The Impact of Bridges on the Process of Water Turbidity on the Example of Large Lowland Rivers

The transformations of river channels as a result of human activity may reflect the level of anthropogenic pressure. Recorded in macroscale, they are indicators of transformations for the larger part of the river basin, while in the microscale they usually refer to its fragment. The human activity t...

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Bibliographic Details
Published in:Journal of Ecological Engineering
Main Authors: Dawid Aleksander Szatten, Michał Habel, Zygmunt Babiński, Oleksandr Obodovskyi
Format: Article in Journal/Newspaper
Language:English
Published: Polish Society of Ecological Engineering (PTIE) 2019
Subjects:
bridge
contraction scour
sukhona river
water turbidity
lower vistula river
suspended sediment continuum
Environmental technology. Sanitary engineering
TD1-1066
Environmental sciences
GE1-350
Arkhangelsk
dvina
Arkhangelsk Oblast
Online Access:https://doi.org/10.12911/22998993/113148
https://doaj.org/article/e8f14540ca3a4f23aba0a78d08da525a
Description
Summary:The transformations of river channels as a result of human activity may reflect the level of anthropogenic pressure. Recorded in macroscale, they are indicators of transformations for the larger part of the river basin, while in the microscale they usually refer to its fragment. The human activity that has the strongest influence on the fluvial processes, including suspended sediment transport, is the interference in the riverbed, such as hydrotechnical construction (create of water stages) or transformation of the river banks (concreting of the river banks). The aim of the research was to determine the impact of bridges on the process of water turbidity in the longitudinal profile of large lowland rivers. The research area was the lower reach of Vistula – bridge profiles: Torun, Bydgoszcz, Kiezmark (Poland) and bridge profile on Sukhona – a tributary of the Northern Dvina River near the city of Veliky Ustyug (Russia - Arkhangelsk Oblast). The research conducted in the years 2013-2017 included the measurements of water turbidity in the cross-sections of the above-mentioned rivers. The determinations of water turbidity were carried out using traditional (granulometry analysis) and nephelometric methods (devices: LISST-25X and turbidimeter). The impact of bridges on the variability of water turbidity was determined. The obtained results were related to the variability of depth conditions (bathymetric measurements) and hydrodynamics in the cross-section profile of the channel.

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