Increased scale and accessibility of sediment transport research in rivers through practical, open-source turbidity and depth sensors-Reference-Cited by-同舟云学术

Increased scale and accessibility of sediment transport research in rivers through practical, open-source turbidity and depth sensors

Published:2023-09-04 Issue:9 Volume:1 Page:760-768
ISSN:2731-6084
Container-title:Nature Water
language:en
Short-container-title:Nat Water

Author:

Langhorst Theodore^ORCID,Pavelsky Tamlin,Eidam Emily,Cooper Lillian^ORCID,Davis Julianne^ORCID,Spellman Katie^ORCID,Clement Sarah,Arp Christopher^ORCID,Bondurant Allen,Friedmann Elisa^ORCID,Gleason Colin^ORCID

Funder

National Science Foundation

Publisher

Springer Science and Business Media LLC

Link

https://www.nature.com/articles/s44221-023-00124-2.pdf

Reference36 articles.

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2. Leopold, L. B. & Maddock, T. The Hydraulic Geometry of Stream Channels and Some Physiographic Implications Vol. 252 (US Government Printing Office, 1953).

3. Gray, J. R. & Simões, F. J. Estimating sediment discharge. in Sedimentation Engineering: Processes, Measurements, Modeling, and Practice, Series no. 110, 1067–1088 (American Society of Civil Engineers, 2008).

4. Morehead, M. D., Syvitski, J. P., Hutton, E. W. H. & Peckham, S. D. Modeling the temporal variability in the flux of sediment from ungauged river basins. Global Planet. Change 39, 95–110 (2003).

5. Chikita, K. A., Wada, T., Kudo, I. & Kim, Y. The intra-annual variability of discharge, sediment load and chemical flux from the monitoring: the Yukon River, Alaska. JWARP 04, 173–179 (2012).

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