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Vegetation enhances curvature-driven dynamics in meandering rivers

Vegetation enhances curvature-driven dynamics in meandering rivers
Vegetation enhances curvature-driven dynamics in meandering rivers

Stabilization of riverbanks by vegetation has long been considered necessary to sustain single-thread meandering rivers. However, observation of active meandering in modern barren landscapes challenges this assumption. Here, we investigate a globally distributed set of modern meandering rivers with varying riparian vegetation densities, using satellite imagery and statistical analyses of meander-form descriptors and migration rates. We show that vegetation enhances the coefficient of proportionality between channel curvature and migration rates at low curvatures, and that this effect wanes in curvier channels irrespective of vegetation density. By stabilizing low-curvature reaches and allowing meanders to gain sinuosity as channels migrate laterally, vegetation quantifiably affects river morphodynamics. Any causality between denser vegetation and higher meander sinuosity, however, cannot be inferred owing to more frequent avulsions in modern non-vegetated environments. By illustrating how vegetation affects channel mobility and floodplain reworking, our findings have implications for assessing carbon stocks and fluxes in river floodplains.

2041-1723
Finotello, Alvise
6eb85db0-f87f-4995-a43d-3d9c396dc2e7
Ielpi, Alessandro
7f92cecb-ae4f-470a-ab60-b5f4a7778439
Lapotre, Mathieu G.A.
edbb785a-2a1f-4a5f-8813-9cf7f11619e8
Lazarus, Eli D.
642a3cdb-0d25-48b1-8ab8-8d1d72daca6e
Ghinassi, Massimiliano
44a186c6-e1be-476a-9516-f94483b6500c
Carniello, Luca
634db373-c16f-4401-baaf-68a074ca196a
Favaro, Serena
d180ba7e-2905-4485-9e4c-b6f109b5bbb3
Tognin, Davide
13e2068d-08dd-49f6-bd5d-d9f011e741c7
D'Alpaos, Andrea
9530c7c5-03f1-4a09-9b64-d9b6a9aac950
Finotello, Alvise
6eb85db0-f87f-4995-a43d-3d9c396dc2e7
Ielpi, Alessandro
7f92cecb-ae4f-470a-ab60-b5f4a7778439
Lapotre, Mathieu G.A.
edbb785a-2a1f-4a5f-8813-9cf7f11619e8
Lazarus, Eli D.
642a3cdb-0d25-48b1-8ab8-8d1d72daca6e
Ghinassi, Massimiliano
44a186c6-e1be-476a-9516-f94483b6500c
Carniello, Luca
634db373-c16f-4401-baaf-68a074ca196a
Favaro, Serena
d180ba7e-2905-4485-9e4c-b6f109b5bbb3
Tognin, Davide
13e2068d-08dd-49f6-bd5d-d9f011e741c7
D'Alpaos, Andrea
9530c7c5-03f1-4a09-9b64-d9b6a9aac950

Finotello, Alvise, Ielpi, Alessandro, Lapotre, Mathieu G.A., Lazarus, Eli D., Ghinassi, Massimiliano, Carniello, Luca, Favaro, Serena, Tognin, Davide and D'Alpaos, Andrea (2024) Vegetation enhances curvature-driven dynamics in meandering rivers. Nature Communications, 15 (1), [1968]. (doi:10.1038/s41467-024-46292-x).

Record type: Article

Abstract

Stabilization of riverbanks by vegetation has long been considered necessary to sustain single-thread meandering rivers. However, observation of active meandering in modern barren landscapes challenges this assumption. Here, we investigate a globally distributed set of modern meandering rivers with varying riparian vegetation densities, using satellite imagery and statistical analyses of meander-form descriptors and migration rates. We show that vegetation enhances the coefficient of proportionality between channel curvature and migration rates at low curvatures, and that this effect wanes in curvier channels irrespective of vegetation density. By stabilizing low-curvature reaches and allowing meanders to gain sinuosity as channels migrate laterally, vegetation quantifiably affects river morphodynamics. Any causality between denser vegetation and higher meander sinuosity, however, cannot be inferred owing to more frequent avulsions in modern non-vegetated environments. By illustrating how vegetation affects channel mobility and floodplain reworking, our findings have implications for assessing carbon stocks and fluxes in river floodplains.

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s41467-024-46292-x (1) - Version of Record
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More information

Accepted/In Press date: 21 February 2024
e-pub ahead of print date: 4 March 2024

Identifiers

Local EPrints ID: 490614
URI: http://eprints.soton.ac.uk/id/eprint/490614
ISSN: 2041-1723
PURE UUID: 42883069-e8ff-4306-9ba2-e0d441b25b0a
ORCID for Eli D. Lazarus: ORCID iD orcid.org/0000-0003-2404-9661

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Date deposited: 31 May 2024 16:41
Last modified: 06 Jun 2024 01:58

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Contributors

Author: Alvise Finotello
Author: Alessandro Ielpi
Author: Mathieu G.A. Lapotre
Author: Eli D. Lazarus ORCID iD
Author: Massimiliano Ghinassi
Author: Luca Carniello
Author: Serena Favaro
Author: Davide Tognin
Author: Andrea D'Alpaos

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