Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea

Submerged landscapes on continental shelves archive drainage networks formed during periods of sea-level lowstand. The evolution of these postglacial drainage networks also reveals how past climate changes affected the landscape. Ice-marginal and paraglacial drainage networks on low-relief topograph...

Full description

Bibliographic Details
Main Authors: Emery, AR, Hodgson, DM, Barlow, NLM, Carrivick, JL, Cotterill, CJ, Richardson, J, Ivanovic, R, Mellett, C
Format: Article in Journal/Newspaper
Language:unknown
Published: European Geosciences Union
Subjects:
Dogger Bank
Ice Sheet
Online Access:https://eprints.whiterose.ac.uk/164254/
id ftleedsuniv:oai:eprints.whiterose.ac.uk:164254
record_format openpolar
spelling ftleedsuniv:oai:eprints.whiterose.ac.uk:164254 2023-05-15T16:40:19+02:00 Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea Emery, AR Hodgson, DM Barlow, NLM Carrivick, JL Cotterill, CJ Richardson, J Ivanovic, R Mellett, C https://eprints.whiterose.ac.uk/164254/ unknown European Geosciences Union Emery, AR orcid.org/0000-0003-1231-0148 , Hodgson, DM, Barlow, NLM et al. (5 more authors) Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea. Earth Surface Dynamics (ESurf). ISSN 2196-6311 (Submitted) Article NonPeerReviewed ftleedsuniv 2023-01-30T22:31:57Z Submerged landscapes on continental shelves archive drainage networks formed during periods of sea-level lowstand. The evolution of these postglacial drainage networks also reveals how past climate changes affected the landscape. Ice-marginal and paraglacial drainage networks on low-relief topography are susceptible to reorganisation of water supply, forced by ice-marginal rearrangement, precipitation and temperature variations, and marine inundation. A rare geological archive of climate-driven landscape evolution during the transition from ice-marginal (c. 23 ka BP) to a fully submerged marine environment (c. 8 ka BP) is preserved at Dogger Bank, in the southern North Sea. In this study, our analysis of high-resolution seismic reflection and Cone Penetration Test data reveal a channel network over a 1330 km2 area that incised glacial and proglacial lake-fill sediments. The channel network sits below coastal and shallow marine sediments, and is therefore interpreted to represent terrestrial drainage network. When mapped out, the channel form morphology reveals two distinct sets. The first set comprise two low sinuosity, wide (> 400 m) channels that contain macroforms of braid and side bars. These channels are interpreted to have originated as proglacial rivers, which drained the ice-sheet margin to the north. The second set of channels (75–200 m wide, with one larger, ~ 400 m wide) have higher sinuosity and form a sub-dendritic network of tributaries to the proglacial channels. The timing of channel formation lacks chronostratigraphic control. However, the proglacial rivers must have formed as the ice sheet was still on Dogger Bank, before 23 ka BP, to supply meltwater to the rivers. Ice-sheet retreat from Dogger Bank led to reorganisation of meltwater drainage and abandonment of the proglacial rivers. Palaeoclimate simulations show a cold and dry period at Dogger Bank between 23 and 17 ka BP. After 17 ka BP, precipitation increased, and drainage of precipitation formed the second set of channels. The second ... Article in Journal/Newspaper Ice Sheet White Rose Research Online (Universities of Leeds, Sheffield & York) Dogger Bank ENVELOPE(2.333,2.333,54.833,54.833)
institution Open Polar
collection White Rose Research Online (Universities of Leeds, Sheffield & York)
op_collection_id ftleedsuniv
language unknown
description Submerged landscapes on continental shelves archive drainage networks formed during periods of sea-level lowstand. The evolution of these postglacial drainage networks also reveals how past climate changes affected the landscape. Ice-marginal and paraglacial drainage networks on low-relief topography are susceptible to reorganisation of water supply, forced by ice-marginal rearrangement, precipitation and temperature variations, and marine inundation. A rare geological archive of climate-driven landscape evolution during the transition from ice-marginal (c. 23 ka BP) to a fully submerged marine environment (c. 8 ka BP) is preserved at Dogger Bank, in the southern North Sea. In this study, our analysis of high-resolution seismic reflection and Cone Penetration Test data reveal a channel network over a 1330 km2 area that incised glacial and proglacial lake-fill sediments. The channel network sits below coastal and shallow marine sediments, and is therefore interpreted to represent terrestrial drainage network. When mapped out, the channel form morphology reveals two distinct sets. The first set comprise two low sinuosity, wide (> 400 m) channels that contain macroforms of braid and side bars. These channels are interpreted to have originated as proglacial rivers, which drained the ice-sheet margin to the north. The second set of channels (75–200 m wide, with one larger, ~ 400 m wide) have higher sinuosity and form a sub-dendritic network of tributaries to the proglacial channels. The timing of channel formation lacks chronostratigraphic control. However, the proglacial rivers must have formed as the ice sheet was still on Dogger Bank, before 23 ka BP, to supply meltwater to the rivers. Ice-sheet retreat from Dogger Bank led to reorganisation of meltwater drainage and abandonment of the proglacial rivers. Palaeoclimate simulations show a cold and dry period at Dogger Bank between 23 and 17 ka BP. After 17 ka BP, precipitation increased, and drainage of precipitation formed the second set of channels. The second ...
format Article in Journal/Newspaper
author Emery, AR
Hodgson, DM
Barlow, NLM
Carrivick, JL
Cotterill, CJ
Richardson, J
Ivanovic, R
Mellett, C
spellingShingle Emery, AR
Hodgson, DM
Barlow, NLM
Carrivick, JL
Cotterill, CJ
Richardson, J
Ivanovic, R
Mellett, C
Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea
author_facet Emery, AR
Hodgson, DM
Barlow, NLM
Carrivick, JL
Cotterill, CJ
Richardson, J
Ivanovic, R
Mellett, C
author_sort Emery, AR
title Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea
title_short Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea
title_full Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea
title_fullStr Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea
title_full_unstemmed Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea
title_sort ice sheet and palaeoclimate controls on drainage network evolution: an example from dogger bank, north sea
publisher European Geosciences Union
url https://eprints.whiterose.ac.uk/164254/
long_lat ENVELOPE(2.333,2.333,54.833,54.833)
geographic Dogger Bank
geographic_facet Dogger Bank
genre Ice Sheet
genre_facet Ice Sheet
op_relation Emery, AR orcid.org/0000-0003-1231-0148 , Hodgson, DM, Barlow, NLM et al. (5 more authors) Ice sheet and palaeoclimate controls on drainage network evolution: an example from Dogger Bank, North Sea. Earth Surface Dynamics (ESurf). ISSN 2196-6311 (Submitted)
_version_ 1766030701863370752

Similar Items