A stacked Late Quaternary fluvio-periglacial sequence from the Axe valley, southern England with implications for landscape evolution and Palaeolithic archaeology

The current model of mid-latitude late Quaternary terrace sequences, is that they are uplift-driven but climatically controlled terrace staircases, relating to both regional-scale crustal and tectonic factors, and palaeohydrological variations forced by quasi-cyclic climatic conditions in the 100K w...

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Bibliographic Details
Main Authors: AG Brown, LS Basell, PS Toms
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2015
Subjects:
Uncategorized
Science & Technology
Physical Sciences
Geography
Physical
Geosciences
Multidisciplinary
Physical Geography
Geology
Periglaciation
Incision
Chert
Thermokarst
Quaternary hydrogeology
Hydraulic fracturing
Bifaces
Palaeolithic
Acheulian
LUMINESCENCE
PERMAFROST
RECORD
UPLIFT
SEDIMENTS
SYSTEMS
FRANCE
EUROPE
RIVERS
RATES
permafrost
Online Access:https://figshare.com/articles/journal_contribution/A_stacked_Late_Quaternary_fluvio-periglacial_sequence_from_the_Axe_valley_southern_England_with_implications_for_landscape_evolution_and_Palaeolithic_archaeology/11793840
Description
Summary:The current model of mid-latitude late Quaternary terrace sequences, is that they are uplift-driven but climatically controlled terrace staircases, relating to both regional-scale crustal and tectonic factors, and palaeohydrological variations forced by quasi-cyclic climatic conditions in the 100K world (post Mid Pleistocene Transition). This model appears to hold for the majority of the river valleys draining into the English Channel which exhibit 8-15 terrace levels over approximately 60-100m of altitudinal elevation. However, one valley, the Axe, has only one major morphological terrace and has long-been regarded as anomalous. This paper uses both conventional and novel stratigraphical methods (digital granulometry and terrestrial laser scanning) to show that this terrace is a stacked sedimentary sequence of 20-30m thickness with a quasi-continuous (i.e. with hiatuses) pulsed, record of fluvial and periglacial sedimentation over at least the last 300-400Kyrs as determined principally by OSL dating of the upper two thirds of the sequence. Since uplift has been regional, there is no evidence of anomalous neotectonics, and climatic history must be comparable to the adjacent catchments (both of which have staircase sequences) a catchment-specific mechanism is required. The Axe is the only valley in North West Europe incised entirely into the near-horizontally bedded chert (crypto-crystalline quartz) and sand-rich Lower Cretaceous rocks creating a buried valley. Mapping of the valley slopes has identified many large landslide scars associated with past and present springs. It is proposed that these are thaw-slump scars and represent large hill-slope failures caused by Vauclausian water pressures and hydraulic fracturing of the chert during rapid permafrost melting. A simple 1D model of this thermokarstic process is used to explore this mechanism, and it is proposed that the resultant anomalously high input of chert and sand into the valley during terminations caused pulsed aggradation until the last termination. ...

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