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of 58
pro vyhledávání: '"Richard E. Bevins"'
Autor:
Richard E. Bevins, Nick J.G. Pearce, Duncan Pirrie, Rob A. Ixer, Stephen Hillier, Peter Turner, Matthew Power
Publikováno v:
Journal of Archaeological Science: Reports. 49:103973
Autor:
Richard E. Bevins, Nick J.G. Pearce, Rob A. Ixer, Stephen Hillier, Duncan Pirrie, Peter Turner
The Altar Stone at Stonehenge in Wiltshire, UK, is enigmatic in that it differs markedly from the other bluestones. It is a grey–green, micaceous sandstone and has been considered to be derived from the Old Red Sandstone sequences of South Wales. P
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::8bb04eb490abccfae3b44c24e4869801
https://pub.epsilon.slu.se/28820/
https://pub.epsilon.slu.se/28820/
Publikováno v:
Journal of Archaeological Science: Reports. 45:103556
Autor:
Charles French, Kate Welham, Chris Casswell, Josh Pollard, Dave Shaw, Adam Stanford, Mike Parker Pearson, Duncan Schlee, Richard E. Bevins, Colin Richards, Robert Ixer, Ellen Simmons
Publikováno v:
Antiquity. 93:45-62
Geologists and archaeologists have long known that the bluestones of Stonehenge came from the Preseli Hills of west Wales, 230km away, but only recently have some of their exact geological sources been identified. Two of these quarries—Carn Goedog
Publikováno v:
Journal of Archaeological Science: Reports. 44:103525
Autor:
Mike Parker Pearson, Robert Ixer, Richard E. Bevins, Ellen Simmons, Josh Pollard, Clive Ruggles, Dave Shaw, Colin Richards, Adam Stanford, Jim Rylatt, Kevan Edinborough, Tim Kinnaird, Kate Welham
The discovery of a dismantled stone circle—close to Stonehenge's bluestone quarries in west Wales—raises the possibility that a 900-year-old legend about Stonehenge being built from an earlier stone circle contains a grain of truth. Radiocarbon a
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::321395297cd17a6f4c8d2a637330b8c2
Autor:
Robert Ixer, Richard E. Bevins
Publikováno v:
Antiquity. 92:788-802
The long-distance transport of the Stonehenge bluestones from the Mynydd Preseli area of north Pembrokeshire was first proposed by geologist H.H. Thomas in 1923. For over 80 years, his work on the provenancing of the Stonehenge bluestones from locati
Publikováno v:
Journal of Archaeological Science: Reports. 38:103083
The doleritic bluestones of Stonehenge, sourced from the Mynydd Preseli in west Wales, have been previously classified into three geochemical groups on the basis of compatible element geochemistry ( Bevins et al., 2014 ). The majority of Group 1 (spo
Autor:
Richard E. Bevins, Rob A. Ixer
Publikováno v:
Geology Today. 33:180-184
How and why the bluestones arrived at Stonehenge, the UK's most revered ancient monument, has long held people's imagination. The key to understanding these questions relies heavily on the location of their sources. Following early studies in the lat
Autor:
Tom F. Cotterell, Richard E. Bevins, M. R. Power, Rob A. Ixer, Duncan Pirrie, Andrew G. Tindle
Publikováno v:
Journal of Archaeological Science: Reports. 36:102826
Stonehenge is dominated by the large, locally derived sarsen stones which comprise the Outer Sarsen Circle and the Inner Sarsen Trilithon Circle. Lithologically they are a hard form of sandstone called silcrete. Less obvious are the smaller ‘bluest