The Tilia decline: vegetation change in lowland Britain during the mid and late Holocene
The Tilia decline: vegetation change in lowland Britain during the mid and late Holocene
Pollen data indicate Tilia was an important component of the primary woodland cover of many lowland areas in northern and central Europe. High values recorded in mid-Holocene pollen diagrams are generally followed by well-defined declines. In this study the palynological, spatial and temporal trends associated with declines in Tilia pollen at sites from lowland Britain are assessed to evaluate the nature and relative importance of the processes responsible. Processes primarily related to the depositional environment (paludification, marine inundation, breaks in sedimentation) and percentage representation of pollen data play the dominant role in 44% of the 164 declines included in the study. Anthropogenic activity can account for the remainder. Tilia rarely recovers from low values after anthropogenic declines, suggesting such declines have the potential to elucidate patterns in the destruction of primary woodland across lowland Britain. Other than declines associated with the mid-Holocene Ulmus decline event, few anthropogenic Tilia declines have been reliably dated prior to c. 5000 cal. BP. Tilia largely disappeared from areas with calcareous and loamy soils as a result of clearance activity in the period 5000–3000 cal. BP (Late Neolithic to Late Bronze Age). Between 3000 and 2500 cal. BP few declines are recorded suggesting a link between clearance activity and climate change. Later declines are concentrated on the sandier lithologies and often associated with heathland formation. The scarcity of declines after 2000 cal. BP is likely to be related to the exhaustion of primary woodland.
394-408
Grant, Michael J.
56dae074-d54a-4da8-858a-2bf364a5a550
Waller, Martyn P.
d819c427-39df-4b64-961d-8e3338863725
Groves, Jon A.
c8f2d758-4bea-40b4-a8a3-0452d42c2cd0
February 2011
Grant, Michael J.
56dae074-d54a-4da8-858a-2bf364a5a550
Waller, Martyn P.
d819c427-39df-4b64-961d-8e3338863725
Groves, Jon A.
c8f2d758-4bea-40b4-a8a3-0452d42c2cd0
Grant, Michael J., Waller, Martyn P. and Groves, Jon A.
(2011)
The Tilia decline: vegetation change in lowland Britain during the mid and late Holocene.
Quaternary Science Reviews, 30 (3-4), .
(doi:10.1016/j.quascirev.2010.11.022).
Abstract
Pollen data indicate Tilia was an important component of the primary woodland cover of many lowland areas in northern and central Europe. High values recorded in mid-Holocene pollen diagrams are generally followed by well-defined declines. In this study the palynological, spatial and temporal trends associated with declines in Tilia pollen at sites from lowland Britain are assessed to evaluate the nature and relative importance of the processes responsible. Processes primarily related to the depositional environment (paludification, marine inundation, breaks in sedimentation) and percentage representation of pollen data play the dominant role in 44% of the 164 declines included in the study. Anthropogenic activity can account for the remainder. Tilia rarely recovers from low values after anthropogenic declines, suggesting such declines have the potential to elucidate patterns in the destruction of primary woodland across lowland Britain. Other than declines associated with the mid-Holocene Ulmus decline event, few anthropogenic Tilia declines have been reliably dated prior to c. 5000 cal. BP. Tilia largely disappeared from areas with calcareous and loamy soils as a result of clearance activity in the period 5000–3000 cal. BP (Late Neolithic to Late Bronze Age). Between 3000 and 2500 cal. BP few declines are recorded suggesting a link between clearance activity and climate change. Later declines are concentrated on the sandier lithologies and often associated with heathland formation. The scarcity of declines after 2000 cal. BP is likely to be related to the exhaustion of primary woodland.
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Published date: February 2011
Organisations:
Geology & Geophysics
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Local EPrints ID: 355828
URI: http://eprints.soton.ac.uk/id/eprint/355828
ISSN: 0277-3791
PURE UUID: 2090433d-bbae-4ffc-9d97-94fc58db7248
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Date deposited: 15 Aug 2013 10:32
Last modified: 15 Mar 2024 03:49
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Author:
Martyn P. Waller
Author:
Jon A. Groves
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