Closure to “Trapping Large Wood Debris in Rivers: Experimental Study of Novel Debris Retention System” by Diego Panici and Prakash Kripakaran
This article is a reply.
VIEW THE ORIGINAL ARTICLEPublication: Journal of Hydraulic Engineering
Volume 148, Issue 5
Get full access to this article
View all available purchase options and get full access to this article.
References
Abbe, T. B., and D. Montgomery. 1996. “Large woody debris jams, channel hydraulics and habitat formation in large rivers.” Regulated Rivers 12 (2–3): 201–221. https://doi.org/10.1002/(SICI)1099-1646(199603)12:2/3%3C201::AID-RRR390%3E3.0.CO;2-A.
Diehl, T. H. 1997. Potential drift accumulation at bridges. Washington, DC: Federal Highway Administration.
Ebrahimi, M., S. Djordjević, D. Panici, G. Tabor, and P. Kripakaran. 2020. “A method for evaluating local scour depth at bridge piers due to debris accumulation.” Instit. Civ. Eng. Bridge Eng. 173 (2): 86–99. https://doi.org/10.1680/jbren.19.00045.
Gurnell, A. M., J. England, and L. Burgessgamble. 2019. “Trees and wood: Working with natural river processes.” Water Environ. J. 33 (3): 342–352. https://doi.org/10.1111/wej.12426.
Lagasse, P., P. Colopper, L. Zevenbergen, W. Spitz, and L. Girard. 2010. Effects of debris on bridge pier scour. Washington, DC: National Cooperative Highway Research Program.
Lassettre, N. S., and G. M. Kondolf. 2012. “Large woody debris in urban stream channels: Redefining the problem.” River Res. Appl. 28 (9): 1477–1487. https://doi.org/10.1002/rra.1538.
Panici, D. 2021. “An experimental and numerical approach to modeling large wood displacement in rivers.” Water Resour. Res. 57 (7): e2021WR029860. https://doi.org/10.1029/2021WR029860.
Panici, D., and G. A. M. de Almeida. 2018. “Formation, growth, and failure of debris jams at bridge piers.” Water Resour. Res. 54 (9): 6226–6241. https://doi.org/10.1029/2017WR022177.
Panici, D., P. Kripakaran, S. Djordjević, and K. Dentith. 2020. “A practical method to assess risks from large wood debris accumulations at bridge piers.” Sci. Total Environ. 728 (Aug): 138575. https://doi.org/10.1016/j.scitotenv.2020.138575.
Rickard, C., R. Day, and J. Purseglove. 2003. River Weirs—Good practice guide. London: Environment Agency, DEFRA.
Schalko, I., L. Schmocker, V. Weitbrecht, and R. M. Boes. 2019. “Risk reduction measures of large wood accumulations at bridges.” Environ. Fluid Mech. 20 (3): 485–502. https://doi.org/10.1007/s10652-019-09719-4.
Thomas, H., and T. Nisbet. 2007. “Modelling the hydraulic impact of reintroducing large woody debris into watercourses.” J. Flood Risk Manage. 5 (2): 164–174. https://doi.org/10.1111/j.1753-318X.2012.01137.x.
Wohl, E., B. P. Bledsoe, K. D. Fausch, N. Kramer, K. R. Bestgen, and M. N. Gooseff. 2016. “Management of large wood in streams: An overview and proposed framework for hazard evaluation.” J. Am. Water Resour. Assoc. 52 (2): 315–335. https://doi.org/10.1111/1752-1688.12388.
Information & Authors
Information
Published In
Copyright
© 2022 American Society of Civil Engineers.
History
Received: Aug 6, 2021
Accepted: Dec 22, 2021
Published online: Feb 16, 2022
Published in print: May 1, 2022
Discussion open until: Jul 16, 2022
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.