Radiocarbon and Thermoluminescence Studies of the Karst Pipe Systems in Southwest England and South Wales

Paleokarst forms in raised beach deposits of Southwest England and South Wales and generally known as “pipes” were dated by 14 C and thermoluminescence (TL) methods. Current geological opinion is that these pipes are features that developed under the cover of periglacial-solifluctional deposits due...

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Bibliographic Details
Published in:Radiocarbon
Main Authors: Pazdur, Mieczysław F., Bluszcz, Andrzej, Pazdur, Anna, Morawiecka, Iwona
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 1995
Subjects:
General Earth and Planetary Sciences
Archeology
Raised Beach
Ice Sheet
Online Access:http://dx.doi.org/10.1017/s003382220003054x
https://www.cambridge.org/core/services/aop-cambridge-core/content/view/S003382220003054X
Description
Summary:Paleokarst forms in raised beach deposits of Southwest England and South Wales and generally known as “pipes” were dated by 14 C and thermoluminescence (TL) methods. Current geological opinion is that these pipes are features that developed under the cover of periglacial-solifluctional deposits due to periglacial conditions prevalent in the Late Devensian. In the present study, TL was used to determine the age of quartz grains forming the raised beaches. 14 C ages were obtained from carbonate cements within sandrock and on the pipe walls. TL ages measured for quartz grains separated from sandrock samples are older than 80 ka bp, whereas the corresponding TL dates obtained from the sandy material of pipe infills center around 40 ka bp. All carbonates yielded finite apparent 14 C dates that range from ca . 45 ka bp to 27 ka bp for sandrock. The apparent 14 C dates obtained on carbonate cements from the pipe walls fall into two groups, one ranging from 30 ka bp to 22 ka bp and the other from 15 ka bp to 7 ka bp. On the basis of geochemical considerations, we conclude that the sandrock cements formed between 35 and 25 ka bp and pipe walls cemented between 30 and 2 ka bp with a break during the climate deterioration caused by last ice sheet advance.

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