect, which may reach 500 yr or more. Other organic inclusions, such as lake ooze, do not visibly distort the age. The obtained series of radiocarbon dates have been used for the assessing the age of the early stages of pottery manufacture in south
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48

Brock, Fiona. "Radiocarbon Dating of Historical Parchments." Radiocarbon 55, no. 2 (2013): 353–63. http://dx.doi.org/10.1017/s0033822200057477.

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A range of pretreatment methods was applied to 6 known-age historical parchments to investigate the most suitable methods for effectively removing contamination and ensuring accurate radiocarbon dates while minimizing unnecessary destruction of potentially valuable historical documents. The methods tested included an acid wash, different concentrations of acid-base-acid (ABA) pretreatments, the current routine ABA method applied at the Oxford Radiocarbon Accelerator Unit (ORAU) that includes an additional bleach treatment, and extraction of collagen. The C:N atomic weight ratio of the untreate
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49

Cresswell, Richard G. "Radiocarbon Dating of Iron Artifacts." Radiocarbon 34, no. 3 (1992): 898–905. http://dx.doi.org/10.1017/s0033822200064225.

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During the late 1960s, N. J. van der Merwe (1969) obtained 14C measurements on 11 iron pieces, ranging in carbon content from medium carbon (0.22%) wrought iron (1.2 kg used) to high carbon (3.2%) cast iron (30 g), thereby demonstrating the feasibility of the technique for 14C dating iron. In the early 1980s, Sayre et al. (1982) repeated two of van der Merwe's measurements, and carried out two analyses on a recently rediscovered Elizabethan(?) iron bloom. Thirty grams were required of this medium carbon wrought iron to obtain an age using small proportional counters. A number of iron artifacts
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50

Rauret, Gemma, J. S. Mestres, and J. F. García. "Radiocarbon Dating: A Didactic Videotape." Radiocarbon 34, no. 3 (1992): 937. http://dx.doi.org/10.1017/s0033822200064262.

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