. .. Introduction, 2.3 Sédiments de la retenue de Saint Martin La Porte, vol.134, 2011.

M. .. Mesures-de-la-vitesse-de-chute-des, 141 6.3.1 Motivation, bibliographie et choix de la méthode, p.151

, Analyse

.. .. Conclusions,

, Mise enéquation du transport, intégration et hypothèses . . 174 7.2.1 Equations pour l'hydrodynamique

. .. Principes, 181 7.3.2 Une modélisation desécoulements en lit composés : la formulation Debord

.. .. Conclusion,

. .. Introduction, 196 8.2 Données topographiques, géométrie et maillage

. .. Construction-du-modèle-hydraulique, 202 8.3.1 Choix des conditions aux limites

. .. Calage, , 2010.

.. .. Conclusions,

. .. Introduction, 2.2 Rôle des bancs alternés dans le transport des MES sur le site Arc-Isère, vol.214

, Calcul de la contrainte en lit composé

, Application du modèle de transport en lit composéà la crue de mai, 2010.

. .. Conclusions,

. .. Modélisation-d'épisodes-réels-de-chasse-de-barrage, 240 10.3.1 Choix d'un jeu de paramètres réalistes pour modéliser les chasses de barrage

, 246 10.4.1 Les conditions initiales de débit sur l'Isère, 2010.

.. .. Conclusions,

, Or, on remarque pour la chasse de 2011 que le dépôt mesuré en aval de la confluence Arc-Isère est très bien reproduit par le modèle C1. Ces résultats appellent d'autres résultats de mesure présentés dans le Chapitre 6. En effet, des mesures de vitesse de chute réalisées pendant la chasse de barrage de juin 2011 ont montré uneévolution spatiale du paramètre de vitesse de chute entre les sites A5, A1 et I1 (voir Annexe A pour les sites de mesure), Pour des raisons explicitées plus haut dans le texte, le modèle C1 a tendanceà surestimer les flux de dépôt au niveau des bancs végétalisés

, Celle-ci indique en effet une remise en suspension très importante entre les sites de mesure A3 et A1, suivi d'un dépôt très significatif juste en aval, entre les sites A1 et I3. Ces deux résultats montrent que la remise en suspension qui a eu lieu sur la partie aval de l'Arc pendant la chasse de 2011 a modifié de manière significative la vitesse de chute des MES, Ce résultat est cohérent si l'on considère la distribution spatiale des flux mesurés pour cette chasse (Figure 5.2)

J. Aberle, V. Nikora, and R. Walters, Effects of bed material properties on cohesive sediment erosion, Marine Geology, vol.207, issue.1-4, pp.83-93, 2004.

M. Afif, Analyse numérique de quelques problèmes hyperboliques issus de la modélisation des crues de rivières, 1986.

. Afnor, Qualité de l'eau -dosage des matières en suspension par filtration sur filtre en fibres de verre, 1997.

. Afnor, Qualité de l'eau -détermination de la turbidité, 2000.

R. J. Akers, A. G. Rushton, and J. I. Stenhouse, Floc breakage : The dynamic response of the particle size distribution in a flocculated suspension to a step change in turbulent energy dissipation, Chemical Engineering Science, vol.42, issue.4, pp.787-798, 1987.

E. Andries, B. Camenen, J. B. Faure, M. Launay, and J. L. Coz, Modélisation hydro-sédimentaire du site de miribel-jonageà l'aide des modèles numériques mage et adis-ts, IRSTEA, 2012.

G. Antoine, Validation du code hydrosédimentaire 1d courlis, 2010.

N. E. Asselman, Suspended sediment dynamics in a large drainage basin : the river rhine, Hydrological Processes, vol.13, pp.1437-1450, 1999.

R. A. Bagnold, An approach to the sediment transport problem from general physics. US Geological Survey Professional Paper, pp.422-137, 1966.

C. Bertier, Hp-76/04/037/a. système masacret. courlis 4.0 : Note de principe notice d'utilisation, 2004.

C. Bertier, J. Bouchard, and L. Dumond, One dimensional model for reservoir sedimentation management, River Flow, 2002.

J. Boillat, R. Martinerie, J. Garcia, and G. De-cesare, La gestion sédimentaire en milieu alpin, pp.122-129, 2008.

J. Bouchard, la gestion des sédiments par chasse (2) : Outils d'optimisation et de prévison d'impact, pp.62-66, 2001.

J. Bouchard and C. Bertier, Morphological change in reservoirs in relation to hydraulic conditions, River Flow, 2008.

S. A. Brandt, Sedimentological and geomorphological effects of reservoir flushing : The Cachi reservoir, Geografiska Annaler A, vol.81, pp.391-407, 1996.

J. S. Bridge, Rivers and Floodplains : Forms, Processes, and Sedimentary Record, 2003.

B. Camenen, Simple and general formula for the settling velocity of particles, Journal of Hydraulic Engineering, vol.133, issue.2, pp.229-233, 2007.

B. Camenen, M. Jaballah, T. Geay, J. B. Belleudy, P. Laronne et al., Tentative measurements of bedload transport in an energetic alpine gravel bed river, River Flow, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02597879

B. Camenen, M. Jodeau, and J. L. Coz, Conceptual modelling of the sediment flux during a flushing event (Arc en Maurienne, France). In Advances in hydro-science and engineering, LCHE, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02591251

B. Camenen and M. Larson, A general formula for non-cohesive bed load sediment transport, Estuarine, Coastal and Shelf Science, vol.63, pp.249-260, 2005.

T. Cipriani, T. Toilliez, and E. Sauquet, Estimation régionale des débits décennaux et durées caractéristiques de crue en france, pp.5-13, 2012.

M. Cobaner, B. Unal, and O. Kisi, Suspended sediment concentration estimation by an adaptive neuro-fuzzy and neural network approaches using hydro-meteorological data, Journal of Hydrology, vol.367, pp.52-61, 2009.

A. Cooper and C. Lemckert, Extreme sea-level rise and adaptation options for coastal resort cities : a qualitative assessment from the gold coast, australia. Ocean and Coastal Management, vol.64, pp.1-14, 2012.

J. M. Dallavalle, Micromeritics : the technology of fine particles, 1948.

C. Dall'osto, Etude du lit de l'isere en combre de savoie, 2012.

D. H. De-boer, M. Stone, and L. M. Lévesque, Fractal dimensions of individual flocs and floc populations in streams, Hydrological Processes, vol.14, pp.653-667, 2000.

M. Delmas, Origine des exports de sediments fluviatiles : prise en compte de l'hétérogenéité spatiale des versants, 2011.

M. Delmas, O. Cerdan, B. Cheviron, J. Mouchel, and F. Eyrolle, Sediment export from french rivers to the sea, Earth Surface Processes and Landforms, vol.37, pp.754-762, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00718223

I. G. Droppo, D. Walling, and E. Ongley, Suspended sediment structure : implications for sediment and contaminant transport modelling, Proc. of the Modelling Soil Erosion, Sediment Transport and Closely Related Hydrological Processes symposium, 1998.

I. G. Droppo, K. Nackaerts, D. E. Walling, and N. Williams, Can flocs and water stable soil aggregates be differentiated within fluvial systems ?, CATENA, vol.60, issue.1, pp.1-18, 2005.

I. G. Droppo and E. D. Ongley, Flocculation of suspended sediment in rivers of southeastern Canada, Water Research, vol.28, issue.8, pp.1799-1809, 1994.

S. Dutordoir, Bilan des flux de métaux, carbone et nutriments contenus dans une rivière alpine : part des rejets urbains de lagglomération de Grenoble et des apports a lamont (Isère et Drac), 2014.

K. R. Dyer, Sediment processes in estuaries : future research requirements, Journal of Geophysical Research, vol.94, issue.C10, pp.14327-14339, 1989.

K. R. Dyer and A. J. Manning, Observation of the size, settling velocity and effective density of flocs, and their fractal dimensions, Journal of Sea Research, vol.41, pp.87-95, 1999.

K. E. Kadi-abderrezzak, Evolution d'un lit de rivière en fonction des apports, 2006.

G. Fasolato, P. Ronco, and M. Tregnaghi, Morphodynamics of mountain rivers following repeated sediment release from reservoirs, River Flow, pp.1329-1336, 2006.

R. Felix and D. Xanthoulis, Sensitivity analysis of the mathematical model" erosion productivity impact calculator"(epic) by approach one-factor-at-a-time

A. Biotechnologie, . Société, and . Environnement, , vol.9, p.179, 2005.

M. J. Fennessy, K. R. Dyer, and D. A. Huntley, Inssev : An instrument to measure the size and settling velocity of flocs in situ, Marine Geology, vol.117, issue.1-4, pp.107-117, 1994.

A. Fick, Concerns diffusion and concentration gradient, Annalen der Physik, vol.170, p.1855

I. Foster, Lake and reservoir bottom sediments as a source of soil erosion and sediment transport data in the UK, 1995.

Q. Fraselle, Solid transport in flooding rivers with deposition on the floodplains : experimental and numerical investigations, 2010.

P. Gao and M. Josefson, Event-based suspended sediment dynamics in a central new york watershed, Geomorphology, issue.0, 2011.

M. Garcia, Sedimentation engineering : processes, measurements, modeling, and practice, 2008.

A. Gautheron, Incertitudes sur les mesures des matières en suspension en basse durance, 1994.

S. K. Godunov, A finite difference method for the computation of discontinuous solutions of fluid dynamics, vol.47, pp.357-393, 1959.

N. Goutal and F. Maurel, A finite volume solver for 1D shallow-water equations applied to an actual river, International Journal for Numerical Methods in Fluids, vol.38, issue.1, pp.1-19, 2002.

W. Graf and M. Altinakar, Hydraulique fluviale Tome 1 Ecoulement permanent uniforme et non uniforme, Presses polytechniques et universitaire romandes, 1993.

W. Graf and M. Altinakar, Hydraulique fluviale -Ecoulement et phénomènes de transport dans les canauxà géométrie simple. Presses polytechniques et universitaire romandes, 2008.

N. Gratiot, Impact des sédiments cohésifs sur l'écosystème. Habilitationà diriger des recherches, 2010.

N. Gratiot, H. Michallet, and M. Mory, On the determination of the settling flux of cohesive sediments in a turbulent fluid, Journal of Geophysical Research, vol.110, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00260292

H. K. Ha, J. , and P. Maa, Evaluation of two conflicting paradigms for cohesive sediment deposition, Marine Geology, vol.265, issue.3-4, pp.120-129, 2009.

H. K. Ha, J. , and P. Maa, Effects of suspended sediment concentration and turbulence on settling velocity of cohesive sediment, Geosciences Journal, vol.14, pp.163-171, 2010.

R. Hardy, P. Bates, and M. Anderson, Modelling suspended sediment deposition on a fluvial floodplain using a two-dimensional dynamic finite element model, Journal of Hydrology, vol.229, pp.202-218, 2000.

F. Hjulstrom, The morphological activity of rivers as illustrated by river fyris, Bulletin of the Geological Institute, p.25, 1935.

A. J. Horowitz, F. A. Rinella, P. Lamothe, T. L. Miller, T. K. Edwards et al., Variations in suspended sediment and associated trace element concentrations in selected riverine cross sections, Environmental Science and Technology, vol.24, pp.1313-1320, 1990.

C. Hu, Z. Ji, and Q. Guo, Flow movement and sediment transport in compound channels, Journal of Hydraulic Research, vol.1, pp.23-32, 2010.

B. Ioss, Revue sur l'analyse de sensibilité globale de modèles numériques, Journal de la Société Française de Physique, vol.152, 2011.

M. Jaballah, Morphodynamique des bancs alternés dune rivière de montagne aménagée, 2013.

C. S. James, Sediment transfer to overbank sections, Journal of Hydraulic Research, vol.23, issue.5, pp.435-452, 1985.

S. C. James, C. A. Jones, M. D. Grace, and J. D. Roberts, Advances in sediment transport modelling, Journal of Hydraulic Research, vol.48, issue.6, pp.754-763, 2010.

, Guide to the expression of uncertainty in measurement (1995) dans sa traduction française révisée :Évaluation des données de mesure. Guide pour l'expression de lincertitude de mesure, JCGM, 2008.

M. Jodeau, Morphodynamique d'un banc de galets en rivière aménagée lors de crues, 2007.

M. Jodeau and S. Menu, Sediment transport modelling of a reservoir drawdown, example of tolla reservoir, River Flow, 2012.

T. Johansen, C. Larsen, and O. Petersen, Experiments on erosion of mud from the danish wadden sea, Cohesive Sediments, 1997.

S. M. Kashefipour and R. A. Falconer, Longitudinal dispersion coefficients in natural channels, Water Research, vol.36, issue.6, pp.1596-1608, 2002.

C. Kent and J. Wong, An index of littoral zone complexity and its measurement, Can. J. Fish. Aquat. Sci, vol.39, pp.847-853, 1982.

J. R. Kilps, B. E. Logan, and A. L. Alldredge, Fractal dimensions of marine snow determined from image analysis of in situ photographs, Deep Sea Research Part I : Oceanographic Research Papers, vol.41, pp.1159-1169, 1994.

J. Korcak, Bulletin de l'institut internationnal de statistique, vol.30, pp.295-299, 1940.

G. Korvin, Fractal Models in the Earth Sciences, 1992.

B. G. Krishnappan, In situ size distribution of suspended particles in the Fraser river, Journal of Hydraulic Engineering, vol.126, issue.8, pp.561-569, 2000.

R. Krone, Flume studies of the transport of sediment in estuarial shoaling processes, p.110, 1962.

G. J. Kynch, A Theory of Sedimentation, 1952.

N. S. Lam and L. D. Cola, Fractals in geography, 1993.

M. Lang and J. Lavabre, Estimation de la crue centennale pour les plans de prévention des risques d'inondations, 2007.

Y. Lau, I. Droppo, and B. Krishnappan, Sequential erosion/deposition experiments demonstrating the effects of depositional history on sediment erosion, Water Research, vol.35, issue.11, pp.2767-2773, 2001.

F. Lauters, E. Laperrousaz, B. Camenen, J. L. Coz, F. Thollet et al., Vers une gestion sédimentaire durable de l´aménagement hydroelectrique arc-isère, pp.19-25, 2012.

J. L. Coz, B. Camenen, X. Peyrard, and G. Dramais, Uncertainty in open-channel discharges measured with the velocity area method, Flow Measurement and Instrumentation, vol.26, pp.18-29, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01058365

P. L. Hir, F. Cayocca, and B. Waeles, Dynamics of sand and mud mixtures : A multiprocess-based modelling strategy, Continental Shelf Research, vol.31, pp.135-149, 2011.

J. Lefrancois, C. Grimaldi, C. Gascuel-odoux, and N. Gilliet, Suspended sediment and discharge relationships to identify bank degradation as a main sediment source on small agricultural catchments, Hydrological Processes, vol.21, pp.2923-2933, 2007.
URL : https://hal.archives-ouvertes.fr/hal-01460856

K. A. Lemke, Transfer function models of suspended sediment concentration, Water Resources Research, vol.27, pp.293-305, 1991.

X. Li and B. E. Logan, Collision frequencies between fractal aggregates and small particles in a turbulently sheared fluid, Environmental Science & Technology, vol.31, issue.4, pp.1237-1242, 1997.

Z. H. Li, J. Huang, and J. Li, Preliminary study on longitudinal dispersion coefficient for the three gorges reservoir, proceedings of the seventh international symposium environmental hydraulics, 1998.

W. Lick and J. Mcneil, Effects of sediment bulk properties on erosion rates, Science of The Total Environment, vol.266, issue.1-3, pp.41-48, 2001.

B. E. Logan and J. R. Kilps, Fractal dimensions of aggregates formed in different fluid mechanical environments, Water Research, vol.29, issue.2, pp.443-453, 1995.

B. E. Logan and D. B. Wilkinson, Fractal geometry of marine snow and other biological aggregates, Limnology and Oceanography, vol.35, issue.1, pp.130-136, 1990.

J. P. Maa, L. Sanford, and J. Halka, Sediment resuspension characteristics in baltimore harbor, maryland, Marine Geology, vol.146, issue.1-4, pp.137-145, 1998.

K. Mahmood, Reservoir sedimentation : Impact, extent and mitigation, 1987.

J. R. Malavoi and J. P. Bravard, Eléments dhydromorphologie fluviale. Onema, 2010.

B. B. Mandelbrot-;-w and . Freeman, The Fractal Geometry of Nature, 1983.

V. Mano, Processus conditionnant les apports de sédiments fins dans les retenues -Optimisation des méthodes de mesure et modélisation statistique, 2008.

A. Mantovanelli and P. V. Ridd, Devices to measure settling velocities of cohesive sediment aggregates : A review of the in situ technology, Journal of Sea Research, vol.56, issue.3, pp.199-226, 2006.

A. Mantovanelli and P. V. Ridd, Sedvel : An underwater balance for measuring in situ settling velocities and suspended cohesive sediment concentrations, Journal of Sea Research, vol.60, issue.4, pp.235-245, 2008.

A. Marnézy, L'Arc et sa vallée, Anthropisation et geodynamique d'une rivière alpine dans son bassin versant, 1999.

D. Marot, J. Bouchard, and A. Alexis, Reservoir bank deformation modeling : application to grangent reservoir, Journal of Hydraulic Engineering, pp.586-595, 2005.

S. B. Marriott, Analysis and modelling of overbank deposits, Floodplain processes, pp.63-93, 1996.

A. J. Mehta and T. M. Parchure, Surface erosion of fine-grained sediment revisited, Muddy Coast Dynamics and Resource Management, vol.2, pp.55-74, 2000.

S. Moore, Suivi des flux d'eau et de matières en suspension dans les cours d'eau par profileurs acoustiques Doppler horizontaux, 2011.

G. L. Morris and J. Fan, reservoir sedimentation handbook, 1997.

O. Navratil, M. Esteves, C. Legout, N. Gratiot, J. Nemery et al., Global uncertainty analysis of suspended sediment monitoring using turbidimeter in a small mountainous river catchment, Journal of Hydrology, vol.398, issue.3-4, pp.246-259, 2011.
URL : https://hal.archives-ouvertes.fr/insu-00648837

A. P. Nicholas and D. E. Walling, The significance of particle aggregation in the overbank deposition of suspended sediment on river floodplains, Journal of Hydrology, vol.186, pp.275-293, 1996.

G. Nicollet and M. Uan, Ecoulements permanentsà surface libre en lits composés, pp.21-30, 1979.

J. Némery, V. Mano, A. Coynel, H. Etcheber, F. Moatar et al., Carbon and suspended sediment transport in an impounded alpine river, Hydrological Processes, 2012.

A. Olivier, G. Pierrefeu, M. Scotti, and B. Blanquart, Incertitude sur les débits calculésà partir des courbes de transformation hauteur/débit (uncertainty associated with discharges computed from stage discharge relationships, in french), Hydrological measurements and uncertainties SHF conference, 2008.

M. W. Owen, Determination of the previous termsettling velocitties of cohesive muds, Hydraulics Research Station, 1976.

J. Padet, Fluides enécoulement ; méthodes et modèles. Société Française de Thermique, 2011.

A. N. Papanicolaou, M. Elhakeem, G. Krallis, S. Prakash, and J. Edinger, Sediment transport modeling reviewcurrent and future developments, Journal of Hydraulic Engineering, 2008.

T. M. Parchure and A. J. Mehta, Erosion of soft cohesive sediment deposits, Journal of Hydraulic Engineering, vol.111, issue.10, pp.1308-1326, 1985.

D. S. Parker, W. J. Kaufman, and D. Jenkins, Floc breakup in turbulent flocculation processes, ASCE Journal of the Sanitary Engineering Division, pp.98-99, 1972.

E. Parthéniades, Erosion and deposition of cohesive soils, Journal of the Hydraulics Division, vol.91, pp.105-139, 1965.

C. Perret, Les moyens de contrôle et de mesure des débits -les capteurs et les méthodes, pp.97-107, 2009.

E. L. Petticrew and I. G. Droppo, The morphology and settling characteristics of fine-grained sediment from a selection of canadian rivers, Contributions to the International Hydrological Programme V by Canadian Experts, 2000.

D. Pinto-martins, La dynamique des flux d'eau et de la charge de fond sur le haut parana (Brésil) : un modèle pour l'aménagement de grands fleuves impactés par les barrages, 2008.

P. Prinos, Hydraulic and Environmental Modelling : Estuarine and River Waters, 1992.

S. Proust, D. Bousmar, N. Rivière, A. Paquier, and Y. Zech, Energy losses in compound open channels, Advances in Water Resources, vol.33, issue.1, pp.1-16, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00566056

S. L. Rathburn and E. E. Wohl, One-dimensional sediment transport modeling of pool recovery along a mountain channel after a reservoir sediment release, Research & Management, vol.17, pp.251-273, 2001.

T. M. Ravens and P. Gschwend, Flume measurements of sediment erodibility in boston harbor, Journal of Hydraulic Engineering, vol.125, pp.998-1005, 1999.

V. Ravisangar, B. M. Brouckaert, A. Amirtharajah, and T. W. Sturm, The role of solution chemistry in the stability and detachment of cohesive kaolinite particles, Water Science and Technology : Water Supply, vol.1, pp.25-32, 2001.

B. Rezaei and D. Knight, Overbank flow in compound channels with nonprismatic floodplains, J. Hydraul. Eng, vol.137, issue.8, pp.815-824, 2010.

W. N. Richardson and J. F. Zaki, Sedimentation and fluidisation. part 1, Transactions of the Institution of Chemical Engineers, vol.32, pp.35-53, 1954.

J. Roberts, R. Jepsen, D. Gotthard, and W. Lick, Effects of particle size and bulk density on erosion of quartz particles, Journal of Hydraulic Engineering, vol.124, issue.12, pp.1261-1267, 1998.

P. Roe, Approximate riemann solvers, parameter vectors, and difference schemes, Journal of Computational Physics, vol.43, issue.2, pp.357-372, 1981.

J. C. Rutherford, River mixing, 1994.

R. J. Ryan and M. C. Boufadel, Incomplete mixing in a small, urban stream, Journal of Environmental Management, vol.81, pp.50-57, 2006.

S. H. Sadeghi, T. Mizuyama, S. Miyata, T. Gomi, K. Kosugi et al., Determinant factors of sediment graphs and rating loops in a reforested watershed, Journal of Hydrology, vol.356, issue.3-4, pp.271-282, 2008.

L. Saguintaah, Mesures de flux de mes par turbidimétrie et incertitudes associées, 2012.

L. P. Sanford and J. P. Halka, Assessing the paradigm of mutually exclusive erosion and deposition of mud, with examples from upper chesapeake bay, Marine Geology, vol.114, issue.1-2, pp.37-57, 1993.

L. Sanford, J. P. , and -. Maa, A unified erosion formulation for fine sediments, Marine Geology, vol.179, issue.1-2, pp.9-23, 2001.

H. Schlichting, Boundary-layer theory. McGraw-Hill series in mechanical engineering, 1979.

D. J. Simm and D. E. Walling, Lateral variability of overbank sedimentation on a devon flood plain, Hydrological Sciences Journal, vol.43, pp.715-732, 1998.

M. Stone, B. G. Krishnappan, and M. B. Emelko, The effect of bed age and shear stress on the particle morphology of eroded cohesive river sediment in an annular flume, Water Research, vol.42, issue.15, pp.4179-4187, 2008.

M. Stone and B. G. Krishnappan, Floc morphology and size distributions of cohesive sediment in steady-state flow, Water Research, vol.37, issue.11, pp.2739-2747, 2003.

G. Taylor, The dispersion of matter in turbulent flow through a pipe, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, vol.223, pp.446-468, 1155.

F. Thollet, J. L. Coz, G. Antoine, P. Francois, L. Saguintaah et al., Influence de la granulométrie des particules sur la mesure par turbidimétrie des flux de matières en suspension dans les cours d'eau, pp.50-56, 2013.

L. H. Thomas, Elliptic problems in linear differential equations over a network, 1949.

E. F. Toro, Riemann Solvers and Numerical Methods for Fluid Dynamics : a practical introduction, 1997.

E. Valette and M. Jodeau, How to predict the sedimentological impacts of reservoir operations ?, ICSE, 2012.

B. Van-leer, On the relation between the upwind-differencing schemes of godunov, enquist-osher and roe, SIAM Journal on Scientific Computing, vol.5, pp.1-20, 1985.

W. Van-leussen, Estuarine macroflocs and their role in fine-grained sediment transport, 1994.

B. C. Van-prooijen and J. C. Winterwerp, A stochastic formulation for erosion of cohesive sediments, Journal of Geophysical Research, vol.115, issue.C1, p.1005, 2010.

L. Van-rijn, Principles of Sediment Transport in Rivers, Estuaries and Coastal Seas, 1993.

J. Vasquez, Manuel d'Hydrauliqueà surface libre, 2007.

C. Villaret and P. Durand, Numerical modelling of sedimentation in reservoirs using the telemac-mascaret system, Gesinus workshop, 2013.

A. Vongvixay, Mesure et analyse de la dynamique temporelle des flux solides dans les petits bassins versants, 2012.
URL : https://hal.archives-ouvertes.fr/tel-00688884

D. E. Walling and J. C. Woodward, Use of a field-based water elutriation system for monitoring the in situ particle size characteristics of fluvial suspended sediment, Water Research, vol.27, issue.9, pp.1413-1421, 1993.

R. Westrich, B. Scharf, and V. Scheuerlein, Measurement of cohesive sediment erodibility in a laboratory flume, Environmental and Coastal Hydraulics : Protecting the Aquatic Habitat , Proceedings of the 27th Congress of the IAHR, 1997.

R. White, Evacuation of sediments from reservoirs, 2001.

N. D. Williams, D. E. Walling, and G. J. Leeks, An analysis of the factors contributing to the settling potential of fine fluvial sediment, Hydrological Processes, vol.22, pp.4153-4162, 2008.

P. G. Williams, Sediment concentration verus water discharge during signgle hydrologic events in rivers, Journal of Hydrology, vol.111, pp.89-106, 1989.

J. C. Winterwerp, A simple model for turbulence induced flocculation of cohesive sediment, Journal of Hydraulic Research, vol.36, issue.3, pp.309-326, 1998.

J. C. Winterwerp, On the flocculation and settling velocity of estuarine mud, Continental Shelf Research, vol.22, issue.9, pp.1339-1360, 2002.

J. C. Winterwerp, On the sedimentation rate of cohesive sediment, Estuarine and Coastal Fine Sediment Dynamics, 2006.

J. C. Winterwerp, A. J. Manning, C. Martens, T. Mulder, and J. Vanlede, A heuristic formula for turbulence-induced flocculation of cohesive sediment, Estuarine, Coastal and Shelf Science, vol.68, issue.1-2, pp.195-207, 2006.

M. N. Yanenko, Méthodesà pas fractionnaires. Armand Colin, 1968.

Z. J. You, The effect of suspended sediment concentration on the settling velocity of cohesive sediment in quiescent water, Ocean Engineering, vol.31, issue.16, pp.1955-1965, 2004.

F. Zaoui and N. , Mascaret v7p1, note de principe, 2011.

D. A. Zreik, B. G. Krishnappan, J. T. Germaine, O. S. Madsen, and C. C. Ladd, Erosional and mechanical strengths of deposited cohesive sediments, Journal of Hydraulic Engineering, vol.124, issue.11, pp.1076-1085, 1998.