| 1. | Assessing the Viability of Complex Electrical Impedance Tomography (EIT) with a Spatially Distributed Sensor Array for Imaging of River Bed Morphology: a Proof of Concept (Study) | 1389 | 486 |
| 2. | Quantifying Sediment Sources in Lowlying Sugarcane Land: A Sediment Budget Approach. | 613 | |
| 3. | Quantifying Submerged Fluvial Topography Using Hyperspatial Resolution UAS Imagery and Structure From Motion Photogrammetry. | 547 | 551 |
| 4. | Quantifying Fluvial Topography Using UAS Imagery and SfM-Photogrammetry. | 543 | 122 |
| 5. | Erosion and Deposition Rates on ‘Headlands’ in Low- Gradient Sugarcane Land in Australia | 533 | |
| 6. | Detecting Submerged Macrophytes in a UK Chalk Stream Using Field Spectroscopy | 530 | |
| 7. | A Sediment Budget for a Cultivated Floodplain in Tropical North Queensland, Australia. | 502 | |
| 8. | The Day Roads Became Rivers: A GIS-Based Assessment of Flash Floods in Worcester | 488 | 4 |
| 9. | An Evaluation of the Spatial Configuration and Temporal Dynamics of Hydraulic River Habitats | 462 | 91 |
| 10. | A Framework for Evaluating the Spatial Configuration and Temporal Dynamics of Hydraulic Patches | 432 | |
| 11. | Optical Remote Sensing of Submerged Aquatic Vegetation: Opportunities for Shallow Clearwater Streams | 415 | 191 |
| 12. | Object-based Analysis and Multispectral Low-altitude Remote Sensing for Low-cost Mapping of Chalk Stream Macrophytes | 412 | 90 |
| 13. | Depth Estimation of Submerged Aquatic Vegetation in Clear Water Streams Using Low-Altitude Optical Remote Sensing | 400 | 86 |
| 14. | Global application of an unoccupied aerial vehicle photogrammetry protocol for predicting aboveground biomass in non-forest ecosystems | 397 | 160 |
| 15. | Mapping of Submerged Aquatic Vegetation in Rivers From Very High Resolution Image Data, Using Object Based Image Analysis Combined with Expert Knowledge | 384 | 271 |
| 16. | Rapid Mapping of Urban Development from Historic Ordnance Survey Maps: an Application for Pluvial Flood Risk in Worcester | 365 | |
| 17. | Sediment Budget for Cane Land on the Lower Herbert River Floodplain, North Queensland, Australia | 350 | 155 |
| 18. | Incorporating Hydrodynamics into Ecohydraulics: The Role of Turbulence in the Swimming Performance and Habitat Selection of Stream-Dwellling Fish | 348 | |
| 19. | Application of Hyperspectral Image Data for Species Detection and Biomass Estimation of Submerged Macrophytes in UK Chalk Streams | 347 | 88 |
| 20. | Mapping the Spatio-temporal Distribution of Key Vegetation Cover Properties in Lowland River Reaches, Using Digital Photography | 340 | 141 |
| 21. | Hydrodynamic Variability in the Physical Biotopes of a Trout Stream | 338 | 48 |
| 22. | The Accuracy and Reliability of Traditional Surface Flow Type Mapping: Is It Time for A New Method of Characterising Physical River Habitat? | 335 | 94 |
| 23. | Quantifying Fluvial Substrate Size using Hyperspatial Resolution UAS Imagery and SfM-photogrammetry | 312 | 6 |
| 24. | High Resolution Remote Sensing of Water Surface Patterns | 269 | 61 |
| 25. | An Evaluation of a Low-cost Pole Aerial Photography (PAP) and Structure From Motion (SfM) Approach for Topographic Surveying of Small Rivers | 267 | 84 |
| 26. | High Resolution Remote Sensing from a UAV for Quantifying Fluvial Topography | 257 | 143 |
| 27. | What is a Macrophyte Patch? Patch Identification in Aquatic Ecosystems and Guidelines for Consistent Delineation | 255 | 163 |
| 28. | Development of a Knowledge Driven Rule Set for Classification of Submerged Aquatic Vegetation (SAV) in a Clear Water Stream: Where Do You Draw the Boundaries...? | 216 | 2 |
| 29. | Mapping stress in submerged aquatic vegetation using multispectral imagery and structure from motion photogrammetry | 97 | |
| 30. | Assessing monthly habitat quality for bumblebees in grasslands using a habitat trait model: a case study in Worcestershire, UK | 59 | 22 |