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Simulation and comparison of stream power in-channel and on the floodplain in a German lowland area


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Archer, D.R., 1989. Flood wave attenuation due to channel and floodplain storage and effects on flood frequency. Floods Hydrol. Sedimentol. Geomorphol. Implic. John Wiley Sons N. Y. 1989 P:37-46.Search in Google Scholar

Arnold, J.G., Srinivasan, R., Muttiah, R.S., Williams, J.R., 1998. Large area hydrologic modeling and assessment part I: model development1. JAWRA J. Am. Water Resour. Assoc., 34, 73-89.10.1111/j.1752-1688.1998.tb05961.xSearch in Google Scholar

Barker, D.M., Lawler, D.M., Knight, D.W., Morris, D.G., Davies, H.N., Stewart, E.J., 2009. Longitudinal distributions of river flood power: the combined automated flood, elevation and stream power (CAFES) methodology. Earth Surf. Process. Landf., 34, 280-290.10.1002/esp.1723Search in Google Scholar

Bates, P.D., De Roo, A.P.J., 2000. A simple raster-based model for flood inundation simulation. J. Hydrol., 236, 54-77.10.1016/S0022-1694(00)00278-XSearch in Google Scholar

Birkhead, A.L., James, C.S., Kleynhans, M.T., 2007. Hydrological and hydraulic modelling of the Nyl River floodplain Part 2: Modelling hydraulic behaviour. Water SA, 33.10.4314/wsa.v33i1.47866Search in Google Scholar

Brocca, L., Melone, F., Moramarco, T., 2011. Distributed rainfall- runoff modelling for flood frequency estimation and flood forecasting. Hydrol. Process., 25, 2801-2813.10.1002/hyp.8042Search in Google Scholar

Brunner, G.W., 1995. HEC-RAS River Analysis System. Hydraulic Reference Manual. Version 1.0.Search in Google Scholar

Chow, V., 1959. Open Channel Hydraulics. McGraw-Hill, New York.Search in Google Scholar

Christian, J., Duenas-Osorio, L., Teague, A., Fang, Z., Bedient, P., 2013. Uncertainty in floodplain delineation: expression of flood hazard and risk in a Gulf Coast watershed. Hydrol. Process., 27, 2774-2784.10.1002/hyp.9360Search in Google Scholar

Climatemps, 2013. Average Temperatures in Schleswig. Kiel, Germany.Search in Google Scholar

Coffey, R., Cummins, E., Bhreathnach, N., Flaherty, V.O., Cormican, M., 2010. Development of a pathogen transport model for Irish catchments using SWAT. Agric. Water Manag., 97, 101-111.10.1016/j.agwat.2009.08.017Search in Google Scholar

Dankers, R., Feyen, L., 2009. Flood hazard in Europe in an ensemble of regional climate scenarios. J. Geophys. Res. Atmospheres, 114.10.1029/2008JD011523Search in Google Scholar

Evans, I.S., Hengl, T., Gorsevski, P., 2009. Chapter 22 Applications in Geomorphology. In: Hengl, T., Reuter, H.I. (Ed.): Developments in Soil Science, Geomorphometry Concepts, Software, Applications. Elsevier, pp. 497-525.10.1016/S0166-2481(08)00022-6Search in Google Scholar

Gurnell, A.M., Midgley, P., 1994. Aquatic weed growth and flow resistance: Influence on the relationship between discharge and stage over a 25 year river gauging station record. Hydrol. Process., 8, 63-73.10.1002/hyp.3360080105Search in Google Scholar

Hervouet, J.-M., 2000. ℡EMAC modelling system: an overview. Hydrol. Process., 14, 2209-2210.10.1002/1099-1085(200009)14:13<2209::AID-HYP23>3.0.CO;2-6Search in Google Scholar

Hicks, F.E., Peacock, T., 2005. Suitability of HEC-RAS for Flood Forecasting. Can. Water Resour. J., 30, 159-174.10.4296/cwrj3002159Search in Google Scholar

Horritt, M.S., Bates, P.D., 2002. Evaluation of 1D and 2D numerical models for predicting river flood inundation. J. Hydrol., 268, 87-99.10.1016/S0022-1694(02)00121-XSearch in Google Scholar

Jähnig, S.C., Kuemmerlen, M., Kiesel, J., Domisch, S., Cai, Q., Schmalz, B., Fohrer, N., 2012. Modelling of riverine ecosystems by integrating models: conceptual approach, a case study and research agenda. J. Biogeogr., 39, 2253-2263.10.1111/jbi.12009Search in Google Scholar

Jain, V., Preston, N., Fryirs, K., Brierley, G., 2006. Comparative assessment of three approaches for deriving stream power plots along long profiles in the upper Hunter River catchment, New South Wales, Australia. Geomorphology, 74, 297-317.10.1016/j.geomorph.2005.08.012Search in Google Scholar

Johnston, J.M., McGarvey, D.J., Barber, M.C., Laniak, G., Babendreier, J., Parmar, R., Wolfe, K., Kraemer, S.R., Cyterski, M., Knightes, C., Rashleigh, B., Suarez, L., Ambrose, R., 2011. An integrated modeling framework for performing environmental assessments: Application to ecosystem services in the Albemarle-Pamlico basins (NC and VA, USA). Ecol. Model., 222, 2471-2484.10.1016/j.ecolmodel.2011.03.036Search in Google Scholar

Kasper, K., 2005. Accuracy of HEC-RAS to Calculate Flow Depths and Total Energy Loss With and Without Bendway Weirs in a Meander Bend. MS Plan-B Rep. Colo. State Univ. Dep. Civ. Eng. Fort Collins CO.Search in Google Scholar

Kiesel, J., Schmalz, B., Brown, G., Fohrer, N., 2013. Application of a hydrological-hydraulic modelling cascade in lowlands for investigating water and sediment fluxes in catchment, channel and reach. J. Hydrol. Hydromech., 61, 334-346.10.2478/johh-2013-0042Search in Google Scholar

Knebl, M.R., Yang, Z.-L., Hutchison, K., Maidment, D.R., 2005. Regional scale flood modeling using NEXRAD rainfall, GIS, and HEC-HMS/RAS: a case study for the San Antonio River Basin Summer 2002 storm event. J. Environ. Manage., 75, 325-336.10.1016/j.jenvman.2004.11.024Search in Google Scholar

Knight, D., Shiono, K., 1996. River channel and floodplain hydraulics. Floodplain Process., 5, 139-181.Search in Google Scholar

Knighton, A.D., 1999. Downstream variation in stream power. Geomorphology, 29, 293-306.10.1016/S0169-555X(99)00015-XSearch in Google Scholar

Kuemmerlen, M., Domisch, S., Schmalz, B., Cai, Q., Fohrer, N., Jähnig, S.C., 2012. Integrierte Modellierung von aquatischen Ökosystemen in China: Arealbestimmung von Makrozoobenthos auf Einzugsgebietsebene. Hydrol. Wasserwirtsch., HW 56, 185-192.Search in Google Scholar

Kundzewicz, Z.W., Lugeri, N., Dankers, R., Hirabayashi, Y., Döll, P., Pińskwar, I., Dysarz, T., Hochrainer, S., Matczak, P., 2010. Assessing river flood risk and adaptation in Europe- review of projections for the future. Mitig. Adapt. Strateg. Glob. Change, 15, 641-656.10.1007/s11027-010-9213-6Search in Google Scholar

Lau, T.L., Ghani, A.A., 2012. Sustainable solutions for global crisis of flooding, pollution and water scarcity. Int. J. River Basin Manag., 10, 137-138.10.1080/15715124.2012.694366Search in Google Scholar

LKN-SH, 2012. Landesbetriebs für Küstenschutz, Nationalpark und Meeresschutz Schleswig-Holstein: Discharge and water surface elevation data. Kiel, Germany.Search in Google Scholar

Luo, Y., Arnold, J., Allen, P., Chen, X., 2012. Baseflow simulation using SWAT model in an inland river basin in Tianshan Mountains, Northwest China. Hydrol. Earth Syst. Sci., 16, 1259-1267.10.5194/hess-16-1259-2012Search in Google Scholar

LVermGeoSH, 1995. Landesamt für Vermessung und Geoinformation Schleswig-Holstein: Digitales Geländemodelle 1 (DGM 1). Kiel, Germany.Search in Google Scholar

Marchi, L., Borga, M., Cavalli, M., Gaume, E., 2010a. Stream power of selected recent flash floods in Europe, in: EGU General Assembly Conference Abstracts. Presented at the EGU General Assembly Conference Abstracts, p. 10226.Search in Google Scholar

Marchi, L., Borga, M., Preciso, E., Gaume, E., 2010b. Characterisation of selected extreme flash floods in Europe and implications for flood risk management. J. Hydrol., 394, 118-133.10.1016/j.jhydrol.2010.07.017Search in Google Scholar

Navratil, O., Albert, M.-B., Hérouin, E., Gresillon, J.-M., 2006. Determination of bankfull discharge magnitude and frequency: comparison of methods on 16 gravel-bed river reaches. Earth Surf. Process. Landf., 31, 1345-1363.10.1002/esp.1337Search in Google Scholar

O’Hare, M.T., McGahey, C., Bissett, N., Cailes, C., Henville, P., Scarlett, P., 2010. Variability in roughness measurements for vegetated rivers near base flow, in England and Scotland.10.1016/j.jhydrol.2010.02.036Search in Google Scholar

J. Hydrol., 385, 361-370.Search in Google Scholar

Pappenberger, F., Beven, K., Horritt, M., Blazkova, S., 2005. Uncertainty in the calibration of effective roughness parameters in HEC-RAS using inundation and downstream level observations. J. Hydrol., 302, 46-69.10.1016/j.jhydrol.2004.06.036Search in Google Scholar

Parhi, P.K., 2013. HEC-RAS Model for Mannnig’s Roughness: A Case Study. Open J. Mod. Hydrol., 03, 97-101.10.4236/ojmh.2013.33013Search in Google Scholar

Parhi, P.K., Sankhua, R., Roy, G., 2012. Calibration of channel roughness for Mahanadi River (India) using HEC-RAS model. J. Water Resour. Prot., 4.10.4236/jwarp.2012.410098Search in Google Scholar

Petit, F., Gob, F., Houbrechts, G., Assani, A.A., 2005. Critical specific stream power in gravel-bed rivers. Geomorphology, 69, 92-101.10.1016/j.geomorph.2004.12.004Search in Google Scholar

Petrow, T., Merz, B., 2009. Trends in flood magnitude, frequency and seasonality in Germany in the period 1951-2002. J. Hydrol., 371, 129-141.10.1016/j.jhydrol.2009.03.024Search in Google Scholar

Posey, J., 2009. The determinants of vulnerability and adaptive capacity at the municipal level: Evidence from floodplain management programs in the United States. Glob. Environ. Change, 19, 482-493.10.1016/j.gloenvcha.2009.06.003Search in Google Scholar

Pott, C.A., 2014. Integrated monitoring, assessment and modeling of nitrogen and phosphorus pollution in a lowland catchment in Germany - A long-term study on water quality (PhD thesis). University of Kiel, Kiel, Germany.Search in Google Scholar

Rhoads, B.L., 1987. Stream Power Terminology. Prof. Geogr. 39, 189-195.10.1111/j.0033-0124.1987.00189.xSearch in Google Scholar

Schmalz, B., Kuemmerlen, M., Strehmel, A., Song, S., Cai, Q., Jähnig, S., Fohrer, N., 2012. Integrated modeling of aquatic ecosystems in China: ecohydrology and hydraulics. Hydrol. Wasserwirtsch., HW 56, 169-184. (in German) Shih, S.F., Rahi, G.S., 1982. Seasonal variations of Manning’s roughness coefficient in a subtropical marsh. Trans. ASAE, 25, 116-119.Search in Google Scholar

Song, S., Schmalz, B., Hörmann, G., Fohrer, N., 2012. Accuracy, reproducibility and sensitivity of acoustic Doppler technology for velocity and discharge measurements in mediumsized rivers. Hydrol. Sci. J., 57, 1626-1641.10.1080/02626667.2012.727999Search in Google Scholar

Sponseller, R.A., Grimm, N.B., Boulton, A.J., Sabo, J.L., 2010. Responses of macroinvertebrate communities to long-term flow variability in a Sonoran Desert stream. Glob. Change Biol., 16, 2891-2900.10.1111/j.1365-2486.2010.02200.xSearch in Google Scholar

Strehmel, A., 2011. Model-based Hydraulic Analysis of Flow and Sediment Transport in the Changjiang Basin in the Poyang Lake Region, China. University of Kiel, Kiel, Germany.Search in Google Scholar

Thuiller, W., 2003. BIOMOD - optimizing predictions of species distributions and projecting potential future shifts under global change. Glob. Change Biol., 9, 1353-1362.10.1046/j.1365-2486.2003.00666.xSearch in Google Scholar

Vocal Ferencevic, M., Ashmore, P., 2012. Creating and Evaluating Digital Elevation Model-Based Stream-Power Map as a Stream Assessment Tool. River Res. Appl., 28, 1394-1416.10.1002/rra.1523Search in Google Scholar

Wu, N., Tang, T., Fu, X., Jiang, W., Li, F., Zhou, S., Cai, Q., Fohrer, N., 2010. Impacts of cascade run-of-river dams on benthic diatoms in the Xiangxi River, China. Aquat. Sci., 72, 117-125.10.1007/s00027-009-0121-3Search in Google Scholar

Yang, J., Townsend, R.D., Daneshfar, B., 2006. Applying the HEC-RAS model and GIS techniques in river network floodplain delineation. Can. J. Civ. Eng., 33, 19-28.10.1139/l05-102Search in Google Scholar

Zhang, H., 2011. Sedimentation and Phosphorus Deposition in a Wetland Stream Complex (Duvenseebachniederung, Ritzerau). University of Kiel, Kiel, Germany. Search in Google Scholar

ISSN:
0042-790X
Sprache:
Englisch
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