| 1. | Quantifying Submerged Fluvial Topography Using Hyperspatial Resolution UAS Imagery and Structure From Motion Photogrammetry. | 548 | 551 |
| 2. | Quantifying Fluvial Topography Using UAS Imagery and SfM-Photogrammetry. | 544 | 122 |
| 3. | Quantifying Physical River Habitat Parametres Using Hyperspatial Resolution UAS Imagery and SfM-photogrammetry | 368 | 346 |
| 4. | The Accuracy and Reliability of Traditional Surface Flow Type Mapping: Is It Time for A New Method of Characterising Physical River Habitat? | 336 | 95 |
| 5. | Quantifying Fluvial Substrate Size using Hyperspatial Resolution UAS Imagery and SfM-photogrammetry | 312 | 6 |
| 6. | Bathymetric Structure from Motion: Change Detection and Technical Improvements | 299 | 3 |
| 7. | Subaerial Gravel Size Measurement Using Topographic Data Derived From a UAV-SfM Approach | 288 | 363 |
| 8. | Drones and Digital Photogrammetry: From Classifications to Continuums for Monitoring River Habitat and Hydromorphology | 277 | 127 |
| 9. | High Resolution Remote Sensing of Water Surface Patterns | 269 | 61 |
| 10. | An Evaluation of a Low-cost Pole Aerial Photography (PAP) and Structure From Motion (SfM) Approach for Topographic Surveying of Small Rivers | 267 | 84 |
| 11. | Drones for River Habitat Assessment? A Report from the International Symposium on Ecohydraulics | 262 | 199 |
| 12. | High Resolution Remote Sensing from a UAV for Quantifying Fluvial Topography | 257 | 143 |
| 13. | From Manned to Unmanned Aircraft: Adapting Airborne
Particle Size Mapping Methodologies to the Characteristics
of sUAS and SfM | 238 | 476 |