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Methodological study on single grain OSL dating of mortars: Comparison of five reference archaeological sites

Petra Urbanová
Petra Urbanová
 and 
Pierre Guibert
Pierre Guibert
   | Apr 12, 2017
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Published Online: Apr 12, 2017
Page range: 77 - 97
Received: Aug 09, 2016
Accepted: Dec 07, 2016
DOI: https://doi.org/10.1515/geochr-2015-0050
Keywords
© 2016 Petra Urbanová and Pierre Guibert
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 3.0 License.

Figure 1

SG-OSL decay curve of well bleached (a) and poorly bleached (b) grain. (c) LM-OSL test of the sample BDX 15541 performed by the multi-grain technique corresponding to an average signal of the mixture of poorly bleached and well bleached grains.
SG-OSL decay curve of well bleached (a) and poorly bleached (b) grain. (c) LM-OSL test of the sample BDX 15541 performed by the multi-grain technique corresponding to an average signal of the mixture of poorly bleached and well bleached grains.

Figure 2

Histograms (a-f) show the distributions of individual equivalent doses from SG-OSL measurements.
Histograms (a-f) show the distributions of individual equivalent doses from SG-OSL measurements.

Figure 3

Distributions of relative errors related to ED distributions presented in the Fig. 2.
Distributions of relative errors related to ED distributions presented in the Fig. 2.

Fig. 4

Beta-autoradiography images of different mortar samples. The brightest spots correspond to the most intense beta emitters.
Beta-autoradiography images of different mortar samples. The brightest spots correspond to the most intense beta emitters.

Fig. 5

SEM-EDX carthography of potassium rich minerals in different mortar samples: (a) BDX 16048, (b) BDX 15636, (c) BDX 16304, (d) BDX 15541, (e) BDX 16496, (f) BDX 16493. The grey level corresponds to the number of X rays emitted by potassium detected by the instrument. Magnification: 60, pixel size: 0.03 mm.
SEM-EDX carthography of potassium rich minerals in different mortar samples: (a) BDX 16048, (b) BDX 15636, (c) BDX 16304, (d) BDX 15541, (e) BDX 16496, (f) BDX 16493. The grey level corresponds to the number of X rays emitted by potassium detected by the instrument. Magnification: 60, pixel size: 0.03 mm.

Fig. 6

(a) Relation between the mean K content determined by low bacground gamma spectrometry and SEM-EDX analyses. (b) Standard deviation of the mean K content σ as the function of the mean K content determined by low background gamma spectrometry. (c) Relative variability of K content σrelative calculated as the ratio of standard deviation σ to the mean K content. Relative variability of K content is more significant for mortars with lower K content. Calculation of archeological dose (paleodose) and age Given that the mortar samples are not older than 2000 years, we prefer to use the term “archeological dose” instead of paleodose in the following paragraphs.
(a) Relation between the mean K content determined by low bacground gamma spectrometry and SEM-EDX analyses. (b) Standard deviation of the mean K content σ as the function of the mean K content determined by low background gamma spectrometry. (c) Relative variability of K content σrelative calculated as the ratio of standard deviation σ to the mean K content. Relative variability of K content is more significant for mortars with lower K content. Calculation of archeological dose (paleodose) and age Given that the mortar samples are not older than 2000 years, we prefer to use the term “archeological dose” instead of paleodose in the following paragraphs.

Fig. 7

Dependence of the archaeological dose (paleodose) calculated according to minimum age models on the input parameter σb (a).
Dependence of the archaeological dose (paleodose) calculated according to minimum age models on the input parameter σb (a).

Over-dispersion values (OD) obtained by using Central age model (Galbraith et al., 1999) from dose recovery experiments (DRT) and equivalent dose measurements (ED) and estimation of extrinsic variability calculated as the difference between OD ED and OD DRT.

SampleOD DRTOD EDExtrinsic
(%)(%)variability (%)
Grimaldi castle, Antibes
BDX 1604514 ± 231 ± 228 ± 4
BDX 1604612 ± 231 ± 229 ± 4
BDX 160478 ± 243 ± 342 ± 4
BDX 160487 ± 227 ± 226 ± 4
BDX 160495 ± 236 ± 236 ± 4
Thermal baths of Chassenon
BDX 156365 ± 245 ± 545 ± 7
Palais-Gallien, Bordeaux
BDX 1554113 ± 2121 ± 8120 ± 10
BDX 155425 ± 2129 ± 8129 ± 10
BDX 1554316 ± 3148 ± 10147 ± 13
BDX 155448 ± 2144 ± 8144 ± 10
Saint Seurin crypt, Bordeaux
BDX 1649214 ± 2129 ± 7128 ± 9
BDX 164938 ± 2128 ± 8128 ± 10
BDX 1649612 ± 396 ± 1395 ± 16
BDX 1649815 ± 4106 ± 9105 ± 13
BDX 1650016 ± 3117 ± 9116 ± 12
Saint Seurin, apse, Bordeaux
BDX 1659210 ± 3136 ± 8136 ± 11
BDX 16593-148 ± 10-
BDX 16594-134 ± 8-
Saint Seurin, chapel, Bordeaux
BDX 165867 ± 4157 ± 16157 ± 20
BDX 16587-148 ± 15-
Basel cathedral (crypt)
BDX 163049 ± 268 ± 557 ± 14

Recapitulative table of dating results for samples emitting SG-OSL signal.

SampleReference date (years)Water content

water content used for age determination

 (%)		Annual dose (mGy/year)Archeo dose

archaeological dose calculated using either Central age model (CAM) or internal external consistency criterion (IEU)

 (Gy)		Nb of grains

number of grains taken into account for age calculation

σ/a

over-dispersion value σ calculated from CAM/input parameter a used to run the IEU model

 (%)		Date (years)
Grimaldi castle, Antibes
BDX 160455.0 ± 2.51.83 ± 0.073.85 ± 0.10 (CAM)19631−86 ±100
BDX 160466.0 ± 3.01.72 ± 0.083.56 ± 0.09 (CAM)18031−62 ±104
BDX 1604731 ± 4013.0 ± 6.52.29 ± 0.174.60 ± 0.16 (CAM)1754316 ± 137
BDX 1604810.0 ± 5.02.07 ± 0.133.66 ± 0.08 (CAM)18927216 ± 110
BDX 1604913.0 ± 6.51.92 ± 0.143.89 ± 0.13 (CAM)15236183 ±156
Thermal baths of Chassenon
BDX 15636130 ± 4810.0 ± 5.06.76 ± 0.3812.73 ± 0.77 (CAM)6145131 ± 131
Palais-Gallien, Bordeaux
BDX 1554110.0 ± 5.01.51 ± 0.073.07 ± 0.12 (IEU)3715−18 ± 90
BDX 15542109 ± 418.0 ± 4.01.73 ± 0.093.39 ± 0.21 (IEU)262555 ± 128
BDX 155438.0 ± 4.01.42 ± 0.052.91 ± 0.12 (IEU)2815−41 ± 94
BDX 1554412.0 ± 6.01.31 ± 0.072.51 ± 0.10 (IEU)251599 ± 86
Saint Seurin crypt, Bordeaux
BDX 16492>450, <10007.0 ± 3.51.24 ± 0.031.73 ± 0.04 (IEU)7114574 ± 68
BDX 16493>450, <10007.0 ± 3.51.21 ± 0.051.81 ± 0.05 (IEU)5012523 ± 71
BDX 16496433 ±1293.0 ± 1.52.56 ± 0.09----
BDX 16498433 ±1293.0 ± 1.52.99 ± 0.09----
BDX 16500433 ±1298.0 ± 4.01.68 ± 0.082.74 ± 0.13 (IEU)5630386 ±107
Saint Seurin, apse, Bordeaux
BDX 165925.0 ± 2.51.29 ± 0.061.09 ± 0.06 (IEU)15101170 ± 58
BDX 165931150 ± 505.0 ± 2.51.00 ± 0.051.13 ± 0.06 (IEU)1610945 ± 74
BDX 165945.0 ± 2.50.98 ± 0.041.00 ± 0.06 (IEU)1510999 ± 71
Saint Seurin, chapel, Bordeaux
BDX 1658614445.0 ± 2.51.76 ± 0.101.29 ± 0.09 (IEU)571301 ± 59
BDX 1658714445.0 ± 2.51.61 ± 0.091.20 ± 0.10 (IEU)471271 ±68
Basel cathedral (crypt)
BDX 16304310 ± 4013.0 ± 6.51.20 ± 0.062.86 ± 0.15 (CAM)10049−368 ±168
BDX 16293

samples BDX 16293 and BDX 16299 were analyzed by multigrain technique

550 ± 250-1.07 ± 0.061.60 ± 0.15 (CAM)29 discs47520 ±160
BDX 16299

samples BDX 16293 and BDX 16299 were analyzed by multigrain technique

550 ± 250-1.28 ± 0.072.51 ± 0.21 (CAM)34 discs4855 ± 196

Single grain measurements of the sample BDX 16299 (Basel mortar).

DiscGrain (order)ED (Gy)
1642.08 ± 0.36
19129.03 ± 5.38
3512.10 ± 0.45
6543.58 ± 8.06
73410.67 ± 3.47
8253.30 ± 0.70
9653.03 ± 0.54
12278.92 ± 2.83
12802.80 ± 0.73

List of studied monuments with corresponding historical periods, reference date intervals, reference dating methods, mortar function in masonry and sample numbers. For more details about the list of mortar samples, the reader is referred to Urbanová et al. (2016) for Antibes, to Urbanová et al. (2015) for Palais-Gallien and to Urbanová and Guibert (2017) for Saint Seurin. For more details about reference dates, the reader is referred to Lanos and Dufresne (2013) for Antibes, to Hourcade (2013) and Lanos and Dufresne (2013) for Palais-Gallien, to Michel (2012) for Saint Seurin, to Hourcade and Maurin (2013) and Lanos and Dufresne (2013) for Chassenon, to Fischer (2008) for Basel and to Hueglin (2011) for mortar mixers.

SiteHistorical periodReference date intervalReference dating methodMortar functionSample number
BDX 16045
BDX 16046
AntibesGallo-Roman[9 BC, 72 AD]Archaeomagnetism (bricks)Mortar binding stonesBDX 16047
TPQ

terminus post quem

: [60 AD, 100 AD]		ArchaeologyBDX 16048
BDX 16049
ChassenonGallo-RomanBoarding mortarBDX 15628
[82 AD, 178 AD]Archaeomagnetism (bricks)Mortar binding stonesBDX 15636
[90 AD, 170 AD]ArchaeologyMortar binding stonesBDX 15638
BDX 15639
Palais-GallienGallo-RomanMortar binding bricksBDX 15541
[68 AD, 150 AD]Archaeomagnetism (bricks)Mortar binding bricksBDX 15542
[90 AD, 170 AD]ArchaeologyFoundation mortarBDX 15543
Foundation mortarBDX 15544
Posterior to BDX 16493 TPQ: 1100 ADArchaeologyFilling mortar (floor)BDX 16492
Late Antiquity & Early Middle Ages cryptPosterior to BDX 16496 TPQ: 1100 ADArchaeologyFilling mortar (floor)BDX 16493
Ground mortarBDX 16496
[305 AD, 562 AD] TPQ

terminus post quem

: [658 AD, 783 AD]		TL and OSL (bricks) Radiocarbon (charcoal)Ground mortarBDX 16498
St SeurinGround mortar (floor)BDX 16500
BDX 16592
Romanesque apse[810 AD, 910 AD]Historical sourcesMortar binding ashlarsBDX 16593
BDX 16594
BDX 16586
Gothic chapel[570 AD]Historical sourcesMortar binding ashlarsBDX 16587
BDX 16591
Gallo-Roman[270 AD, 350 AD]Historical sourcesGround mortar (hypocaust)BDX 16304
Late Antiquity & Early Middle Ages[300 AD, 800 AD]ArchaeologyMortar binding stonesBDX 16293
BDX 16299
BaselCarolingian[790 AD, 890 AD]ArchaeologyMortar binding stonesBDX 16301
BDX 16303
Ottonian[890 AD, 990 AD]ArchaeologyMortar binding stonesBDX 16288
BDX 16294
Romanesque[1100 AD, 1200 AD]ArchaeologyMortar binding stonesBDX 16295
BaselRomanesque[936 AD, 1018 AD]Radiocarbon (charcoal)Mortar from mortar mixerBDX 16306
MüstairRomanesque958 ADHistorical sourcesMortar from mortar mixerBDX 16308
ZurichRomanesque[853 AD, 874 AD]Historical sourcesMortar from mortar mixerBDX 16309

Number of studied grains and proportions of luminescent and selected grains for all studied samples.

SampleAnalysed grainsLuminescent grainsSelected grainsGrains above L4/ T4

grains with the sensitivity-corrected natural signal (LN/TN) above the highest regenerated dose (L4/T4). The equivalent dose estimation of these grains is performed by the extrapolation of the exponential growth curve.

Nb%Nb%Nb%Nb
Grimaldi castle, Antibes
BDX 1604540851002005.01964.80
BDX 1604638001001935.01804.61
BDX 1604738001001794.81754.75
BDX 1604839901002054.91894.50
BDX 1604940851001633.91523.61
Thermal baths of Chassenon
BDX 15628little quartz fraction 200-250 μm, no OSL signal
BDX 156363895100671.7611.69
BDX 15638little quartz fraction 200-250 μm, no OSL signal
BDX 16539
Palais-Gallien, Bordeaux
BDX 1554128501002027.11294.544
BDX 1554219001001196.3764.040
BDX 1554341351002075.01112.751
BDX 1554440851003247.91924.7104
Saint Seurin crypt, Bordeaux
BDX 1649238001002757.31764.657
BDX 1649338001002336.11453.852
BDX 164961995100995.0321.626
BDX 1649838001001523.8711.949
BDX 1650038001001273.1901.921
Saint Seurin, apse, Bordeaux
BDX 16592361010036810.21644.5117
BDX 1659330401002568.41163.879
BDX 16594313510034711.11524.8101
Saint Seurin, chapel, Bordeaux
BDX 1658622801001165.0502.233
BDX 1658733251001755.4491.532
BDX 16591------
Basel cathedral (crypt)
BDX 1630438001001163.11062.86
BDX 16293analyzed by multigrain, very little OSL signal
BDX 16299
BDX 163012000
BDX 163032000
BDX 162882000no OSL signal
BDX 162942000
BDX 162952000
Mortar mixers
BDX 163062000
BDX 163082000no OSL signal
BDX 163092000

Evaluation of bleaching degree: expected archaeological dose, the lowest and the highest measured equivalent dose, the ratio between the expected dose and minimum dose Rmin and between the maximum dose and the expected dose Rmax and the over-dispersion.

SiteSampleExpected doseMinMaxRminRmaxRmax/RminOD
(Gy)(Gy)(Gy)(%)
BDX 160453.701.148.46320.731
BDX 160463.551.0010.88430.931
AntibesBDX 160474.701.1811.84430.643
BDX 160484.301.659.76321.927
BDX 160493.851.6912.74231.536
ChassenonBDX 1563612.654.7428.38320.845
BDX 155412.871.78187.2026540121
Palais-GallienBDX 155423.291.60163.2725024129
BDX 155432.701.84270.51110068148
BDX 155442.491.35267.46210758144
BDX 164921.26–1.941.0979.621–232–5414129
BDX 164931.09–1.821.0691.921–251–8429128
BDX 164964.093.57179.621443896
BDX 164984.782.90188.6123924106
St SeurinBDX 165001.51–2.521.27108.331–243–7222117
BDX 165920.900.79147.661164144136
BDX 165930.740.65151.031204179148
BDX 165940.690.64140.941204189134
BDX 165860.88–1.061.07194.891184–221186157
BDX 165870.81–0.971.05161.811167–200181148
BDX 163042.00–2.090.5515.9748248
BaleBDX 162931.30–1.840.414.713–430.649
BDX 162991.56–2.201.066.211–231.447

Measurement parameters used for the determination of individual equivalent doses.

SitePreheat (°C)Cut-heat (°C)Test dose (Gy)Recovery dose (Gy)Regeneration doses (Gy)
Grimaldi castle, Antibes2401904.84.84.8, 9.6, 14.4, 19.2, 0, 4.8
Thermal baths of Chassenon2201904.84.84.8, 9.6, 14.4, 19.2, 0, 4.8
Palais-Gallien, Bordeaux2401904.84.84.8, 9.6, 14.4, 19.2, 0, 4.8
Basel cathedral, Basel1901601.51.50.75, 1.5, 4.5, 10.5, 0, 0.75
Saint Seurin crypt, Bordeaux190160331.5, 3, 6, 12, 0, 1.5
Saint Seurin apse/chapel, Bordeaux1901601.51.50.75, 1.5, 4.5, 10.4, 0, 0.75
Mortar mixers (Basel, Müstair, Zurich)190160331.5, 3, 6, 12, 0, 1.5

Results of the local analyses of potassium (K) content in thick sections of studied mortar samples, obtained by SEM-EDX. We introduce: n—number of analysis; Kmin — the lowest measured value of K content; Kmax — the highest measured value of K content; Kmean — arithmetic mean of K content for n measurements; σK — standard deviation of arithmetic mean Kmean for n measurements; σrel – relative standard deviation calculated as the ratio of σK to Kmean; Kgamma — K content determined by low background gamma spectrometry.

SamplenKminKmaxKmeanσσrelKgammaCaO
(%)(%)(%)(%) (%)(%)
Antibes
BDX 16045310.333.640.980.640.651.4330
BDX 16046------1.44-
BDX 16047------1.88-
BDX 16048221.132.861.690.440.261.94-
BDX 16049350.842.301.440.320.221.7426
Chassenon
BDX 15636171.483.562.710.550.202.8633
Palais-Gallien
BDX 15541290.121.100.530.270.500.8526
BDX 15542401.172.260.850.510.601.13-
BDX 15543330.041.090.430.270.620.8029
BDX 15544------0.6725
St Seurin
BDX 16492130.111.110.590.410.580.4322
BDX 16493510.031.110.300.230.780.4726
BDX 16496240.122.240.800.460.570.9027
BDX 16498560.072.580.830.660.800.8723
BDX 16500390.091.540.470.330.700.4924
BDX 16592------0.6054
BDX 16593150.120.460.320.110.330.3062
BDX 16594------0.3056
BDX 16586------1.0569
BDX 1658790.681.931.170.380.331.0362
Basel
BDX 16304380.271.390.680.310.450.4461
BDX 16293------0.4479
BDX 16299------0.5563
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