150 research outputs found
New archaeomagnetic data recovered from the study of Roman and Visigothic remains from central Spain (3rd–7th centuries)
New archaeomagnetic results from four heated/combustion structures recovered from two archaeological sites in central Spain are reported. They have been dated by archaeological evidence and in two cases by radiocarbon dating. Rock magnetic experiments indicate low coercivity magnetic phases, such as magnetite and thermally stable maghaemite, as the main carriers of the remanent magnetization. Haematite has been observed in poorly heated baked clays. Archaeomagnetic directions have been obtained from either alternating field or thermal demagnetization experiments performed on 57 specimens coming from 46 independently oriented samples. The four well-defined archaeomagnetic directions obtained are in good agreement with previous archaeomagnetic data and with recent regional and global field models. They define the beginning of easterly declination drift that was initiated around 350–400 AD and culminated around 800–850 AD, and delineate the maximum in inclination that took place around 600–650 AD. In addition, classical Thellier–Thellier experiments including thermal remanent magnetization anisotropy and cooling rate corrections were conducted on 23 specimens. Only 13 specimens, corresponding to well-defined single component behaviour, gave reliable results. New mean archaeointensities have been obtained for two of the four studied structures (VBK1, 64.2 ± 5.0 μT and VBT1, 62.4 ± 2.6 μT). The new data suggest that two relative intensity maxima occurred in Western Europe around 320 and 630 AD, being of lower magnitude that observed in Eastern Europe.Peer reviewe
Archaeointensity study of five Late Bronze Age fireplaces from Corent (Auvergne, France)
International audienceRecent excavations at Corent (France) unearthed a vast Late Bronze Age settlement. The high density of fireplaces especially highlights it. The present study focuses on the archaeomagnetic study of five fireplaces. These ones were dated between 950 and 800 BCE by cross-dating of metallic and ceramic artefacts and by radiocarbon. The main objective of our study is to increase the archaeointensity database in Western Europe at the beginning of the first millennium BCE. The sampling was conducted on 64 fragments of baked clay and sherds from the fireplaces floor. The classical Thellier-Thellier protocol provides 48 successful archaeointensity results, yielding to five mean values between 58 and 69 μT at the site. Together with previously published results, our new data point out two successive maxima of the intensity of the geomagnetic field. The first maximum ~ 70 μT in the ninth century BCE and the second ~ 90 μT in ~ 700 BCE are separated by a ~ 45–50 μT minimum at ~ 800–750 BCE. The resulting fast variation of the field intensity will be very useful for archaeomagnetic dating purposes. As the direction of the geomagnetic field has also a strong variation during this period (Hervé et al. 2013a), archaeomagnetism promises to be a powerful dating tool to recover the historical processes at the transition between the Bronze and Iron Ages in Western Europe
Archaeomagnetism: its application to the study the Earth’s magnetic field and the characterization of archaeological sites
El arqueomagnetismo generalmente se define como el estudio e interpretación de las
propiedades magnéticas de materiales arqueológicos calentados a alta temperatura.
Esta técnica proporciona una importante herramienta aplicable al ámbito de las
Ciencias de la Tierra y especialmente, a la Arqueología. El arqueomagnetismo se
basa en dos fenómenos físicos: la existencia de variaciones espacio-temporales del
campo magnético terrestre y la capacidad de ciertos materiales arqueológicos que han
sufrido procesos de calentamiento a alta temperatura de adquirir una magnetización
termorremanente. Esta magnetización es estable, paralela y proporcional al campo
magnético terrestre presente en el momento de enfriamiento del material arqueológico.
Por ello, a partir del estudio de la termorremanencia adquirida por materiales
arqueológicos de distintas edades se pueden establecer curvas de la variación
secular del campo magnético terrestre. Una vez establecidas, estas curvas regionales
constituyen una nueva herramienta para la datación de yacimientos arqueológicos.
Además, el arqueomagnetismo puede aportar información muy valiosa en el ámbito de
la Arqueología ya que permite identificar y caracterizar objetos arqueológicos quemados
y fuegos paleolíticos. En este trabajo se explican de forma didáctica los principios
básicos de esta técnica y se presenta un caso práctico en el que se procede a la datación
arqueomagnética de un horno arqueológico.Archaeomagnetism is generally defined as the study and interpretation of the magnetic
properties of archaeological baked materials. This technique provides an important tool
for Earth Sciences research and particularly for Archaeology. It relies on two physical
phenomena: spatial and temporal changes of the geomagnetic field and the ability of
certain burned archaeological materials to acquire a thermoremanent magnetization. This
magnetization is stable, parallel with and proportional to the ambient field in which the
heated materials have cooled. For this reason, for any particular region secular variation
curves can be constructed by studying well-dated archeological burned materials. Once
established, these regional curves can be used as a dating tool for archaeological features
from the same region. In addition, the study of the magnetic properties of archaeological
materials can provide a wealth of information including insight into their composition,
provenance and paleofiring conditions. In this contribution, the principal physical
bases and applications of this technique are reviewed from a non-exhaustive didactical
perspective.Junta de Castilla y León, proyecto BU066U1
First paleomagnetic results of mid-to late Holocene sediments from Lake Issyk-Kul (Kyrgyzstan): Implications for paleosecular variation in central Asia
We present new paleomagnetic and rock magnetic data from mid and late Holocene sediments recovered in two gravity cores (C087 and C142a) from Lake Issyk-Kul (central Asia), for which independent radiocarbon-based age models are available. Our results indicate that sediments from core C087 are characterized by fine (pseudo single domain) magnetite grains and are reliable recorders of Holocene geomagnetic paleosecular variation (PSV) in central Asia, which is a region with poor data coverage. Similarity is found between the core C087 PSV record, which spans the last 5700 years, and the Lake Baikal PSV record, which is the only published Holocene central Asian PSV record of comparable length with an independent radiocarbon-based chronology. Our new results represent a step forward in constructing a reference PSV curve for central Asia that can be used to date sedimentary sequences. These results can also be used to improve the reliability and accuracy of global geomagnetic field models. We have not been able to disentangle past environmental changes in the Lake Issyk-Kul region based on rock magnetic properties, probably because the magnetite and hematite in the studied sediments have a mixed (fluvial and eolian) terrigenous origin. Copyright 2012 by the American Geophysical Union.Financial support for this research was provided through a CSIC JAE-Doc post-doctoral research contract (MGP), the GRACCIE (Spanish Consolider-Ingenio CSD2007-00067), APELIK (EU ICA2-CT-2000-10003), CGL2008-02203/BTE, and PALEONAO (CGL2010-15767/BTE) research projects.Peer Reviewe
Evidence for a highly non-dipolar character of the European 800 AD event
Over the last years new evidences of several short-lived regional maxima of the geomagnetic field intensity at
various times and locations have been defined. These features have important implications both for geomagnetic
field modeling and for Earth0s dynamo simulations. However, the nature, extent and underlying causes of these
variations are still poorly understood. Here we present a detailed analysis of the sharp abrupt intensity change that
took place in Western Europe around 800 AD, the most significant geomagnetic field intensity feature observed
in Europe over the last two millennia. For this purpose we present an up-to-date regional intensity reconstruction
for Western Europe and compare the results with other regional and global geomagnetic field reconstructions. The
results indicate that the 800 AD event is mainly controlled by non-dipolar geomagnetic sources.Peer Reviewe
Modelos globales del campo magnético terrestre para los últimos 3000 años: discrepancias según las bases de datos usadas
La modelización global del campo magnético terrestre no es sólo fundamental para comprender cómo funciona y varía en el tiempo, sino también para constreñir los modelos de geodinamo y corregir las tasas de producción de isótopos cosmogénicos. Obtener modelos suficientemente realistas depende en gran medida de las bases de datos empleadas. Los datos arqueomagnéticos y volcánicos proporcionan un registro casi instantáneo del campo, debido al proceso de adquisición de la remanencia magnética (termorremanencia). Este hecho los hace idóneos para estudiar en detalle la evolución del campo magnético terrestre. Sin embargo, su distribución espacial y temporal es muy heterogénea. Además la calidad de algunos registros, especialmente de intensidad, es muy variable, lo que produce ciertas inconsistencias en los modelos. En este trabajo presentamos cuatro modelos globales para los últimos 3000 años generados a partir del análisis en armónicos esféricos (SHA) usando diferentes bases de datos: 1) datos arqueomagnéticos (SHA3k.a), 2) datos arqueomagnéticos con un criterio de selección de calidad (SHAQ3k.a), 3) datos arqueomagnéticos y volcánicos (SHA3k.av) y 4) datos arqueomagnéticos y volcánicos aplicando un criterio de selección de calidad (SHAQ3k.av). Se evalúan las discrepancias entre ellos y se comparan con modelos globales del campo geomagnético ya publicados (SHA.DIF.14k, ARCH3k.1, CALS3k.4b, pfm9k.1a).SAC y MLO dan las gracias al proyecto CGL2014-54112-R del Ministerio Español de Economía y Competitividad y a la beca FPI BES-2012-052991, que ha permitido a SAC llevar a cabo este trabajo. FJPC agradece a su proyecto postdoctoral 659901- CLIMAGNET, programa Europeo Marie Curie.Peer Reviewe
Archaeomagnetic and rock magnetic study of six kilns from North Africa (Tunisia and Morocco)
International audienceNew full-vector archaeomagnetic data for North Africa recovered from the study of six kilns, five from Tunisia and one from Morocco, are presented. Archaeological and historical considerations, along with three radiocarbon dates, indicate that the age of the kilns ranges between the 9th and 15th centuries AD. Rock magnetic analyses showed that the principal magnetic carriers are magnetite and low Ti titanomagnetite, along with variable contributions of thermally stable maghemite and a high coercivity phase with low unblocking temperatures. The magnetic mineralogy of the studied material is thermally stable and behaves ideally during archaeointensity experiments. Stepwise alternating field demagnetization isolated a single, stable, characteristic remanence component with very well defined directions at both specimen and structure levels. Mean archaeointensities have been obtained from successful classical Thellier experiments conducted on between five and eight independent samples per kiln. Thermoremanent magnetization (TRM) anisotropy and cooling rate effects upon TRM intensity have been investigated. The results showed that these effects are low for four of the six studied kilns, with differences between the uncorrected and corrected means of less than 3 per cent. For the other two structures differences between the uncorrected and corrected mean site intensities are 4.4 per cent and 5.8 per cent. These results highlight the necessity for TRM anisotropy and cooling rate corrections in archaeomagnetic studies if accurate archaeointensities are to be obtained. The new results suggest that high intensities occurred in Northwest Africa during the 9th century. Although more data are clearly needed to define this period of high intensity, the results are in agreement with the available European archaeointensity data. Acomparison between the newdata, other available archaeomagnetic determinations in nearby locations, and palaeosecular variation (PSV) curves derived from the regional SCHA.DIF.3k and global ARCH3K.1 geomagnetic field models shows good agreement between the new data and directional results derived from the models. However, some differences are observed between geomagnetic field models intensity results and available archaeointensity data for the studied regions. This highlights the need for new data for unexplored regions such as North Africa. The new data presented here better constrains the evolution of the geomagnetic field during historical times in this region. They represent a new step towards the construction of a reference PSV curve for Northwest Africa. Once established, this curve will represent a new dating method for this region
Linking sedimentation rates and large-scale architecture for facies prediction in nonmarine basins (Paleogene, Almazán Basin, Spain)
This paper focuses on the relationships between the large-scale stratigraphic architecture of the Almazán basin infill and the sedimentation rates (SR) calculated for precise time intervals. Our aim is to improve the understanding of the timing and causes of the architectural changes, their significance in terms of accommodation space and sediment supply, and their relationship with climate and tectonics. The study area includes the Gómara fluvial fan, the main sediment transfer system of the Almazán basin during Paleogene times. Its large-scale architecture shifted through time between a stacking pattern of low density ribbon-like and high density sheet-like channel fills. Laterally to the fluvial system, mudstone and evaporitic mudstone units represented evaporitic mudflats which passed laterally into palustrine/lacustrine limestone units interpreted as lakes and ponds. Stacked calcretes occurred in distal alluvial and distal floodplain settings. A magnetostratigraphy encompassing 2600 meters guided by available fossil mammal biochronology has provided a temporal framework that spans the complete Paleogene infill of the basin, from Late Lutetian to Late Oligocene, filling a gap in the Cenozoic chronostratigraphy of Spanish basins. This permits to constrain the kinematics of the structures both in the basin and in its margins, and to provide the timing for the depositional sequences. These data, combined with a magnetostratigraphic map, where magnetic reversals were traced through the Gómara monocline, allow a detailed analysis of the SR variability across the fluvial system and its adjacent depositional environments. The results show that high sedimentation rates (around 30-40 cm/kyr) are related to fluvial environments with low density ribbon-shaped channels, while low SR (around or below 10 cm/kyr) are related to high density sheet-like channels. Laterally, mud dominated environments with high SR (15-20 cm/kyr) grade into palustrine/lacustrine carbonated environments with low SR (around 9 cm/ky). The lowest SR (about 3 cm/kyr) are related to the development of stacked calcrete profiles in distal floodplain and in the connection of distal alluvial and palustrine/lacustrine units
Updated Iberian archeomagnetic catalogue: new full vector paleosecular variation curve for the last three millennia
In this work, we present 16 directional and 27 intensity high‐quality values from Iberia. Moreover, we have updated the Iberian archeomagnetic catalogue published more than 10 years ago with a considerable increase in the database. This has led to a notable improvement of both temporal and spatial data distribution. A full vector paleosecular variation curve from 1000 BC to 1900 AD has been developed using high‐quality data within a radius of 900 km from Madrid. A hierarchical bootstrap method has been followed for the computation of the curves. The most remarkable feature of the new curves is a notable intensity maximum of about 80 μT around 600 BC, which has not been previously reported for the Iberian Peninsula. We have also analyzed the evolution of the paleofield in Europe for the last three thousand years and conclude that the high maximum intensity values observed around 600 BC in the Iberian Peninsula could respond to the same feature as the Levantine Iron Age Anomaly, after travelling westward through Europe
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