Outputs (27)

Correlating floodplain geochemical profiles with archival historical mining records to establish depositional chronologies of river sediment (2022)
Journal Article
Parker, A., Milan, D. J., & McEwen, L. (2022). Correlating floodplain geochemical profiles with archival historical mining records to establish depositional chronologies of river sediment. CATENA, 218, Article 106532. https://doi.org/10.1016/j.catena.2022.106532

Chronological markers in fluvial sediments can provide useful information on geomorphic response to historic catchment disturbance, and help explain historic channel morphodynamics. We concentrate on the River Nent catchment in Northern England, whic... Read More about Correlating floodplain geochemical profiles with archival historical mining records to establish depositional chronologies of river sediment.

Modelling differential geomorphic effectiveness in neighbouring upland catchments: implications for sediment and flood risk management in a wetter world (2021)
Journal Article
Milan, D. J. (2021). Modelling differential geomorphic effectiveness in neighbouring upland catchments: implications for sediment and flood risk management in a wetter world. Progress in physical geography, https://doi.org/10.1177/03091333211045514

In July 2007 an intense summer storm resulted in significant activation of the sediment system in the Thinhope Burn, UK. Catchment- and reach-scale morphodynamic modelling is used to investigate the geomorphic work undertaken by Thinhope Burn; compar... Read More about Modelling differential geomorphic effectiveness in neighbouring upland catchments: implications for sediment and flood risk management in a wetter world.

Climate‐change driven increased flood magnitudes and frequency in the British uplands: geomorphologically informed scientific underpinning for upland flood‐risk management (2021)
Journal Article
Milan, D. J., & Schwendel, A. C. (2021). Climate‐change driven increased flood magnitudes and frequency in the British uplands: geomorphologically informed scientific underpinning for upland flood‐risk management. Earth surface processes and landforms : the journal of the British Geomorphological Research Group, https://doi.org/10.1002/esp.5206

Upland river systems in the UK are predicted to be prone to the effects of increased flood magnitudes and frequency, driven by climate change. It is clear from recent events that some headwater catchments can be very sensitive to large floods, activa... Read More about Climate‐change driven increased flood magnitudes and frequency in the British uplands: geomorphologically informed scientific underpinning for upland flood‐risk management.

Geomorphological numerical modelling of woody dams in CAESAR-Lisflood (2021)
Presentation / Conference
Wolstenholme, J., Skinner, C., Milan, D., & Parsons, D. (2021, April). Geomorphological numerical modelling of woody dams in CAESAR-Lisflood. Poster presented at EGU General Assembly 2021 (European Geosciences Union), vEGU21: Gather Online

Natural flood management (NFM) promotes the sustainable enhancement of natural fluvial processes to reduce flooding (SEPA, 2015; Wilkinson et al., 2019), and is increasingly popular for use by community groups, contractors and governments (Kay et al.... Read More about Geomorphological numerical modelling of woody dams in CAESAR-Lisflood.

A Field Guide to British Rivers (2021)
Book
Heritage, G., Large, A., & Milan, D. (2021). A Field Guide to British Rivers. Chichester: John Wiley and Sons. https://doi.org/10.1002/9781118488034

Temperate rivers are influenced by many factors including geology, climate, soils, sediment type, flow, as well as human activity. The complex interactions of the non-anthropogenic controlling factors have led to a wonderful diversity of river type t... Read More about A Field Guide to British Rivers.

Uncertainty in parameterizing floodplain forest friction for natural flood management, using remote sensing (2020)
Journal Article
Antonarakis, A. S., & Milan, D. J. (2020). Uncertainty in parameterizing floodplain forest friction for natural flood management, using remote sensing. Remote Sensing, 12(11), 1799. https://doi.org/10.3390/rs12111799

One potential Natural Flood Management (NFM) 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 resist... Read More about Uncertainty in parameterizing floodplain forest friction for natural flood management, using remote sensing.

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), Article 1799. 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.

Topographic, hydraulic, and vegetative controls on bar and island development in mixed bedrock-alluvial, multi-channeled, dryland rivers (2020)
Journal Article
Milan, D. J., Tooth, S., & Heritage, G. (2020). Topographic, hydraulic, and vegetative controls on bar and island development in mixed bedrock-alluvial, multi-channeled, dryland rivers. Water Resources Research, 56(5), Article e2019WR026101. https://doi.org/10.1029/2019WR026101

We investigate processes of bedrock-core bar and island development in a bedrock-influenced anastomosed reach of the Sabie River, Kruger National Park (KNP), eastern South Africa. For sites subject to alluvial stripping during an extreme flood event... Read More about Topographic, hydraulic, and vegetative controls on bar and island development in mixed bedrock-alluvial, multi-channeled, dryland rivers.

Terrestrial structure-from-motion: spatial error analysis of roughness and morphology (2019)
Journal Article
Schwendel, A. C., Schwendel, A., & Milan, D. J. (2020). Terrestrial structure-from-motion: spatial error analysis of roughness and morphology. Geomorphology, 350, Article 106883. https://doi.org/10.1016/j.geomorph.2019.106883

Structure-from-Motion (SfM) photogrammetry is rapidly becoming a key tool for morphological characterisation and change detection of the earth surface. This paper demonstrates the use of Terrestrial Structure-from-Motion (TSfM) photogrammetry to acqu... Read More about Terrestrial structure-from-motion: spatial error analysis of roughness and morphology.

Ecohydraulic modelling of anabranching rivers (2019)
Journal Article
Entwistle, N., Heritage, G., & Milan, D. (2019). Ecohydraulic modelling of anabranching rivers. River Research and Applications, 35(4), 353-364. https://doi.org/10.1002/rra.3413

In this paper we provide the first quantitative evidence of the spatial complexity of habitat diversity across the flow regime for locally anabranching channels and their potential increased biodiversity value in comparison to managed single‐thread r... Read More about Ecohydraulic modelling of anabranching rivers.