Modeling of River Width Variations Based on Hydrological, Morphological, and Biological Dynamics
Publication: Journal of Hydraulic Engineering
Volume 142, Issue 7
Abstract
One-dimensional (1D) models can be applied, for engineering purposes, to long-term and large-scale morphodynamic simulations of entire river systems only if appropriate simplifications are introduced. This paper proposes an improvement of an existing simplified 1D model based on the local uniform flow hypothesis, coupled with a synthetic description of the transverse profile, which provides the active river width by analyzing the total and the vegetated widths of a watercourse, with assumed variables of the water flow. The overall density of the riparian vegetation, expressed in terms of biological carrying capacity, is predicted as a function of the local climate and some stresses due to interaction between hydrology, morphology, and biology. The constitutive equations have been deduced and the relevant parameters have been calibrated and validated against various hydrological and geometrical data, taken by satellite imagery covering two large watercourses located in tropical and subtropical areas (Parana and Zambezi rivers) and small streams located in temperate zones. The work confirms the opportunity to deal with hydro-morpho-biodynamic river modeling at large spatial and temporal scale through a mixed 1D + quasi-2D approach. The 1D submodel permits long-term computations at watershed scale of the river longitudinal evolution, while the quasi-2D submodel provides the transversal description of the watercourse in terms of vegetated and nonvegetated widths and vegetation density, which in its turn reflects on the 1D computations.
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Acknowledgments
The comments made by the Editor, the Associate Editors, and three anonymous reviewers on the manuscript were helpful to clarify and improve the quality of the paper. The work has benefited from the help of Arianna Varrani, which the authors would gratefully acknowledge.
References
Abu-Aly, T. R., Pasternack, G. B., Wyrick, J. R., Barker, R., Massa, D., and Johnson, T. (2014). “Effects of LiDAR-derived, spatially distributed vegetation roughness on two-dimensional hydraulics in a gravel-cobble river at flows of 0.2 to 20 times bankfull.” Geomorphology, 206(1), 468–482.
Amsler, M. L., Ramonell, C. G., and Toniolo, H. A. (2005). “Morphologic changes in the Parana River channel (Argentina) in the light of the climate variability during the 20th century.” Geomorphology, 70(3/4), 257–278.
Auble, G. T., Friedman, J. M., and Scott, M. L. (1994). “Relating riparian vegetation to present and future streamflows.” Ecol. Appl., 4(3), 544–554.
Baxter, R. M. (1977). “Environmental effects of dams and impoundments.” Annu. Rev. Ecol. Syst., 8(1), 255–283.
Bendix, J., and Hupp, C. R. (2000). “Hydrological and geomorphological impacts on riparian plant communities.” Hydrol. Process., 14(16–17), 2977–2990.
Benjankar, R., Jorde, K., Yager, E. M., Egger, G., Goodwin, P., and Glenn, N. F. (2012). “The impact of river modification and dam operation on floodplain vegetation succession trends in the Kootenai River, USA.” Ecol. Eng., 46(1), 88–97.
Bhowmik, N. G., and Stall, J. B. (1979). “Hydraulic geometry and carrying capacity of floodplains.”, Univ. of Illinois, Champaign, IL.
Bockelmann, B. N., Fenrich, E. K., Lin, B., and Falconer, R. A. (2004). “Development of an ecohydraulics model for stream and river restoration.” Ecol. Eng., 22(4–5), 227–235.
Bonetto, A. A., Wais, J. R., and Castello, H. P. (1989). “The increasing damming of the Paranà basin and its effects on the lower reaches.” Regulated Rivers: Res. Manage., 4(4), 333–346.
Brandt, S. A. (2000). “Classification of geomorphological effects downstream of dams.” Catena, 40(4), 375–401.
Brookes, C. J., Hooke, M. J., and Mant, J. (2000). “Modelling vegetation interactions with channel flow in river valleys of the Mediterranean region.” Catena, 40(1), 93–118.
Buytaert, W., et al. (2006). “Human impact on the hydrology of the Andean páramos.” Earth-Sci. Rev., 79(1), 53–72.
Camporeale, C., Perucca, E., Ridolfi, L., and Gurnell, A. M. (2013). “Modeling the interactions between river morphodynamics and riparian vegetation.” Rev. Geophys., 51(3), 379–414.
Camporeale, C., and Ridolfi, L. (2006). “Riparian vegetation distribution induced by river flow variability: A stochastic approach.” Water Resour. Res., 42(10), W10415.
Camporeale, C., and Ridolfi, L. (2010). “Interplay among river meandering, discharge stochasticity and riparian vegetation.” J. Hydrol., 382(1), 138–144.
Church, M. (1995). “Geomorphic response to river flow regulation: Case studies and time-scales.” Regulated Rivers: Res. Manage., 11(1), 3–22.
Coulthard, T. J., Hicks, D. M., and Van De Wiel, M. J. (2007). “Cellular modelling of river catchments and reaches: Advantages, limitations and prospects.” Geomorphology, 90(3–4), 192–207.
Curran, J., and Hession, W. (2013). “Vegetative impacts on hydraulics and sediment processes across the fluvial system.” J. Hydrol., 505(1), 364–376.
Davies, B. R., Beilfuss, R. D., and Thoms, M. C. (2001). “Cahora Bassa retrospective, 1974–1997: Effects of flow regulation on the Lower Zambezi River.” Limnol. Dev. world, 27(4), 2149–2157.
Di Silvio, G. (1996). “Sediment yields estimates and prediction methods.” Proc., Int. Conf. on Reservoir Sedimentation, Colorado State Univ., Fort Collins, CO.
Duarte, P., Meneses, R., Hawkins, A. J. S., Zhu, M., Fang, J., and Grant, J. (2003). “Mathematical modelling to assess the carrying capacity for multi-species culture within coastal waters.” Ecol. Modell., 168(1), 109–143.
EarthExplorer. 〈〉.
Egger, G., et al. (2012). “Dynamic vegetation model as a tool for ecological impact assessments of dam operation.” J. Hydro-environ. Res., 6(2), 151–161.
Fasolato, G., Ronco, P., Langendoen, E. J., and Di Silvio, G. (2011). “Validity of uniform flow hypothesis in one-dimensional morphodynamic models.” J. Hydraul. Eng., 183–195.
Francis, R. A., Gurnell, A. M., Petts, G. E., and Edward, P. J. (2005). “Survival and growth responses of Populus nigra, Salix elaeagnos and Alnus incana cutting to varying levels of hydric stress.” Forest Ecol. Manage., 210(1), 291–301.
Franz, E. H., and Bazzaz, F. A. (1977). “Simulation of vegetation response to modified hydrological regimes: A probabilistic model based on niche differentiation in a floodplain forest.” Ecology, 58(1), 176–183.
Friedman, J. M., and Auble, G. T. (1999). “Mortality of riparian box elder from sediment mobilization and extended inundation.” Regulated Rivers: Res. Manage., 15(5), 463–476.
Gordon, E., and Meentemeyern, R. K. (2006). “Effects of dam operation and land use on stream channel morphology and riparian vegetation.” Geomorphology, 82(3), 412–429.
Gran, K., and Paola, C. (2001). “Riparian vegetation controls on braided stream dynamics.” Water Resour. Res., 37(12), 3275–3283.
Guerrero, M., Nones, M., Saurral, R., Montroull, N., and Szupiany, R. N. (2013). “Parana River morphodynamics in the context of climate change.” Int. J. River Basin Manage., 11(4), 423–437.
Gurnell, A. M., et al. (2001). “Riparian vegetation and island formation along the gravel-bed Fiume Tagliamento, Italy.” Earth Surf. Process. Landforms, 26(1), 31–62.
Gurnell, A. M., Bertoldi, W., and Corenblit, D. (2012). “Changing river channels: The roles of hydrological processes, plant and pioneer fluvial landforms in humid temperate, mixed load, gravel bed rivers.” Earth-Sci. Rev., 111(1), 129–141.
Hupp, C. R. (1988). “Plant ecological aspects of flood geomorphology and paleoflood history.” Flood geomorphology, Wiley and Sons, New York, 300–356.
Hupp, C. R., and Osterkamp, W. R. (1985). “Bottomland vegetation distribution along Passage Creek, Virginia, in relation to fluvial landforms.” Ecology, 66(3), 670–681.
Hupp, C. R., and Simon, A. (1991). “Bank accretion and the development of vegetated depositional surface along modified alluvial channels.” Geomorphology, 4(2), 111–124.
Johnson, W. C. (2000). “Tree recruitment and survival in rivers: Influence of hydrological processes.” Hydrol. Process., 14(16–17), 3051–3074.
Karrenberg, S., Edwards, P. J., and Kollmann, J. (2002). “The life history of Salicaceae living in the active zone of floodplains.” Freshwater Biol., 47(4), 733–748.
Knighton, D. (1998). Fluvial forms and processes: A new perspective, Wiley, London.
Kondolf, G. M. (1997). “Hungry water: Effects of dams and gravel mining on river channels.” Environ. Manage., 21(4), 533–551.
Köppen, W. (1936). “Das geographische System der Klimate.” Handbuch der Klimatologie, Vol. 1, Gebr. Bornträger Verlag, Berlin, 388 (in German).
Kozlowski, T. T. (1984). “Responses of woody plants to flooding.” Tree physiology monograph no. 1, Heron, Victoria, Canada.
Kramer, K., Vreugdenhil, S. J., and van der Werf, D. C. (2008). “Effects of flooding on the recruitment, damage and mortality of riparian tree species: A field and simulation study on the Rhine floodplain.” Forest Ecol. Manage., 255(11), 3893–3903.
Landsat 7. 〈〉.
Lange, C., et al. (2015). “Model-based design for restoration of a small urban river.” J. Hydro-environ. Res., 9(2), 226–236.
Leopold, L. B., and Maddock Jr., T. (1953). “The hydraulic geometry of stream channels and some physiographic implications.” U.S. Geological Survey, Washington, DC.
Leopold, L. B., and Wolman, M. G. (1957). “River channel patterns: Braided, meandering and straight.” U.S. Geological Survey, Washington, DC.
Leopold, L. B., Wolman, M. G., and Miller, J. P. (1964). Fluvial processes in geomorphology, Freeman, San Francisco.
Li, C. W., and Zeng, C. (2009). “3D numerical modelling of flow divisions at open channel junctions with or without vegetation.” Adv. Water Resour., 32(1), 49–60.
Lieth, H. (1975). “Modeling the primary productivity of the world.” Primary productivity of the biosphere, Springer, Berlin, 237–263.
Lite, S. J., Bagstad, K. J., and Stromberg, J. C. (2005). “Riparian plant species richness along lateral and longitudinal gradients of water stress and flood disturbance, San Pedro River, Arizona, USA.” J. Arid Environ., 63(4), 785–813.
Lytle, D. A., and Merritt, D. M. (2004). “Hydrologic regimes and riparian forests: A structured population model for cottonwood.” Ecology, 85(9), 2493–2503.
Magilligan, F. J., and Nislow, K. H. (2005). “Changes in hydrologic regime by dams.” Geomorphology, 71(1), 61–78.
Mahoney, J. M., and Rood, S. B. (1998). “Streamflow requirements for cottonwood seedling recruitment: An integrative model.” Wetlands, 18(4), 634–645.
Manner, R. B., Wilcox, A. C., Kui, L., Lightbody, A. F., Stella, J. C., and Sklar, L. S. (2015). “When do plants modify fluvial processes? Plant-hydraulic interactions under variable flow and sediment supply rates.” J. Geophys. Res., 120(2), 325–345.
Marchetti, M. (2002). “Environmental changes in the central Po Plain (northern Italy) due to fluvial modifications and anthropogenic activities.” Geomorphology, 44(3), 361–373.
Martín-Vide, J. P., Ferrer-Boix, C., and Ollero, A. (2010). “Incision due to gravel mining: Modeling a case study from the Gállego River, Spain.” Geomorphology, 117(3–4), 261–271.
McKenney, R., Jacobson, R. B., and Wertheimer, R. C. (1995). “Woody vegetation and channel morphogenesis in low-gradient, gravel-bed streams in the Ozrak Plateaus, Missouri and Arkansas.” Geomorphology, 13(1), 175–198.
Micheli, E. R., and Kirchner, J. W. (2002). “Effects of wet meadow riparian vegetation on streambank erosion. 1. Remote sensing measurements of streambank migration and erodibility.” Earth Surf. Process. Landforms, 27(6), 627–639.
Mitsch, W. J., and Gosselink, J. (2007). Wetlands, Wiley, New York, 582.
Molles, M. C. Jr. (2008). Ecology: Concepts and applications, McGraw Hill, Dubuque, IA.
Muneepeerakul, R., Rinaldo, A., and Rodriguez-Iturbe, I. (2007). “Effects of river flow scaling properties on riparian width and vegetation biomass.” Water Resour. Res., 43(12), W12406.
Murray, J. D. (2002). Mathematical biology: I. An introduction, Springer, New York.
Naiman, R. J., and Dècamps, H. (1997). “The ecology of interfaces: Riparian zones.” Annu. Rev. Ecol. Syst., 28(1), 621–658.
Naiman, R. J., Dècamps, H., and McClain, M. E. (2005). Riparia: Ecology, conservation, and management of streamside communities, Elsevier Academic Press, New York, 430.
Naumburg, E., Mata-Gonzales, R., Hunter, R. G., McLendon, T, and Martin, D. W. (2005). “Phreatophytic vegetation and groundwater fluctuations: A review of current research and application of ecosystem response modelling with an emphasis on great basin vegetation.” Environ. Manage., 35(6), 726–740.
Nones, M. (2013). Riverine dynamics at watershed scale: Hydro-morpho-biodynamics in rivers, LAP Lambert Academic, Germany, 140.
Nones, M., Guerrero, M., and Ronco, P. (2014). “Opportunities from low-resolution modelling of river morphology in remote parts of the world.” Earth Surf. Dyn., 2(1), 9–19.
Nones, M., Ronco, P., and Di Silvio, G. (2013). “Modelling the morphological impact of large impoundment on the Lower Zambezi River.” Int. J. River Basin Manage., 11(2), 221–236.
Osterkamp, W. R., and Costa, J. E. (1987). “Change accompanying an extraordinary flood on sandbed stream.” Catastrophic flooding, Allen and Unwin, St. Leonards, Australia.
Osterkamp, W. R., and Hupp, C. R. (1984). “Geomorphic and vegetative characteristics along three northern Virginia streams.” Geol. Soc. Am. Bull., 95(9), 1093–1101.
Paola, C. (2000). “Quantitative models of sedimentary basin filling.” Sedimentology, 47(1), 121–178.
Parker, G., Wilcock, P. R., Paola, C., Dietrich, W. E., and Pitlick, J. (2007). “Physical basis for quasi-universal relations describing bankfull hydraulic geometry of single-thread gravel bed rivers.” J. Geophys. Res., 112(F4), F04005.
Pearlstine, L., McKellar, H., and Kitchens, W. (1985). “Modelling the impacts of a river diversion on bottomland forest communities in the Santee River Floodplain, South Carolina.” Ecol. Modell., 29(1), 283–302.
Petts, G. E., and Gurnell, A. M. (2005). “Dams and geomorphology: Research progress and future directions.” Geomorphology, 71(1), 27–47.
Ren, L., Wang, M., Li, C., and Zhang, W. (2002). “Impacts of human activity on river runoff in the northern area of China.” J. Hydrol., 261(1–4), 204–217.
Richter, B. D., and Richter, H. E. (2000). “Prescribing flood regimes to sustain riparian ecosystem along meandering rivers.” Conserv. Biol., 14(5), 1467–1478.
Ronco, P. (2008). “Sediment budget of unsurveyed rivers at watershed scale: The case of Lower Zambezi.” Ph.D. thesis, Univ. of Padova, Padova, Italy.
Ronco, P., Fasolato, G., and Di Silvio, G. (2006). “The case of the Zambezi River in Mozambique: Some investigations on solid transport phenomena downstream Cahora Bassa Dam.” Proc., Int. Conf. on Fluvial Hydraulics, Riverflow 2006, Lisbon, Portugal.
Ronco, P., Fasolato, G., and Di Silvio, G. (2009). “Modelling evolution of bed profile and grain size distribution in unsurveyed rivers.” Int. J. Sediment Res., 24(2), 127–144.
Rosatti, G., and Armanini, A. (2008). “Un modello matematico bidimensionale per lo studio dell’evoluzione morfologica di corsi d’acqua a carattere fluviale [A two-dimensional mathematical model for the study of the morphological evolution of rivers].” Proc., XXXI Convegno Nazionale di Idraulica e Costruzioni Idrauliche, Gruppo Italiano di Idraulica, Perugia, Italy (in Italian).
Rosenberg, D. M., McCully, P., and Pringle, C. M. (2000). “Global-scale environmental effects of hydrological alterations: Introduction.” BioScience, 50(9), 746–751.
Rosgen, D. L. (1994). “A classification of natural rivers.” Catena, 22(3), 169–199.
Schmidt, J. C., and Wilcock, P. R. (2008). “Metrics for assessing the downstream effects of dams.” Water Resour. Res., 44(4), W04404.
Schumm, S. A. (1985). “Patterns of alluvial rivers.” Annu. Rev. Earth Planet. Sci., 13(1), 5–27.
Simon, A. (1989). “A model of channel response in disturbed alluvial channel.” Earth Surf. Process. Landforms, 14(1), 11–26.
Singh, V. P. (2003). “On the theories of hydraulic geometry.” Int. J. Sediment Res., 18(3), 196–218.
Steiger, J., Tabacchi, E., Dufour, S., Corenblit, D., and Peiry, J. L. (2005). “Hydrogeomorphic processes affecting riparian habitat within alluvial channel-floodplain river system: A review for the temperate zone.” River Res. Appl., 21(7), 719–737.
Stromberg, J. C. (2001). “Restoration of riparian vegetation in the south-western United States: Importance of flow regimes and fluvial dynamism.” J. Arid Environ., 49(1), 17–34.
Stromberg, J. C., and Patten, D. T. (1991). “Instream flow requirements for cottonwoods at Bishop Creek, Inyo County, California.” Rivers, 2(1), 1–11.
Sun, T., Paola, C., Parker, G., and Meakin, P. (2002). “Fluvial fan deltas: Linking channel processes with large-scale morphodynamics.” Water Resour. Res., 38(8), 26-1–26-10.
Surian, N., and Rinaldi, M. (2003). “Morphological response to river engineering and management in alluvial channels in Italy.” Geomorphology, 50(4), 307–326.
Tealdi, S. (2012). “River—Riparian vegetation interactions.” Ph.D. thesis, Politecnico of Torino, Turin, Italy.
Tealdi, S., Camporeale, C., and Ridolfi, L. (2011). “Modeling the impact of river damming on riparian vegetation.” J. Hydrol., 396(3), 302–312.
Tewari, S., Kulhavy, J., Rock, B. N., and Hadaš, P. (2003). “Remote monitoring of forest response to changed soil moisture regime due to river regulation.” J. Forest Sci., 49(9), 429–438.
Thorne, C. R., Hey, R. D., and Newson, M. D. (1997). Applied fluvial geomorphology for river engineering and management, Wiley, Chichester, U.K.
Timberlake, J. R. (1998). “Biodiversity of the Zambezi basin wetlands: Review and preliminary assessment of available information.” Biodiversity Foundation for Africa, Bulawayo.
Tockner, K., Malard, F., and Ward, J. V. (2000). “An extension of the flood pulse concept.” Hydrol. Process., 14(16–17), 2861–2883.
Valiani, A., and Caleffi, V. (2009). “Analytical findings for power law cross-sections: Uniform flow depth.” Adv. Water Resour., 32(9), 1404–1412.
Vargas-Luna, A., Crosato, A., and Uijttewaal, W. S. (2015). “Effects of vegetation on flow and sediment transport: Comparative analyses and validation of predicting models.” Earth Surf. Process. Landforms, 40(2), 157–176.
Verhaar, P. M., Biron, P. M., Ferguson, R. I., and Hoey, T. B. (2008). “A modified morphodynamic model for investigating the response of rivers to short-term climate change.” Geomorphology, 101(4), 674–682.
Vianello, A., and D’Agostino, V. (2007). “Bankfull width and morphological units in an alpine stream of the dolomites (northern Italy).” Geomorphology, 83(3), 266–281.
Walford, H. L., White, N. J., and Sydow, J. C. (2005). “Solid sediment load history of the Zambezi Delta.” Earth Planet. Sci. Lett., 238(1–2), 49–63.
Wang, Z.-Y., Wu, B., and Wang, G. (2007). “Fluvial processes and morphological response in the Yellow and Weihe Rivers to closure and operation of Sanmenxia Dam.” Geomorphology, 91(1–2), 65–79.
Wheaton, J. M., Brasington, J., Darby, S. E., Kasprak, A., Sear, D., and Vericat, D. (2013). “Morphodynamic signatures of braiding mechanisms as expressed through change in sediment storage in a gravel-bed river.” J. Geophys. Res.: Earth Surf., 118(2), 759–779.
Wilkerson, G. W., and Parker, G. (2010). “Physical basis for quasi-universal relations describing bankfull hydraulic geometry of sand-bed rivers.” J. Hydraul. Eng., 739–753.
Wilson, C. A. M. E., Yagci, O., Rauch, H.-P., and Olsen, N. R. B. (2006). “3D numerical modelling of a willow vegetated river/floodplain system.” J. Hydrol., 327(1), 13–21.
Wyrick, J. R., and Pasternack, G. B. (2008). “Modeling energy dissipation and hydraulic jump regime responses to channel nonuniformity at river steps.” J. Geophys. Res.: Earth Surf., 113(F3), F03003.
Yalin, M. S. (1992). River mechanics, Pergamon Press, Oxford, U.K.
Yanosky, T. M. (1982). “Effects of flooding upon woody vegetation along parts of the Potamac River floodplain.” U.S. Geological Survey, Washington, DC.
Ye, B., Yang, D., and Kane, D. L. (2003). “Changes in Lena River streamflow hydrology: Human impact versus natural variations.” Water Resour. Res., 39(7), 1200.
Yukalov, V. I., Yukalova, E. P., and Sornette, D. (2009). “Punctuated evolution due to delayed carrying capacity.” Physica D: Nonlinear Phenom., 238(17), 1752–1767.
Zaghloul, S. S. (2006). “Effects of Aswan High Dam on the Nile River regime at delta barrages area.” Proc., Int. Sediment Initiative Conf. (ISIC), UNESCO Chair in Water Resources, Khartoum, Sudan.
Zhou, Y., Lu, X., Huang, Y., and Zhu, Y. (2004). “Anthropogenic impacts on the sediment flux in the dry-hot valleys of southwest China—An example of the Longchuan River.” J. Mountain Sci., 1(3), 239–249.
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Journal of Hydraulic Engineering
Volume 142 • Issue 7 • July 2016
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© 2016 American Society of Civil Engineers.
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Received: Feb 18, 2015
Accepted: Dec 9, 2015
Published online: Mar 17, 2016
Published in print: Jul 1, 2016
Discussion open until: Aug 17, 2016
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