María Cruz Zuluaga scite author profile

The Islamic necropolis discovered in Tauste (Zaragoza, Spain) is the only evidence that a large Muslim community lived in the area between the 8th and 10th centuries. A multi-isotope approach has been used to investigate the mobility and diet of this medieval Muslim population living in a shifting frontier region. Thirty-one individuals were analyzed to determine δ15N, δ13C, δ18O and 87Sr/86Sr composition. A combination of strontium and oxygen isotope analysis indicated that most individuals were of local origin although three females and two males were non-local. The non-local males would be from a warmer zone whereas two of the females would be from a more mountainous geographical region and the third from a geologically-different area. The extremely high δ15N baseline at Tauste was due to bedrock composition (gypsum and salt). High individual δ15N values were related to the manuring effect and consumption of fish. Adult males were the most privileged members of society in the medieval Muslim world and, as isotope data reflected, consumed more animal proteins than females and young males.

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Characterisation of fine wall and eggshell Roman pottery by Raman spectroscopy

Olivares¹,

Zuluaga²,

Ortega³

et al. 2010

J Raman Spectroscopy

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Roman pottery from the Oiasso harbour (nowadays Irun, Basque Country) was thoroughly studied by micro-Raman spectroscopy and X-ray diffraction (XRD) analysis in order to identify and characterise the mineralogical composition of those samples and to get a deeper insight into the technologies involved in the elaboration of the ceramic artefacts. The diffraction pattern of the ceramic body shows the presence of mullite and trydimite, which suggests firing temperatures above 1100 • C, and alumina-rich raw materials. Additionally, the presence of pseudowollastonite and diopside observed by the XRD and Raman spectroscopy is explained by the high firing temperatures of lime-rich raw materials. Raman microscopy has also provided further information about the heating temperature and composition of the raw materials. The presence of rutile instead of anatase also suggests a strong heating process. Moreover, the presence of hematite (α-Fe 2 O 3 ) and maghemite (γ -Fe 2 O 3 ) instead of magnetite (Fe 3 O 4 )suggests the oxidising conditions during ceramics firing. The comparison of the minerals found in the different Roman potteries with the characteristic mineralogy of the archaeological site suggests the use of raw material coming from different source areas, opening up an interesting discussion about the commercial networks.

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Combining Small-Vertebrate, Marine and Stable-Isotope Data to Reconstruct Past Environments

Rofes

García-Ibaibarriaga

Aguirre³

et al. 2015

Sci Rep

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Three very different records are combined here to reconstruct the evolution of environments in the Cantabrian Region during the Upper Pleistocene, covering ~35.000 years. Two of these records come from Antoliñako Koba (Bizkaia, Spain), an exceptional prehistoric deposit comprising 9 chrono-cultural units (Aurignacian to Epipaleolithic). The palaeoecological signal of small-vertebrate communities and red deer stable-isotope data (δ13C and δ15N) from this mainland site are contrasted to marine microfaunal evidence (planktonic and benthic foraminifers, ostracods and δ18O data) gathered at the southern Bay of Biscay. Many radiocarbon dates for the Antoliña’s sequence, made it possible to compare the different proxies among them and with other well-known North-Atlantic records. Cooling and warming events regionally recorded, mostly coincide with the climatic evolution of the Upper Pleistocene in the north hemisphere.

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Geochemical Characterization of Archaeological Lime Mortars: Provenance Inputs*

et al. 2007

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Chemical and mineralogical analyses were carried out on historical lime mortars from the parish church of Santa María La Real (Guipúzcoa). The study included various periods ranging from Roman to modern times and allowed the identification of various types of raw materials. In order to obtain pure binder, free of carbonate aggregates and charcoal particles, an innovative binder separation method was implemented. The chemical composition of the binder allows discrimination of different provenance areas for the raw materials, although those areas do not correlate with specific historical periods. In addition, the influence of burial processes on the primeval chemical features has been assessed and reveals that modern mortars display greater chemical modification than the Roman mortars.

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Hydrotalcite and Hydrocalumite in Mortar Binders from the Medieval Castle of Portilla (Álava, North Spain): Accurate Mineralogical Control to Achieve More Reliable Chronological Ages

et al. 2018

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Abstract:Mortars from different stratigraphic units at Portilla Castle (Alava, North Spain) have been analyzed for mineralogical characterization before radiocarbon dating. The mortar binder at Portilla Castle is composed not only of neoformation calcite but also of double-layered hydroxide (LDH) minerals such as hydrotalcite and hydrocalumite. The mineralogy of several fractions of the binder has been analyzed to determine the granulometric distribution of minerals in the binder. The continuous monitoring of mineralogy during the extraction of different grain size fractions has been performed by using a scanning electron microscopy (SEM), X-ray diffraction (XRD), and thermogravimetric analyses (TGA). Hydrotalcite and hydrocalumite-bearing mortar binders give older ages than expected since they introduce dead carbon into the system.

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