Stefan Wirtz Vom Fachbereich VI (Geographie/Geowissenschaften ...

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Experimentelle Rinnenerosionsforschung vs. Modellkonzepte – Quantifizierung der hydraulischen und erosiven Wirksamkeit von Rinnen 65. Schneider G (2008) Ein Millenniumsproblem: Die globale Existenz und Eindeutigkeit glatter Lösungen der dreidimensionalen Navier-Stokes-Gleichungen. Mathematik-Online: Beiträge zu berühmten, gelösten und ungelösten Problemen, Nummer 2. 66. Reid DM, Dunne T (1996) Rapid evaluation of sediment budgets. Reiskirchen: Catena Verlag. 67. EPA-homepage (2009) Channel Processes: Bedload transport. United States Environmental protection agency. Available: http://water.epa.gov/scitech/datait/tools/warsss/bedload.cfm, access: 14.9.2010 68. Hessel R, Jetten V (2007) Suitability of transport equations in modelling soil erosion for a small Loess plateau catchment. Eng. Geol. 91: 56-71. 69. Nearing MA, Bradford JM, Parker SC (1991) Soil detachment by shallow flow at low slopes. Soil Science Society of America Journal 55 (2): 339-344. 70. Nearing MA, Parker SC (1994) Detachment of soil by flowing water under turbulent and laminar conditions. Soil Science Society of America Journal 58 (6): 1612-1614. 71. Bryan RB, Govers G, Poesen J (1989) The concept of soil erodibility and some problems of assessment and application. Catena 16 (4-5): 393-412. 72. Bryan RB (1990) Knickpoint evolution in rillwash. Catena 17: 111-132. 73. Owoputi LO, Stolte WJ (1995) Soil detachment in the physically based soil erosion process: a review. Transactions of the ASAE 38 (4): 1099-1110. 74. Rapp I. (1998) Effects of soil properties and experimental conditions on the rill erodibilities of selected soils. Pretoria: Ph. D. Thesis, Faculty of Biological and Agricultural Sciences, University of Pretoria, South Africa. 75. Zhu JC, Gantzer CJ, Peyton RL, Alberst EE, Anderson SH (1995) Simulated small-channel bed scour and head cut erosion rates compared. Soil Science Society of America Journal 59 (1): 211-218. 76. Kohl KD (1988) Mechanics of rill headcutting. Ames: Phd. Diss. Iowa State University. 77. <strong>Stefan</strong>ovic JR, Bryan RB (2009) Flow energy and channel adjustments in rills developed in loamy sand and sandy loam soils. Earth Surface Processes and Landforms 34: 133-144. 78. Nearing MA (1998) Why soil erosion models over-predict small soil losses and under-predict large soil losses. Catena 32: 15-22. 203
Experimentelle Rinnenerosionsforschung vs. Modellkonzepte – Quantifizierung der hydraulischen und erosiven Wirksamkeit von Rinnen 79. Ruttimann M, Schaub D, Prasuhn V, Ruegg W (1995) Measurement of runoff and soil erosion on regulary cultivated fields in Switzerland – some critical considerations. Catena 25: 127-139. 80. Wendt RC, Alberts EE, Hjelmfelt Jr (1986). Variability of runoff and soil loss from fallow experimental plots. Soil Sci. Soc. Am. J. 50: 730-736. 81. Risse LM, Nearing MA, Nicks AD, Laflen JM (1993) Assessment of error in the universal soil loss equation. Soil Sci. Soc. Am. J. 57: 825-833. 82. Zhang XC, Nearing MA, Risse LM, McGregor KC (1996) Evaluation of runoff and soil loss predictions using natural runoff plot data. Trans. ASAE 39: 855-863. 83. Liu BY, Nearing MA, Baffaut C, Ascough II JC (1996) The WEPP watershed model: III. Comparisons to measured data from small watersheds. Transactions of the ASAE 40: 945-951. 84. Ajayi AE, Horta IDMF (2007) The effect of spatial variability of soil hydraulic properties on surface runoff processes. Anais XIII Simpósio Brasileiro de Sensoriamento Remoto, Florianópolis, Brasil, 21-26 abril 2007, p. 3243-3248. 85. Dunkerley D (2008) Rain event properties in nature and in rainfall simulation experiments: a comparative review with recommendations for increasingly systematic study and reporting. Hydrological Processes 22: 4415-4435. 86. Sidorchuk A (2005 b) Stochastic modelling of erosion and deposition in cohesive soils. Hydrological Processes 19: 1399-1417. 87. Sidorchuk A (2009 b) A third generation erosion model: The combination of probabilistic and deterministic components. Geomorphology 110 (1-2): 2-10. 88. Nearing MA (1991) A probabilistic model of soil detachment by shallow turbulent flow. Transactions of the ASAE 34 (1): 81-85. 89. Wilson BN (1993) Development of a fundamentally-based detachment model. Transactions of the ASAE 36 (4): 1105-1114. 90. Sidorchuk A (2001) Calculation of the rate of erosion in soils and cohesive sediments. Eurasien Soil Science 34 (8): 893-900. 91. Sidorchuk A (2002) Stochastic Modelling of soil erosion and deposition. 12 th ISCO Conference, Beijing 2002. 92. Sidorchuk A, Smith A, Nikora V (2004) Probability distribution function approach in stochastic modelling of soil erosion. Sediment transfer trough the fluvial system Vol. 288. IHAS Publ., pp. 345-353. 204
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Stefan Wirtz Vom Fachbereich VI (Ge
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Danksagung Danksagung Die vorliegen
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Inhaltsverzeichnis Inhaltsverzeichn
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Inhaltsverzeichnis Abbildungsverzei
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Experimentelle Rinnenerosionsforsch
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Dipl. Geogr. Stefan Wirtz; Physisch
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