Stormy geomorphology: an introduction to the Special Issue
Stormy geomorphology: an introduction to the Special Issue
The degree to which the climate change signal can be seen in the increasing frequency and/or magnitude of extreme events forms a key part of the global environmental change agenda. Geomorphology engages with this debate through extending the instrumental record with palaeogeomorphological research; studying resilience and recovery of geomorphic systems under extreme disturbance; documenting the mediation by catchment organisation of transport processes during extreme events; applying new monitoring methods to better understand process-response systems; and illustrating how process, experimental and modelling in-sights can be used to define the buffering of geomorphic systems and human assets from the effects of extremes, providing practical outcomes for practitioners
1-16
Spencer, T.
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Naylor, L.
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Lane, S.
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Darby, Stephen
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Macklin, M.
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Magilligan, F.
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Moller, Iris
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13 November 2016
Spencer, T.
2d8afa33-43b1-4253-b6c2-94de274f2ced
Naylor, L.
1c2b521e-84ec-484b-bb5b-e4c079a1d50b
Lane, S.
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Darby, Stephen
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Macklin, M.
244574ee-8cf3-4827-8e30-df4c53016755
Magilligan, F.
590e2167-78f6-49ac-8abd-c488a95baa18
Moller, Iris
c80fd3b4-ba2d-4c03-b840-b0d1fc3593ab
Spencer, T., Naylor, L., Lane, S., Darby, Stephen, Macklin, M., Magilligan, F. and Moller, Iris
(2016)
Stormy geomorphology: an introduction to the Special Issue.
Earth Surface Processes and Landforms, .
(doi:10.1002/esp.4065).
Abstract
The degree to which the climate change signal can be seen in the increasing frequency and/or magnitude of extreme events forms a key part of the global environmental change agenda. Geomorphology engages with this debate through extending the instrumental record with palaeogeomorphological research; studying resilience and recovery of geomorphic systems under extreme disturbance; documenting the mediation by catchment organisation of transport processes during extreme events; applying new monitoring methods to better understand process-response systems; and illustrating how process, experimental and modelling in-sights can be used to define the buffering of geomorphic systems and human assets from the effects of extremes, providing practical outcomes for practitioners
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More information
Accepted/In Press date: 13 October 2016
e-pub ahead of print date: 13 November 2016
Published date: 13 November 2016
Organisations:
Earth Surface Dynamics
Identifiers
Local EPrints ID: 403554
URI: http://eprints.soton.ac.uk/id/eprint/403554
ISSN: 0197-9337
PURE UUID: 14a749f8-547c-447e-8ec7-cb7e9d2eb353
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Date deposited: 05 Dec 2016 14:34
Last modified: 16 Mar 2024 02:59
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Contributors
Author:
T. Spencer
Author:
L. Naylor
Author:
S. Lane
Author:
M. Macklin
Author:
F. Magilligan
Author:
Iris Moller
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