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Uncertainty in parameterising floodplain forest friction for Natural Flood Management, using remote sensing (2020)
Journal Article
Antonarakis, A., & Milan, D. (2020). Uncertainty in parameterising floodplain forest friction for Natural Flood Management, using remote sensing. Remote Sensing, 12(11), https://doi.org/10.3390/rs12111799

One potential Natural Flood Management option is floodplain reforestation or manage existing riparian forests, with a view to increasing flow resistance and attenuate flood hydrographs. However, the effectiveness of floodplain forests as resistance a... Read More about Uncertainty in parameterising floodplain forest friction for Natural Flood Management, using remote sensing.

Individual-based model of juvenile eel movement parametrized with computational fluid dynamics-derived flow fields informs improved fish pass design (2020)
Journal Article
Padgett, T. E., Borman, D. J., Mould, D. C., Padgett, T., Thomas, R. E., Borman, D., & Mould, D. (2020). Individual-based model of juvenile eel movement parametrized with computational fluid dynamics-derived flow fields informs improved fish pass design. Royal Society Open Science, 7(1), https://doi.org/10.1098/rsos.191505

European eel populations have declined markedly in recent decades, caused in part by in-stream barriers, such as weirs and pumping stations, which disrupt the upstream migration of juvenile eels, or elvers, into rivers. Eel passes, narrow sloping cha... Read More about Individual-based model of juvenile eel movement parametrized with computational fluid dynamics-derived flow fields informs improved fish pass design.

River bank instability from unsustainable sand mining in the lower Mekong River (2020)
Journal Article
Houseago, R. C., Nicholas, A. P., Best, J. L., Darby, S. E., Hackney, C. R., Darby, S., …Houseago, R. (2020). River bank instability from unsustainable sand mining in the lower Mekong River. Nature Sustainability, 3(3), 217-225. https://doi.org/10.1038/s41893-019-0455-3

Recent growth of the construction industry has fuelled demand for sand, with considerable volumes being extracted from the world’s large rivers. Sediment transport from upstream naturally replenishes sediment stored in river beds, but the absence of... Read More about River bank instability from unsustainable sand mining in the lower Mekong River.



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