Tomasz Goslar scite author profile

ABSTRACT. We present studies of 9 modern (up to 400-yr-old) peat sections from Slovenia, Switzerland, Austria, Italy, and Finland. Precise radiocarbon dating of modern samples is possible due to the large bomb peak of atmospheric 14 C concentration in 1963 and the following rapid decline in the 14 C level. All the analyzed 14 C profiles appeared concordant with the shape of the bomb peak of atmospheric 14 C concentration, integrated over some time interval with a length specific to the peat section. In the peat layers covered by the bomb peak, calendar ages of individual peat samples could be determined almost immediately, with an accuracy of 2-3 yr. In the pre-bomb sections, the calendar ages of individual dated samples are determined in the form of multi-modal probability distributions of about 300 yr wide (about AD 1650(about AD -1950. However, simultaneous use of the post-bomb and pre-bomb 14 C dates, and lithological information, enabled the rejection of most modes of probability distributions in the pre-bomb section. In effect, precise age-depth models of the post-bomb sections have been extended back in time, into the "wiggly" part of the 14 C calibration curve.Our study has demonstrated that where annual resolution is concerned, tissues of Sphagnum are the only representative material for 14 C dating, although even samples of pure Sphagnum collected from a very thin slice of the peat section contain tissues grown in different years, so they integrate the atmospheric 14 C signal over a period of time. This time period (0.5-8 yr, depending on the site) seems to correlate with the peat accumulation rate, but it also depends on how the sampled peat sections were handled. When constructing age-depth models, for some peat sections we used the strategy of multi-stage 14 C dating. This led to a drastic reduction in the uncertainty of the age-depth models, by dating only a few additional samples in the profile.Our study is the first in which peat sections from the late pre-bomb time (AD 1900(AD -1960 have been precisely dated at a high temporal resolution. In this time interval, 14 C ages of all the samples dated were younger than those derived from the atmospheric calibration curve, apparently due to the effect of integration. Evidently, the determination of calendar ages based on 14 C dating of single peat samples from that interval may be affected by a serious error if the possibility of integration is ignored.

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Preparation and Dating of Mortar Samples—Mortar Dating Inter-Comparison Study (MODIS)

Hajdas¹,

Lindroos

Heinemeier

et al. 2017

Radiocarbon

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Preparation of Graphite Targets in the Gliwice Radiocarbon Laboratory for AMS¹⁴C Dating

Czernik¹,

Goslar²

2001

Radiocarbon

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ABSTRACT.A line for preparation of graphite targets for accelerator mass spectrometry (AMS) radiocarbon dating has been built in the Gliwice 14 C Laboratory. The AMS 14 C measurements of our targets are performed in the Leibniz-Labor für Altersbestimmung, Kiel, Germany. The quality of our line has been tested in two series of AMS 14 C measurements of background and Ox-II standard samples and by measurements of the amount of CO 2 released during combustion of sample-free quartz tubes. Most background contamination in the first series was introduced during combustion, which has been greatly reduced by baking quartz tubes vacuum-sealed with CuO and Ag. The residual contamination (ca. 1.5 µg C) seems to come mostly from the quartz tubes themselves. At present, most of the contamination of the background is introduced during graphitization. The reproducibility of background preparations is satisfactory, especially for samples larger than 1.5 mg, when it is better than ± 0.09 pMC. Despite still significant contamination with low-14 C carbon during the graphitization process (corresponding to 1.2 ± 0.2% of 14 C-free carbon), the good reproducibility of the results allows us to use our line in routine 14 C dating.

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Chronometry of Late Eneolithic and ‘Early Bronze’ Cultures in the Middle Dniester Area: Investigations of the Yampil Barrow Complex

Goslar

Klochko

Kośko

et al. 2015

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The paper discusses the 2010-2015 studies of the radiocarbon chronology of Podolia 'barrow cultures' on the left bank of the middle dniester . The studies have relied on series of 14 C dates for the Klembivka 1, Pidlisivka 1, Porohy 3a and Prydnistryanske 1 sites determined in Kyiv and Poznań laboratories . They are the first attempt to construct a regional ('Yampil') radiocarbon scale for 'Early Bronze' funerary rites (4th/3rd-2nd millennium BC) as practised by barrow builders -the communities of the Tripolye and Yamnaya culturesand the secondary barrow users -the designers of necropolises located on barrows -belonging to the Catacomb, Babyno and Noua cultures .

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Tomasz Goslar

Low-energy 14C AMS in Poznań Radiocarbon Laboratory, Poland

Radiocarbon Dating of Modern Peat Profiles: Pre- and Post-Bomb¹⁴C Variations in the Construction of Age-Depth Models

Preparation and Dating of Mortar Samples—Mortar Dating Inter-Comparison Study (MODIS)

Preparation of Graphite Targets in the Gliwice Radiocarbon Laboratory for AMS¹⁴C Dating

Chronometry of Late Eneolithic and ‘Early Bronze’ Cultures in the Middle Dniester Area: Investigations of the Yampil Barrow Complex

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Tomasz Goslar

Low-energy 14C AMS in Poznań Radiocarbon Laboratory, Poland

Radiocarbon Dating of Modern Peat Profiles: Pre- and Post-Bomb14C Variations in the Construction of Age-Depth Models

Preparation and Dating of Mortar Samples—Mortar Dating Inter-Comparison Study (MODIS)

Preparation of Graphite Targets in the Gliwice Radiocarbon Laboratory for AMS14C Dating

Chronometry of Late Eneolithic and ‘Early Bronze’ Cultures in the Middle Dniester Area: Investigations of the Yampil Barrow Complex

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Product

Resources

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Radiocarbon Dating of Modern Peat Profiles: Pre- and Post-Bomb¹⁴C Variations in the Construction of Age-Depth Models

Preparation of Graphite Targets in the Gliwice Radiocarbon Laboratory for AMS¹⁴C Dating