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A novel mixing mechanism in sinuous seafloor channels: Implications for submarine channel evolution (2017)
Journal Article
Dorrell, R. M., Peakall, J., Burns, C., & Keevil, G. M. (2018). A novel mixing mechanism in sinuous seafloor channels: Implications for submarine channel evolution. Geomorphology, 303, 1-12. https://doi.org/10.1016/j.geomorph.2017.11.008

Previous experimental studies of density currents in sinuous seafloor channels have almost exclusively studied hydrodynamics either by considering time independent, instantaneous, flow measurements or by compiling time-averaged flow measurements. Her... Read More about A novel mixing mechanism in sinuous seafloor channels: Implications for submarine channel evolution.

Novel 3D sequence stratigraphic numerical model for syn-rift basins : analysing architectural responses to eustasy, sedimentation and tectonics (2017)
Journal Article
Barrett, B., Hodgson, D. M., Collier, R., & Dorrell, R. (2018). Novel 3D sequence stratigraphic numerical model for syn-rift basins : analysing architectural responses to eustasy, sedimentation and tectonics. Marine and Petroleum Geology, 92, 270-284. https://doi.org/10.1016/j.marpetgeo.2017.10.026

Syn-rift clastic sedimentary systems preserve a complicated stratigraphic architecture that records the interplay of tectonics, eustatic sea level and storage and routing of sediments. Previous conceptual models describe and explain changes in deposi... Read More about Novel 3D sequence stratigraphic numerical model for syn-rift basins : analysing architectural responses to eustasy, sedimentation and tectonics.

Pulse propagation in turbidity currents (2017)
Journal Article
Ho, V. L., Dorrell, R. M., Keevil, G. M., Burns, A. D., & McCaffrey, W. D. (2018). Pulse propagation in turbidity currents. Sedimentology, 65(2), 620-637. https://doi.org/10.1111/sed.12397

© 2017 The Authors. Sedimentology © 2017 International Association of Sedimentologists Submarine turbidity currents are a key mechanism in the transportation of clastic sediments to deep seas. Such currents may initiate with a complex longitudinal fl... Read More about Pulse propagation in turbidity currents.

A 3D forward stratigraphic model of fluvial meander-bend evolution for prediction of point-bar lithofacies architecture (2017)
Journal Article
Yan, N., Mountney, N. P., Colombera, L., & Dorrell, R. M. (2017). A 3D forward stratigraphic model of fluvial meander-bend evolution for prediction of point-bar lithofacies architecture. Computers & geosciences, 105, 65-80. https://doi.org/10.1016/j.cageo.2017.04.012

© 2017 Elsevier Ltd Although fundamental types of fluvial meander-bend transformations – expansion, translation, rotation, and combinations thereof – are widely recognised, the relationship between the migratory behaviour of a meander bend, and its r... Read More about A 3D forward stratigraphic model of fluvial meander-bend evolution for prediction of point-bar lithofacies architecture.