Sentinel-1 Satellite Radar Images: A New Source of Information for Study of River Channel Dynamics on the Lower Vistula River, Poland

Kryniecka, Klaudia; Magnuszewski, Artur; Radecki‐Pawlik, Artur

doi:10.3390/rs14051056

Cited by 5 publications

(2 citation statements)

References 23 publications

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“…In such cases, the 30 m spatial resolution of Landsat imagery is inadequate to identify seasonal morphological changes and may not highlight the risk locations. The future version of the Dancing Rivers monitoring system will move towards adopting higher spatial resolution (10 m) with Sentinel-1 and Sentinel-2, which are increasingly used to identify seasonal morphological changes [59,60]. This will to some extent reduce the uncertainty associated with using 30 m Landsat data.…”

Section: Discussionmentioning

confidence: 99%

Assessment of Large-Scale Seasonal River Morphological Changes in Ayeyarwady River Using Optical Remote Sensing Data

et al. 2022

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Monitoring morphologically dynamic rivers over large spatial domains at an adequate frequency is essential for informed river management to protect human life, ecosystems, livelihoods, and critical infrastructures. Leveraging the advancements in cloud-based remote sensing data processing through Google Earth Engine (GEE), a web-based, freely accessible seasonal river morphological monitoring system for Ayeyarwady River, Myanmar was developed through a collaborative process to assess changes in river morphology over time and space. The monitoring system uses Landsat satellite data spanning a 31-year long period (1988–2019) to map river planform changes along 3881.4 km of river length including Upper Ayeyarwady, Lower Ayeyarwady, and Chindwin. It is designed to operate on a seasonal timescale by comparing pre-monsoon and post-monsoon channel conditions to provide timely information on erosion and accretion areas for the stakeholders to support planning and management. The morphological monitoring system was validated with 85 reference points capturing the field conditions in 2019 and was found to be reliable for operational use with an overall accuracy of 89%. The average eroded riverbank area was calculated at around 45, 101, and 134 km2 for Chindwin, Upper Ayeyarwady, and Lower Ayeyarwady, respectively. The historical channel change assessment aided us to identify and categorize river reaches according to the frequency of changes. Six hotspots of riverbank erosion were identified including near Mandalay city, the confluence of Upper Ayeyarwady and Chindwin, near upstream of Magway city, downstream of Magway city, near Pyay city, and upstream of the Ayeyarwady delta. The web-based monitoring system simplifies the application of freely available remote sensing data over the large spatial domain to assess river planform changes to support stakeholders’ operational planning and prioritizing investments for sustainable Ayeyarwady River management.

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Section: Discussionmentioning

confidence: 99%

Assessment of Large-Scale Seasonal River Morphological Changes in Ayeyarwady River Using Optical Remote Sensing Data

et al. 2022

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“…The alternate sandbar speed and its significance for navigation, environment, and water management can be investigated by using the Sentinel-1 and Sentinel-2 imagery [41,42].…”

Section: Image Classificationmentioning

confidence: 99%

An Eco-Study for a Feasible Project: “Torun and Its Vistula Stretch—An Important Green Navigation Spot on a Blue Inland Waterway”

Mănoiu

Crăciun

Kubiak-Wójcicka

et al. 2022

Water

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This paper aims to present the main trends of an eco-study for a possibly challenging future inland waterway transportation project. The study will prove if Torun and its Vistula stretch represent a viable and profitable spot on this inland waterway, and its outcomes will constitute a sound baseline that can be used for the project itself but also for many scientific, educational and economic purposes. The eco-multilayer research will comprise the following elements: hydrology and biology of the Torunian Vistula (TV) stretch, and water quality; a public opinion survey; the urban functions of the TV segment (social, educational, urban planning, aesthetical, recreational, cultural, utilitarian and economical). The conclusion is that the eco-research and the project will improve Torun City’s image as a Green Urban Space, in terms of respect towards the environment, a sustainable form of transport, and attractive ways of relaxation and spending leisure time by Torun’s population and visitors. The eco-study and the project will contribute to promoting the Torun region by supporting the possibility of watching beautiful landscapes (sightseeing tours) spread along the Vistula River. The project itself will have a positive impact on the Torunian economy and on the lifestyle of Torun’s citizens.

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Remote sensing based innovative solution of river morphology for better flood management

Chohan

Ahmad

Ashraf

et al. 2022

International Journal of Applied Earth Observation and Geoinfor

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Sentinel-1 Satellite Radar Images: A New Source of Information for Study of River Channel Dynamics on the Lower Vistula River, Poland

Cited by 5 publications

References 23 publications

Assessment of Large-Scale Seasonal River Morphological Changes in Ayeyarwady River Using Optical Remote Sensing Data

Assessment of Large-Scale Seasonal River Morphological Changes in Ayeyarwady River Using Optical Remote Sensing Data

An Eco-Study for a Feasible Project: “Torun and Its Vistula Stretch—An Important Green Navigation Spot on a Blue Inland Waterway”

Remote sensing based innovative solution of river morphology for better flood management

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