Sediment patterns near a model patch of reedy emergent vegetation EM Follett, HM Nepf Geomorphology 179, 141-151, 2012 | 169 | 2012 |
Momentum and energy predict the backwater rise generated by a large wood jam E Follett, I Schalko, H Nepf Geophysical Research Letters 47 (17), e2020GL089346, 2020 | 43 | 2020 |
Strong and weak, unsteady reconfiguration and its impact on turbulence structure within plant canopies Y Pan, E Follett, M Chamecki, H Nepf Physics of Fluids 26 (10), 2014 | 36 | 2014 |
Evaluation of a random displacement model for predicting particle escape from canopies using a simple eddy diffusivity model E Follett, M Chamecki, H Nepf Agricultural and Forest Meteorology 224, 40-48, 2016 | 19 | 2016 |
Logjams With a Lower Gap: Backwater Rise and Flow Distribution Beneath and Through Logjam Predicted by Two‐Box Momentum Balance E Follett, I Schalko, H Nepf Geophysical Research Letters 48 (16), e2021GL094279, 2021 | 18 | 2021 |
Canopy-mediated hydrodynamics contributes to greater allelic richness in seeds produced higher in meadows of the coastal eelgrass Zostera marina E Follett, CG Hays, H Nepf Frontiers in Marine Science 6, 8, 2019 | 11 | 2019 |
Investigation of effect of logjam series for varying channel and barrier physical properties using a sparse input data 1D network model E Follett, B Hankin Environmental Modelling & Software 158, 105543, 2022 | 10 | 2022 |
Particle retention in a submerged meadow and its variation near the leading edge E Follett, H Nepf Estuaries and coasts 41, 724-733, 2018 | 10 | 2018 |
Bedload sediment transport induced by channel-spanning instream structures E Follett, C Wilson River Flow 2020: Proceedings of the 10th Conference on Fluvial Hydraulics …, 2020 | 6 | 2020 |
Ecological dissertations in the aquatic sciences: an effective networking and professional development opportunity for early career aquatic scientists PT Kelly, T Bell, AJ Reisinger, TL Spanbauer, LE Bortolotti, JA Brentrup, ... Limnology and Oceanography Bulletin 26 (2), 25-30, 2017 | 5 | 2017 |
Influence of channel‐spanning engineered logjam structures on channel hydrodynamics S Müller, EM Follett, P Ouro, C Wilson Water Resources Research 58 (12), e2022WR032111, 2022 | 3 | 2022 |
Impact of lateral gap on flow distribution, backwater rise, and turbulence generated by a logjam I Schalko, E Follett, H Nepf Water Resources Research 59 (10), e2023WR034689, 2023 | 2 | 2023 |
Working for the environment: farmer attitudes towards sustainable farming actions in rural Wales, UK E Follett, L Davis, C Wilson, J Cable Environment, Development and Sustainability, 1-20, 2024 | 1 | 2024 |
The importance of retention times in Natural Flood Management interventions E Follett, K Beven, D Mindham, B Hankin, N Chappell | 1 | 2023 |
Energy losses induced by channel-spanning brush accumulations E Follett, I Schalko, H Nepf APS Division of Fluid Dynamics Meeting Abstracts, M02. 045, 2019 | 1 | 2019 |
Determining Surface Velocity Coefficients in Headwater Streams for Natural Flood Management J Little, S Pan, E Follett Engineering Research Conference 2023 6, 70, 2024 | | 2024 |
Reply to comment by Poppema and Wüthrich on “momentum and energy predict the backwater rise generated by a large wood jam” E Follett, I Schalko, H Nepf Geophysical Research Letters 51 (8), e2024GL108808, 2024 | | 2024 |
The importance of retention times in Natural Flood Management interventions E Follett, K Beven, B Hankin, D Mindham, N Chappell Proceedings of IAHS 385, 197-201, 2024 | | 2024 |
Large protistan mixotrophs in the North Atlantic Continuous Plankton Recorder time series: associated environmental conditions and trends K Stamieszkin, NC Millette, JY Luo, E Follett, NR Record, DG Johns Frontiers in Marine Science 11, 1320046, 2024 | | 2024 |
Using Acousmatic storytelling for flood risk engagement in unreached communities A Ockelford, J Schauerman, J MacRitchie, E Follett, M Klaar, K Parsons, ... EGU24, 2024 | | 2024 |