Noss, Christian; Wilkinson, Jeremy; Lorke, Andreas
Triangulation hand-held laser-scanning (TriHaLaS) for micro- and meso-habitat surveys in streamsEarth Surface Processes and Landforms. Bd. 43. H. 6. Wiley 2018 S. 1241 - 1251
Brand, Andreas; Noss, Christian
High-resolution flow characterization close to the sediment-water interface in a run of the river reservoirWater Resources Research. Bd. 53. H. 5. American Geophysical Union (AGU) 2017 S. 4286 - 4302
Koca, Kaan; Noss, Christian; Anlanger, Christine et al.
Performance of the Vectrino Profiler at the sediment-water interfaceJOURNAL OF HYDRAULIC RESEARCH. Bd. 55. H. 4. 2017 S. 573 - 581
Risse-Buhl, Ute; Anlanger, Christine; Kalla, Katalin et al.
The role of hydrodynamics in shaping the composition and architecture of epilithic biofilms in fluvial ecosystemsWATER RESEARCH. Bd. 127. 2017 S. 211 - 222
Lemaire, Bruno J.; Noss, Christian; Lorke, Andreas
Toward relaxed eddy accumulation measurements of sediment-water exchange in aquatic ecosystemsGEOPHYSICAL RESEARCH LETTERS. Bd. 44. H. 17. 2017 S. 8901 - 8909
Brand, Andreas; Noss, Christian; Dinkel, Christian et al.
High-Resolution Measurements of Turbulent Flow Close to the Sediment–Water Interface Using a Bistatic Acoustic ProfilerJ. Atmos. Oceanic Technol. Bd. 33. H. 4. American Meteorological Society 2016 S. 769 - 788
Noss, Christian; Lorke, Andreas
Roughness, resistance, and dispersion: Relationships in small streamsWATER RESOURCES RESEARCH. Bd. 52. H. 4. 2016 S. 2802 - 2821
Donis, Daphne; Holtappels, M.; Noss, C. et al.
An Assessment of the Precision and Confidence of Aquatic Eddy Correlation MeasurementsJournal of Atmospheric and Oceanic Technology. Bd. 32. H. 3. 2015 S. 642 - 655
Donis, Daphne; Holtappels, Moritz; Noss, Christian et al.
An Assessment of the Precision and Confidence of Aquatic Eddy Correlation MeasurementsJOURNAL OF ATMOSPHERIC AND OCEANIC TECHNOLOGY. Bd. 32. H. 3. 2015 S. 642 - 655
Holtappels, M.; Noss, C.; Hancke, Kasper et al.
Aquatic Eddy Correlation: Quantifying the Artificial Flux Caused by Stirring-Sensitive O2 SensorsPLOS One. Bd. 10. H. 1. 2015 S. e0116564