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  • Print publication year: 2016
  • Online publication date: July 2016

25 - Comparative analysis of sediment routing in two different alpine catchments

from Part V - Solute and sedimentary fluxes in alpine/mountain environments

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Ambroise, B. (2004). Variable “active” versus “contributing” areas or periods: a necessary distinction. Hydrological Processes, 18, 11491155.
Baartman, J. E. M., Masselink, R., Keesstra, S. D., and Temme, A. J. A. M. (2013). Linking landscape morphological complexity and sediment connectivity. Earth Surface Processes and Landforms, 38, 14571471.
Beel, C. R., Orwin, F., and Holland, P. G. (2011). Controls on slope-to-channel fine sediment connectivity in a largely ice-free valley, Hoophorn Stream, Southern Alps, New Zealand. Earth Surface Processes and Landforms, 36, 981994.
Borselli, L., Cassi, P., and Torri, D. (2008). Prolegomena to sediment and flow connectivity in the landscape: a GIS and field numerical assessment. Catena, 75, 268277.
Bracken, L. J., and Croke, J. (2007). The concept of hydrological connectivity and its contribution to understanding runoff-dominated geomorphic systems. Hydrological Processes, 21, 17491763.
Bracken, L. J., Wainwright, J., Ali, G. A., Tetzlaff, D., Smith, M. W., Reaney, S. M., and Roy, A. G. (2013). Concepts of hydrological connectivity: Research approaches, pathways and future agendas. Earth-Science Reviews, 119, 1734.
Brierly, G., Fryirs, K., and Jain, V. (2006). Landscape connectivity: the geographic basis of geomorphic applications. Area, 38(2), 165174.
Brown, A. G., Carey, C., Erkens, G., Fuchs, M., Hoffmann, T., Macaire, J.-J., Moldenhauer, K.-M., and Walling, D. E. (2009). From sedimentary records to sediment budgets: multiple approaches to catchment sediment flux. Geomorphology, 108, 3547.
Callow, J. N., and Smettem, K. R. J. (2009).The effect of farm dams and constructed banks on hydrologic connectivity and runoff estimation in agricultural landscapes. Environmental Modelling and Software, 23, 959968.
Cavalli, M., Trevisani, S., Comiti, F., and Marchi, L. (2013). Geomorphometric assessment of spatial sediment connectivity in small Alpine catchments. Geomorphology, 188, 3141.
Cavalli, M., Tarolli, P., Marchi, L., and Dalla Fontana, G. (2008). The effectiveness of airborne LiDAR data in the recognition of channel-bed morphology. Catena, 73, 249260.
Choi, Y. (2012). A new algorithm to calculate weighted flow-accumulation from a DEM by considering surface and underground stormwater infrastructure. Environmental Modelling and Software, 30, 8191.
Choi, Y., Yi, H., and Park, H.-D. (2011). A new algorithm for grid-based hydrologic analysis by incorporating stormwater infrastructure. Computers and Geoscience, 37, 10351044.
Croke, J., Fryirs, K., and Thompson, C. (2013). Channel-floodplain connectivity during an extreme flood event: implications for sediment erosion, deposition, and delivery. Earth Surface Processes and Landforms, 38, 14441456.
Croke, J., Mockler, S., Fogarty, P., and Takken, I. (2005). Sediment concentration changes in runoff pathways from a forest road network and the resultant spatial pattern of catchment connectivity. Geomorphology, 68, 257268.
D’Haen, K., Dusar, B., Verstraeten, G., Degryse, P., and De Brue, H. (2013). A sediment fingerprinting approach to understand the geomorphic coupling in an eastern Mediterranean mountainous river catchment. Geomorphology, 197, 6475.
Duke, G. D., Kienzle, S. W., Johnson, D. L., and Byrne, J. N. (2003). Improving overland flow routing by incorporating ancillary road data into Digital Elevation Models. Journal of Spatial Hydrology, 3(2), 127.
Duke, G. D., Kienzle, S. W., Johnson, D. L., and Byrne, J. N. (2006). Incorporating ancillary data to refine anthropogenically modified overland flow path. Hydrological Processes, 20, 18271843.
Faulkner, H. (2008). Connectivity as a crucial determinant of badland morphology and evolution. Geomorphology, 100, 91103.
Flügel, H. W., and Neubauer, F. (1984). Steiermark, Erläuterungen zur geologischen Karte der Steiermark, 1 : 200 000 – Geologie der österreichischen Bundesländer. Wien: Geologische Bundesanstalt.
Fryirs, K. (2013). (Dis)connectivity in catchment sediment cascades: a fresh look at the sediment delivery problem. Earth Surface Processes and Landforms, 38, 3046.
Fryirs, K. A., Brierly, G. J., Preston, N. J., and Kasai, M. (2007). Buffers, barriers and blankets: The (dis)connectivity of catchment-scale sediment cascades. Catena, 70, 4967.
Harvey, A. M. (1996). Holocene hillslope gully systems in the Howgill Fells, Cumbria. In Anderson, M. G. and Brooks, S. M., eds., Advances in Hillslope Processes. Chichester: Wiley, pp. 247270.
Harvey, A. M. (2001). Coupling between hillslopes and channels in upland fluvial systems: implications for landscape sensitivity, illustrated from the Howgill Fells, northwest England. Catena, 42, 225250.
Heckmann, T., and Schwanghart, W. (2013). Geomorphic coupling and sediment connectivity in an alpine catchment – exploring sediment cascades using graph theory. Geomorphology, 182, 89103.
Hiessleitner, G. (1935). Zur Geologie der Erz führenden Grauwackenzone des Johnsbachtales. Jahrbuch der Geologischen Bundesanstalt, 85, 81102.
Hiessleitner, G. (1958). Zur Geologie der Erz führenden Grauwackenzone zwischen Admont-Selzthal-Liezen. Jahrbuch der Geologischen Bundesanstalt, 99, 3577.
Hinderer, M. (2012). From gullies to mountain belts: A review of sediment budgets at various scales. Sedimentary Geology, 280, 2159.
Hooke, J. (2003). Coarse sediment connectivity in river channel systems: a conceptual framework and methodology. Geomorphology, 56, 7994.
Lopez-Vicente, M., Poesen, J., Navas, A., and Gaspar, L. (2013). Predicting runoff and sediment connectivity and soil erosion by water for different land use scenarios in the Spanish Pre-Pyrenees. Catena, 102, 6273.
Mao, L., Cavalli, M., Comiti, F., Marchi, L., Lenzi, M. A., and Arattano, M. (2009). Sediment transfer processes in two Alpine catchments of contrasting morphological settings. Journal of Hydrology, 364, 8898.
Morche, D., Schmidt, K.-H., Heckmann, T., and Haas, F. (2007). Hydrology and geomorphic effects of a high-magnitude flood in an Alpine river. Geografiska Annaler A, 89(1), 519.
Mueller, B. U. (1999). Paraglacial sedimentation and denudation processes in an Alpine valley of Switzerland. An approach to the quantification of sediment budgets. Geodinamica Acta, 12, 291301.
O'Callaghan, J. F., and Mark, D. M. (1984). The extraction of drainage networks from digital elevation data. Computer Vision, Graphics and Image Processing, 28, 323344.
Otto, J.-C., and Dikau, R. (2004). Gemorphologic system analysis of a high mountain valley in the Swiss Alps. Zeitschrift für Geomorphologie, 48, 323341.
Poeppl, R. E., Keiler, M., von Elverfeldt, K., Zweimueller, I., and Glade, T. (2012). The influence of riparian vegetation cover on diffuse lateral sediment connectivity and biogeomorphic processes in a medium-sized agricultural catchment, Austria. Geografiska Annaler A, 94, 511529.
Renard, K., Foster, G. R., Weessies, G. A., McCool, D. K., and Yodler, D. C., (1997). Predicting soil erosion by water: a guide to conservation planning with the Revised Universal Soil Loss Equation (RUSLE). USDA Agriculture Handbook, 703. Washington, DC: USDA.
Richards, K., (1993). Sediment delivery and the drainage network. In Beven, K. and Kirkby, M. J., eds., Channel Network Hydrology. Chichester: Wiley, pp. 221254.
Roehl, J. E., (1962). Sediment source areas, delivery ratios and influencing morphological factors. International Association of Hydrological Sciences, 59, 202213.
Schäuble, H., Marinoni, O., and Hinderer, M. (2008). A GIS-based method to calculate flow accumulation by considering dams and their specific operation time. Computers and Geosciences, 34, 635646.
Schrott, L., Niederheide, A., Hankammer, M., Hufschmidt, G., and Dikau, R. (2002). Sediment storage in a mountain catchment: geomorphic coupling and temporal variability (Reintal, Bavarian Alps, Germany). Zeitschrift für Geomorphologie, Supplement, 127, 175196.
Schrott, L., Hufschmidt, G., Hankammer, M., Hoffmann, T., and Dikau, R. (2003). Spatial distribution of sediment storage types and quantification of valley fill deposits in an alpine basin, Reintal, Bavarian Alps, Germany. Geomorphology, 55, 4563.
Sandercock, P. J., and Hooke, J. M. (2011). Vegetation effects on sediment connectivity and processes in an ephemeral channel in SE Spain. Journal of Arid Environment, 75, 239254.
Slaymaker, O. (2003). The sediment budget as conceptual framework and management tool. Hydrobiologia, 494, 7182.
Slaymaker, O. (2008). Sediment budget and sediment flux studies under accelerating global change in cold environments. Zeitschrift für Geomorphologie, 52, 123148.
Strasser, U., Marke, T., Sass, O., and Birk, S. (2013). John`s creek valley: a mountainous catchment for long-term interdisciplinary human-environment system research in Upper Styria (Austria). Environmental Earth Science, 69(2), 695705.
Tarboton, D., (1997). A new method for the determination of flow directions and upslope areas in grid digital elevation models. Water Resources Research, 33, 309319.
Walling, D. E. (1983). The sediment delivery problem. Journal of Hydrology, 65, 209237.
Walling, D. E., and Collins, A. L. (2008). The catchment sediment budget as a management tool. Environmental Science and Policy, 11, 136143.
Warburton, J. (1993). Energetics of Alpine proglacial geomorphic processes. Transactions of the Institute of British Geographers, 18(2), 197206.
Wischmeier, W. H., and Smith, D. D. (1978). Predicting Rainfall Erosion Losses – A Guide to Conservation Planning. USDA Agriculture Handbook, 537. Washington: USDA.
Wohl, E. (2014). Time and the rivers flowing: Fluvial geomorphology since 1960. Geomorphology, 216, 263282.