Open Access
E3S Web Conf.
Volume 40, 2018
River Flow 2018 - Ninth International Conference on Fluvial Hydraulics
Article Number 04002
Number of page(s) 8
Section Sediment and pollutant dynamics in rivers
Published online 05 September 2018
  1. L. Calabrese, S. Lorito. Mappatura della linea di riva da foto aerea. In: Perini, L., Calabrese, L. (Eds.), Il sistema mare-costa dell'Emilia-Romagna. Pendragon, Bologna, Italy, 43-56. (2010) [Google Scholar]
  2. C. Armaroli, P. Ciavola, L. Perini, S. Lorito, A. Valentini, M. Masina. Critical storm thresholds for significant morphological changes and damage along the Emilia-Romagna coastline, Italy. Geomorphology 143-144, 34-51 (2012) [CrossRef] [Google Scholar]
  3. J. D. Milliman, J. P. M. Syvitski. Geomorphic tectonic control of sediment discharge to the ocean: the importance of small mountainous rivers. J. Geol. 100, 525-544. (1992) [Google Scholar]
  4. D.L. Inman, S.A. Jenkins. Climate change and episodicity of sediment flux of small California rivers. J. Geol. 107, 251-270. (1999) [CrossRef] [Google Scholar]
  5. D. L. Inman, S. A. Jenkins. The Nile littoral cell and man's impact on the coastal zone of the southeastern Mediterranean. Proc. 19th Conf. Coastal Engineering Conf, Amer. Soc. Civil Eng., 2, 1600-1617. (1984) [Google Scholar]
  6. D. L. Inman. Budget of sand southern California: river discharge vs cliff erosion. Proc. from a Conference on Coastal Erosion, California Coastal Commission, 10-15. (1985) [Google Scholar]
  7. G.M. Kondolf. Hungry water: effects of dams and gravel mining on river channels. Environ. Manage. 21 (4), 533-551. (1997) [Google Scholar]
  8. F. Liebault, H. Piegay. Assessment of channel changes due to long-term bedload supply decrease, Roubion River, France. Geomorphology 36, 167-186. (2001) [CrossRef] [Google Scholar]
  9. G.E. Grant, J.C. Schmidt, S.L. Lewis. A geological framework for interpreting downstream effects of dams on rivers. In: O'Connor, J.E. & Grant G.E. (eds): A Peculiar River: Geology, Geomorphology, and Hydrology of the Deschutes River, Oregon. Water Sci. Appl. 7, 203- 219. (2003) [Google Scholar]
  10. J.M. Hooke. Human impacts on fluvial systems in the Mediterranean region. Geomorphology 79, 311-335. (2006) [CrossRef] [Google Scholar]
  11. E.J. Anthony. The Human influence on the Mediterranean coast over the last 200 years: a brief appraisal from a geomorphological perspective. Geomorphologie 20 (3), 219-226. (2014) [CrossRef] [Google Scholar]
  12. P. Billi, M. Fazzini. Global change and river flow in Italy. Global Planet. Change. 155C, 234-246. (2017) [CrossRef] [Google Scholar]
  13. P. Billi, E. Salemi. Misura delle portate solide in sospensione al fondo del F. Reno. Arpa Rivista, supplemento al n.6, 8-15. (2004) [Google Scholar]
  14. P. Ciavola, P. Billi, C. Armaroli, E. Preciso, E. Salemi, Y. Balouin. Morphodynamics of the Bevano Stream outlet: the role of bedload yield. Geologia Tecnica e Ambientale 1, 41-57. (2005) [Google Scholar]
  15. P. Ciavola, E. Salemi, P. Billi. Sediment supply and morphological evolution of a small river mouth (Fiumi Uniti, Ravenna, Italy): should river management be storm-driven? In: Barazzutti, M., Marabini, F. China-Italy Bilateral Symposium on the Coastal Zone and Continental Shelf Evolution Trend. 104-113, Bologna, Albisani Editore (2010) [Google Scholar]
  16. P. Billi, E. Salemi, E. Preciso, P. Ciavola, C. Armaroli. Field measurement of bedload in a sand-bed river supplying a sediment starving beach. Zeitschrift für Geomorphologie. (2017) [Google Scholar]
  17. A. Amorosi, M.C. Centineo, E. Dinelli, F. Lucchini, F. Tateo. Geochemical and mineralogical variations as indicators of provenance changes in Late Quaternary deposits of SE Po Plain. Sed. Geol. 151, 273-292 (2002) [CrossRef] [Google Scholar]
  18. C. Mennella. Il clima d'Italia: volume secondo, F.lli Conte Editori, Napoli, Italia. (1972) [Google Scholar]
  19. A. Shields. Application of Similarity Principles and Turbulence Research to Bed-Load Movement. California Institute of Technology, Pasadena (Translated from German). (1936) [Google Scholar]
  20. W. R. Brownlie. Prediction of flow depth and sediment discharge in open channels. Report No. KH-R-43A, California Institute of Technology, W. M. Keck Laboratory, Pasedena, CA, 232 pp. (1981) [Google Scholar]
  21. J.M. Simoes. Shear velocity criterion for incipient motion of sediment. Water Sci. Eng. 7(2), 183-193. (2014) [Google Scholar]
  22. P.A. Carling. Threshold of coarse sediment transport in broad an narrow natural streams. Earth Surf. Processes 8, 1-18. (1983) [CrossRef] [Google Scholar]
  23. F.D.C. Hammond, A.D. Heathershaw, D.N. Langhorne. A comparison between Shields' threshold criterion and the movement of loosely packed gravel in a tidal channel. Sedimentology 31, 51-62. (1984) [CrossRef] [Google Scholar]
  24. M.S. Lorang, F. R. Hauer. Flow competence and streambed stability: an evaluation of technique and application. J. N. Am. Benthol. Soc. 22(4), 475-491. (2003) [CrossRef] [Google Scholar]
  25. R. A. Bagnold. An empirical correlation of bedload transport rates in flumes and natural rivers. Proc. of the Royal Society of London A372,453-473. (1980) [CrossRef] [Google Scholar]
  26. C. Parker, N. J. Clifford, C.R. Thorne. Shear velocity criterion for incipient motion of sediment. Geomorphology. 126, 51-56. (2011) [CrossRef] [Google Scholar]
  27. P.Y. Julien. Erosion and sedimentation. Cambridge University Press, Cambridge. (1995) [CrossRef] [Google Scholar]
  28. E.J. Hickin. River Geomorphology. , 70-107. (2010) [Google Scholar]

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