Morphodynamics of river-influenced back-barrier tidal basins: The role of landscape and hydrodynamic settings
Morphodynamics of river-influenced back-barrier tidal basins: The role of landscape and hydrodynamic settings
We investigate the morphodynamics of river-influenced barrier basins numerically, with a particular emphasis on the effects of landscape and hydrodynamic settings. The simulated morphologies are qualitatively comparable to natural systems (e.g.; tidal inlets along the East Coast of the USA). Model results suggest that the basin morphology is governed by the relative importance of tidal and fluvial forcing which is reflected, to the first-order approximation, in the ratio (rQ) between the mean tidal and river discharge. In agreement with empirical knowledge, the model indicates that riverine influence can be neglected when rQ is larger than 20. On the other hand, the river may dominate when rQ is smaller than 5. Pronounced differences in morphodynamic evolution are observed for different landscape settings (i.e.; initial basin bathymetries and river inflow locations), indicating their fundamental importance in governing the evolution of barrier basins. Model results also show that the addition of a river tends to compensate the flood dominance in the tidal basin. Overall, the river flow has limited influence on the volumetric change of tidal flats, while it plays a more important role in determining the depth of the tidal channels and the size of the ebb delta. The riverine sediment source appears to be more important in shaping the basin morphology when the fluvial forcing is stronger. Finally, we show that the presence of a large river in a tidal inlet system influences the performance of the widely adopted relation between tidal prism and inlet cross-sectional area.
morphodynamics, numerical modeling, river influence, tidal networks
9514-9535
Zhou, Z.
212b69e7-2c9a-4426-816d-da46f7a5c468
Coco, G.
2fd53078-aedb-4f12-bb28-d69b74d8ad64
Jiménez, M.
19955253-d18a-4dfd-8c61-dd1980b150eb
Olabarrieta, M.
8dc52adb-24c2-4a47-8ff8-804e80e58d56
Van Der Wegen, M.
d2a102db-0ab2-4563-a437-3f11f230d2c7
Townend, I.
f72e5186-cae8-41fd-8712-d5746f78328e
23 December 2014
Zhou, Z.
212b69e7-2c9a-4426-816d-da46f7a5c468
Coco, G.
2fd53078-aedb-4f12-bb28-d69b74d8ad64
Jiménez, M.
19955253-d18a-4dfd-8c61-dd1980b150eb
Olabarrieta, M.
8dc52adb-24c2-4a47-8ff8-804e80e58d56
Van Der Wegen, M.
d2a102db-0ab2-4563-a437-3f11f230d2c7
Townend, I.
f72e5186-cae8-41fd-8712-d5746f78328e
Zhou, Z., Coco, G., Jiménez, M., Olabarrieta, M., Van Der Wegen, M. and Townend, I.
(2014)
Morphodynamics of river-influenced back-barrier tidal basins: The role of landscape and hydrodynamic settings.
Water Resources Research, 50 (12), .
(doi:10.1002/2014WR015891).
Abstract
We investigate the morphodynamics of river-influenced barrier basins numerically, with a particular emphasis on the effects of landscape and hydrodynamic settings. The simulated morphologies are qualitatively comparable to natural systems (e.g.; tidal inlets along the East Coast of the USA). Model results suggest that the basin morphology is governed by the relative importance of tidal and fluvial forcing which is reflected, to the first-order approximation, in the ratio (rQ) between the mean tidal and river discharge. In agreement with empirical knowledge, the model indicates that riverine influence can be neglected when rQ is larger than 20. On the other hand, the river may dominate when rQ is smaller than 5. Pronounced differences in morphodynamic evolution are observed for different landscape settings (i.e.; initial basin bathymetries and river inflow locations), indicating their fundamental importance in governing the evolution of barrier basins. Model results also show that the addition of a river tends to compensate the flood dominance in the tidal basin. Overall, the river flow has limited influence on the volumetric change of tidal flats, while it plays a more important role in determining the depth of the tidal channels and the size of the ebb delta. The riverine sediment source appears to be more important in shaping the basin morphology when the fluvial forcing is stronger. Finally, we show that the presence of a large river in a tidal inlet system influences the performance of the widely adopted relation between tidal prism and inlet cross-sectional area.
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Published date: 23 December 2014
Keywords:
morphodynamics, numerical modeling, river influence, tidal networks
Identifiers
Local EPrints ID: 469407
URI: http://eprints.soton.ac.uk/id/eprint/469407
ISSN: 0043-1397
PURE UUID: 2f1eb8c7-696d-420b-a99d-d1104a07091c
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Date deposited: 14 Sep 2022 16:46
Last modified: 17 Mar 2024 02:54
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Contributors
Author:
Z. Zhou
Author:
G. Coco
Author:
M. Jiménez
Author:
M. Olabarrieta
Author:
M. Van Der Wegen
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