A Holocene relative sea-level (RSL) history for the south Devon coast is reconstructed
through an analysis of twelve cores extracted from the coastal back-barrier environments
of Bantham Sands, North Sands, Slapton Sands and Blackpool Sands. Foraminifera
preserved in the sediments are assigned an indicative meaning based on the vertical
distribution of their modem counterparts from contemporary salt marsh and mudflat
environments in the Erme and Salcombe-Kingsbridge estuaries. The contemporary data
provide the first inter-tidal (-2.6 to +2.6 m MTL) foraminifera-based transfer function for
south-west England from which sea-level changes can be predicted with good precision
(RMSEP = ±0.29 m). Sea-level index points (SLIPs) from basal facies provide the longterm
(103 yr) RSL history. SLIPs derived from non-basal minerogenic and peat sequences
are subject to post-depositional consolidation and a vertical correction, using the Paul and
Baffas (1998) method, was therefore applied to these index points. The vertical
displacement of fine minerogenic sediments ranges from <0.1 m above basal facies to >1
m at minerogenic-peat contacts, increasing to >2 m in organic peat facies. The age of each
SLIP is obtained by AMS 14C dating of bulk sediment or plant material. The electrical
resistivity method of geophysical survey provides additional subsurface mapping
information of the back-barrier sediments, and the lithostratigraphic results support the
view that a complex barrier-lagoon system existed along the south Devon coastline during
the early Holocene. Almost 13 m of RSL rise occurred along the south Devon coastline ca.
9000 to 4400 cal years BP. The rate of early Holocene RSL rise is -5.4 ± 2.1 m/ka and
-1.1 ± 0.2 m/ka during the mid- to late Holocene. The pattern and rate of RSL rise is
similar to other sea-level curves produced for the region. Lambeck's (1993a, b, 1995)
geophysical model predictions fit the data well during the early Holocene but Peltier's
(1998) model is the best overall fit of the robust data used to reconstruct the early to mid-
Holocene RSL history. Rates of middle to late Holocene sea-level rise are generally faster
than the models predict. The area is still undergoing glacio-isostatic adjustment (GIA)
equating to a coastal land subsidence of -1.16 m/ka since ca. 4400 cal years BP. The
dataset increases the current Holocene SLIP database for the south-west peninsula and
southern Britain by 23% and for south Devon by almost fivefold.
Date of Award | 2004 |
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Original language | English |
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Awarding Institution | |
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Holocene sea-level changes along the Channel coast of South-west England
Massey, A. C. (Author). 2004
Student thesis: PhD