Channelization of a large Alpine river: what is left of its original morphodynamics?

The Adige River drains 12 200 km2 of the Eastern Alps and flows for 213 km within this mountain range. Similar to other large rivers in Central Europe, the Adige River was subject to massive channelization works during the 19th century. Thanks to the availability of several historical maps, this riv...

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Published inEarth surface processes and landforms Vol. 43; no. 5; pp. 1044 - 1062
Main Authors Scorpio, Vittoria, Zen, Simone, Bertoldi, Walter, Surian, Nicola, Mastronunzio, Marco, Dai Prá, Elena, Zolezzi, Guido, Comiti, Francesco
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.04.2018
Subjects
19th century
Adige River
Alpine rivers
bar theory
Bars
Case studies
channel pattern predictor
Channeling
Dynamics
Evolution
evolutionary trajectories
Geomorphology
historical mapping
Hydrodynamics
Inclination
Mathematical models
Mathematical morphology
Planforms
Prediction models
Reduction
River beds
river channelization
River channels
Riverbeds
Rivers
Tributaries
Width
Adige River
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Abstract The Adige River drains 12 200 km2 of the Eastern Alps and flows for 213 km within this mountain range. Similar to other large rivers in Central Europe, the Adige River was subject to massive channelization works during the 19th century. Thanks to the availability of several historical maps, this river represents a very valuable case study to document the extent to which the morphology of the river changed due to channelization and to understand how much is left of its original morphodynamics. The study was based on the analysis of seven sets of historical maps dating from 1803–1805 to 1915–1927, on geomorphological analysis, on the application of mathematical morphodynamic theories and on the application of bar and channel pattern prediction models. The study concerns 115 km of the main stem and 29 km of its tributaries. In the pre‐channelization conditions, the Adige River presented a prevalence of single‐thread channel planforms. Multi‐thread patterns developed only immediately downstream of the main confluences. During the 19th century, the Adige underwent considerable channel adjustment, consisting of channel narrowing, straightening, and reduction of bars and islands. Multi‐thread and single‐thread reaches evolved through different evolutionary trajectories, considering both the channel width and the bar/vegetation interaction. Bar and channel pattern predictors showed good correspondence with the observed patterns, including the development of multi‐thread morphologies downstream of the confluences. Application of the free‐bar predictor helped to interpret the strong reduction – almost complete loss – of exposed sediment bars after the channelization works, quantifying the riverbed inclination to form alternate bars. This morphological evolution can be observed in other Alpine rivers of similar size and similar massive channelization, therefore, a simplified conceptual model for large rivers subjected to channelization is proposed, showing that a relatively small difference in the engineered channel width may have a strong impact on the river dynamics, specifically on bar formation. Copyright © 2017 John Wiley & Sons, Ltd. In pre‐channelization conditions, before the early 1800s, the Adige River in NE Italy was mainly single‐thread. Multi‐thread patterns developed only immediately downstream of the main confluences. During heavy channelization that occurred in the 19th Century, the Adige underwent considerable morphological simplification and channel adjustment. Bar and channel pattern predictors showed good correspondence with the observed patterns. Free‐bar predictors quantified the riverbed inclination to form alternate bars, which disappeared following channelization. A simplified conceptual model for the morphological response of large rivers to channelization is proposed, showing the key, threshold‐based role of the engineered channel width in regulating the river dynamics.
AbstractList The Adige River drains 12 200 km2 of the Eastern Alps and flows for 213 km within this mountain range. Similar to other large rivers in Central Europe, the Adige River was subject to massive channelization works during the 19th century. Thanks to the availability of several historical maps, this river represents a very valuable case study to document the extent to which the morphology of the river changed due to channelization and to understand how much is left of its original morphodynamics. The study was based on the analysis of seven sets of historical maps dating from 1803–1805 to 1915–1927, on geomorphological analysis, on the application of mathematical morphodynamic theories and on the application of bar and channel pattern prediction models. The study concerns 115 km of the main stem and 29 km of its tributaries. In the pre‐channelization conditions, the Adige River presented a prevalence of single‐thread channel planforms. Multi‐thread patterns developed only immediately downstream of the main confluences. During the 19th century, the Adige underwent considerable channel adjustment, consisting of channel narrowing, straightening, and reduction of bars and islands. Multi‐thread and single‐thread reaches evolved through different evolutionary trajectories, considering both the channel width and the bar/vegetation interaction. Bar and channel pattern predictors showed good correspondence with the observed patterns, including the development of multi‐thread morphologies downstream of the confluences. Application of the free‐bar predictor helped to interpret the strong reduction – almost complete loss – of exposed sediment bars after the channelization works, quantifying the riverbed inclination to form alternate bars. This morphological evolution can be observed in other Alpine rivers of similar size and similar massive channelization, therefore, a simplified conceptual model for large rivers subjected to channelization is proposed, showing that a relatively small difference in the engineered channel width may have a strong impact on the river dynamics, specifically on bar formation. Copyright © 2017 John Wiley & Sons, Ltd. In pre‐channelization conditions, before the early 1800s, the Adige River in NE Italy was mainly single‐thread. Multi‐thread patterns developed only immediately downstream of the main confluences. During heavy channelization that occurred in the 19th Century, the Adige underwent considerable morphological simplification and channel adjustment. Bar and channel pattern predictors showed good correspondence with the observed patterns. Free‐bar predictors quantified the riverbed inclination to form alternate bars, which disappeared following channelization. A simplified conceptual model for the morphological response of large rivers to channelization is proposed, showing the key, threshold‐based role of the engineered channel width in regulating the river dynamics.
The Adige River drains 12 200 km2 of the Eastern Alps and flows for 213 km within this mountain range. Similar to other large rivers in Central Europe, the Adige River was subject to massive channelization works during the 19th century. Thanks to the availability of several historical maps, this river represents a very valuable case study to document the extent to which the morphology of the river changed due to channelization and to understand how much is left of its original morphodynamics. The study was based on the analysis of seven sets of historical maps dating from 1803–1805 to 1915–1927, on geomorphological analysis, on the application of mathematical morphodynamic theories and on the application of bar and channel pattern prediction models. The study concerns 115 km of the main stem and 29 km of its tributaries. In the pre‐channelization conditions, the Adige River presented a prevalence of single‐thread channel planforms. Multi‐thread patterns developed only immediately downstream of the main confluences. During the 19th century, the Adige underwent considerable channel adjustment, consisting of channel narrowing, straightening, and reduction of bars and islands. Multi‐thread and single‐thread reaches evolved through different evolutionary trajectories, considering both the channel width and the bar/vegetation interaction. Bar and channel pattern predictors showed good correspondence with the observed patterns, including the development of multi‐thread morphologies downstream of the confluences. Application of the free‐bar predictor helped to interpret the strong reduction – almost complete loss – of exposed sediment bars after the channelization works, quantifying the riverbed inclination to form alternate bars. This morphological evolution can be observed in other Alpine rivers of similar size and similar massive channelization, therefore, a simplified conceptual model for large rivers subjected to channelization is proposed, showing that a relatively small difference in the engineered channel width may have a strong impact on the river dynamics, specifically on bar formation. Copyright © 2017 John Wiley & Sons, Ltd.
The Adige River drains 12 200 km 2 of the Eastern Alps and flows for 213 km within this mountain range. Similar to other large rivers in Central Europe, the Adige River was subject to massive channelization works during the 19th century. Thanks to the availability of several historical maps, this river represents a very valuable case study to document the extent to which the morphology of the river changed due to channelization and to understand how much is left of its original morphodynamics. The study was based on the analysis of seven sets of historical maps dating from 1803–1805 to 1915–1927, on geomorphological analysis, on the application of mathematical morphodynamic theories and on the application of bar and channel pattern prediction models. The study concerns 115 km of the main stem and 29 km of its tributaries. In the pre‐channelization conditions, the Adige River presented a prevalence of single‐thread channel planforms. Multi‐thread patterns developed only immediately downstream of the main confluences. During the 19th century, the Adige underwent considerable channel adjustment, consisting of channel narrowing, straightening, and reduction of bars and islands. Multi‐thread and single‐thread reaches evolved through different evolutionary trajectories, considering both the channel width and the bar/vegetation interaction. Bar and channel pattern predictors showed good correspondence with the observed patterns, including the development of multi‐thread morphologies downstream of the confluences. Application of the free‐bar predictor helped to interpret the strong reduction – almost complete loss – of exposed sediment bars after the channelization works, quantifying the riverbed inclination to form alternate bars. This morphological evolution can be observed in other Alpine rivers of similar size and similar massive channelization, therefore, a simplified conceptual model for large rivers subjected to channelization is proposed, showing that a relatively small difference in the engineered channel width may have a strong impact on the river dynamics, specifically on bar formation. Copyright © 2017 John Wiley & Sons, Ltd.
Author Scorpio, Vittoria
Mastronunzio, Marco
Dai Prá, Elena
Comiti, Francesco
Zen, Simone
Bertoldi, Walter
Surian, Nicola
Zolezzi, Guido
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  surname: Comiti
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  organization: Free University of Bozen‐Bolzano
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SSID ssj0011489
Score 2.4104993
Snippet The Adige River drains 12 200 km2 of the Eastern Alps and flows for 213 km within this mountain range. Similar to other large rivers in Central Europe, the...
The Adige River drains 12 200 km 2 of the Eastern Alps and flows for 213 km within this mountain range. Similar to other large rivers in Central Europe, the...
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wiley
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StartPage 1044
SubjectTerms 19th century
Adige River
Alpine rivers
bar theory
Bars
Case studies
channel pattern predictor
Channeling
Dynamics
Evolution
evolutionary trajectories
Geomorphology
historical mapping
Hydrodynamics
Inclination
Mathematical models
Mathematical morphology
Planforms
Prediction models
Reduction
River beds
river channelization
River channels
Riverbeds
Rivers
Tributaries
Width
Title Channelization of a large Alpine river: what is left of its original morphodynamics?
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fesp.4303
https://www.proquest.com/docview/2023534870
Volume 43
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