Sunday, December 11, 2022

Predicting future landscape of a river

A eco-morphodynamic modelling was performed to predict the future landscape evolution of an actual sandy, monsoon-driven river

Reports and Proceedings

NATIONAL RESEARCH COUNCIL OF SCIENCE & TECHNOLOGY

Vegetation dynamics in 2016 

IMAGE: VEGETATION DYNAMICS IN 2016 view more 

CREDIT: KOREA INSTITUTE OF CIVIL ENGINEERING AND BUILDING TECHNOLOGY

Climate change is changing the environmental condition of rivers; hence, it is no longer possible to manage modern rivers with methods that have been practiced under the past environmental conditions.

A joint research team, Korea Institute of Civil Engineering and Building Technology(KICT) and Deltares of the Netherlands, conducted a research on prediction of the future changes in river landscapes using an eco-morphodynamic model applied to an actual river. According to the study result, the vegetation cover increases continuously until 2031, and the area covered by willow trees occupies up to 20% of the river area. Using this modeling, efficiency in river management can be achieved by planning management practices in advance.

Eco-morphodynamic model developed by Deltares is a model that combines a vegetation model with Delft3D software, which is widely used in the field of river hydraulics. The Delft3D computes flow velocity, water depth and elevation of a riverbed. Then the vegetation model simulate the germination, settlement, growth and mortality of vegetation based on the Delft3D computation. Simultaneously, vegetation properties are converted to flow resistance and fed back into Delft3D.

KICT and Deltares applied the eco-morphodynamic model to Naeseongcheon Stream in Korea which belongs to a temperate monsoon climate region with large seasonal hydrological fluctuations. Most of the Naeseongcheon Stream has characteristics as a natural river. As its riverbed is mainly composed of sand, the movement due to hydrological fluctuations and consequently, the vegetation dynamics are active.

KICT has been conducting long-term monitoring including LiDAR and hydrological surveys and vegetation map production since 2012, before significant vegetation establishment in Naeseongcheon Stream began. These monitoring data were used to build and verify the eco-morphodynamic modelling. The modelling area is approximately 5 km long curved reach, located in the middle-lower section of the Naeseongcheon Stream. The width is approximately 300 m, and the grid of the model was constructed considering the actual vegetation distribution which had occurred narrowly along the shoreline.

After conducting a modelling for the past data(2012-2019 period), the results were compared with the observed data. Compared with the ratio of coverage of tree species in the land cover map made with aerial photos, the area fraction of willow trees in the model result had similar coverage ratio (In 2014, actual : 2.02%, model : 2.21%). In 2016, the model adequately reproduced the actual situation by simulating the survival and growth of vegetation in the spring and the mortality of vegetation after the flood.

Considering climate change scenario, the joint research team has performed a long-term modelling from 2012 to 2031. The vegetation cover continued to increase until 2031, and the area of trees reached 20% in 2031.

This eco-morphodynamic model, jointly performed by KICT and Deltares, is a fully coupled model that links the hydrology-vegetation-morphololgy and able to reproduce the actual phenomenon better than other models. It has the advantage of increasing the model's reliability through application and verification in the actual river with abundant observed data. With this model, we can predict future changes in river landscape as well as ecosystem diversity and potential flood risks due to vegetation development.

Dr. Lee said “This eco-morphodynamic model is able to aid decision making for implementing appropriate river and vegetation management by simulating the landscape of future rivers according to climate change, though it needs continuous improvement to reflect the complexity of real rivers.”

 

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The Korea Institute of Civil Engineering and Building Technology (KICT) is a government sponsored research institute established to contribute to the development of Korea’s construction industry and national economic growth by developing source and practical technology in the fields of construction and national land management.

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