Morphometry of tidal meander cutoffs indicates similarity to fluvial morphodynamics
Morphometry of tidal meander cutoffs indicates similarity to fluvial morphodynamics
Sinuous channels wandering through coastal wetlands have been thought to lack lateral-migration features like meander cutoffs and oxbows, spurring the broad interpretation that tidal and fluvial meanders differ morphodynamically. Motivated by recent work showing similarities in planform dynamics between tidal and fluvial meandering channels, we analyzed meander neck cutoffs from diverse tidal and fluvial environments worldwide, and show that tidal cutoffs are widespread. Their perceived paucity stems from pronounced channel density and hydrological connectivity in coastal wetlands, comparatively small size of most tidal channels, and typically dense vegetation cover. Although these factors do not efface tidal meander cutoffs, they collectively inhibit oxbow formation and make tidal cutoffs ephemeral features that can escape detection. We argue that similar morphodynamic processes drive cutoff formation in tidal and fluvial landscapes, with differences arising only during post-cutoff evolution. Such process similarity has important implications for understanding coastal wetland ecomorphodynamics and predicting their long-term evolution.
coastal wetlands, ecomorphodynamics, hydrological connectivity, neck cutoff, river meanders, tidal meanders
Gao, C.
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Lazarus, E.D.
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D'Alpaos, A.
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Ghinassi, M.
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Ielpi, A.
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Parker, G.
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Rinaldo, A.
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Gao, P.
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Wang, Y.P.
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Tognin, D.
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Finotello, A.
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3 January 2024
Gao, C.
e079f563-d11b-4d27-bcda-fe7217e2769a
Lazarus, E.D.
642a3cdb-0d25-48b1-8ab8-8d1d72daca6e
D'Alpaos, A.
9530c7c5-03f1-4a09-9b64-d9b6a9aac950
Ghinassi, M.
44a186c6-e1be-476a-9516-f94483b6500c
Ielpi, A.
7f92cecb-ae4f-470a-ab60-b5f4a7778439
Parker, G.
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Rinaldo, A.
dc3a1eba-11ac-4c7f-9195-9ad24fe47efc
Gao, P.
4c8034f3-8477-4789-9133-69b8ed565a85
Wang, Y.P.
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Tognin, D.
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Finotello, A.
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Gao, C., Lazarus, E.D., D'Alpaos, A., Ghinassi, M., Ielpi, A., Parker, G., Rinaldo, A., Gao, P., Wang, Y.P., Tognin, D. and Finotello, A.
(2024)
Morphometry of tidal meander cutoffs indicates similarity to fluvial morphodynamics.
Geophysical Research Letters, 51 (1), [e2023GL105893].
(doi:10.1029/2023GL105893).
Abstract
Sinuous channels wandering through coastal wetlands have been thought to lack lateral-migration features like meander cutoffs and oxbows, spurring the broad interpretation that tidal and fluvial meanders differ morphodynamically. Motivated by recent work showing similarities in planform dynamics between tidal and fluvial meandering channels, we analyzed meander neck cutoffs from diverse tidal and fluvial environments worldwide, and show that tidal cutoffs are widespread. Their perceived paucity stems from pronounced channel density and hydrological connectivity in coastal wetlands, comparatively small size of most tidal channels, and typically dense vegetation cover. Although these factors do not efface tidal meander cutoffs, they collectively inhibit oxbow formation and make tidal cutoffs ephemeral features that can escape detection. We argue that similar morphodynamic processes drive cutoff formation in tidal and fluvial landscapes, with differences arising only during post-cutoff evolution. Such process similarity has important implications for understanding coastal wetland ecomorphodynamics and predicting their long-term evolution.
Text
Geophysical Research Letters - 2024 - Gao - Morphometry of Tidal Meander Cutoffs Indicates Similarity to Fluvial
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More information
Accepted/In Press date: 21 December 2023
Published date: 3 January 2024
Keywords:
coastal wetlands, ecomorphodynamics, hydrological connectivity, neck cutoff, river meanders, tidal meanders
Identifiers
Local EPrints ID: 490692
URI: http://eprints.soton.ac.uk/id/eprint/490692
ISSN: 0094-8276
PURE UUID: bfd898ac-a55e-4758-91ad-b35f78aa6e40
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Date deposited: 03 Jun 2024 17:14
Last modified: 06 Jun 2024 01:58
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Contributors
Author:
C. Gao
Author:
A. D'Alpaos
Author:
M. Ghinassi
Author:
A. Ielpi
Author:
G. Parker
Author:
A. Rinaldo
Author:
P. Gao
Author:
Y.P. Wang
Author:
D. Tognin
Author:
A. Finotello
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