The river morphology (from ancient Greek μορφή morphḗ "shape", "form" and λόγος lógos "word", "doctrine", "reason") is a geoscience , which deals with the formation and shaping processes of rivers , and a special field of geomorphology as well as general river studies (potamology). Morphology is the study of surface forms and geomorphology studies the physical aspects of the earth's surface , it focuses on the forces and processes that create the reliefshaped and shaped the earth. The river morphology is limited to the redesign of the river bed. The science of river morphology describes the shape, form and structure of the riverbed . The appearance of the rivers and the variety of morphological structures is shaped by the runoff and solid matter dynamics. The change in river morphology takes place in significantly shorter periods of time than that of geomorphology, which is related to geological times.
→ Main article: river bed
Rivers are dynamic and formative parts of the landscape. They are in constant interaction with their surroundings.  The river bed and the floodplain are significantly influenced by the runoff and the dependent solids transport.  The runoffs of rivers fluctuate over the course of the year. The runoff regime varies both seasonally and due to the geographical location of the respective river section. This is how snow and glacier melt leadas well as rain events leading to higher runoffs. The size of the discharge is a decisive factor in the very complex process of bed formation. Floods change the river morphology significantly, and runoffs that are full on the river can also modify the river bed. The river bed and the river valley are developed by the alternating current attack.   Morphodynamic change processes in the form of erosion and accumulation continuously shape the river bed. Solids such as bed load and suspended matter only start moving once they have reached a certain level of drainage. Reaching the critical shear stress leads to the erosion of soil material on theThe riverbed and the bank. These processes are known as bottom and side erosion . The higher-level solid household has a very strong influence on the shape and structure of river beds.   The rivers actively shape the relief and shape of their catchment area . At the same time, the appearance of the rivers is also changed by the surrounding area. 
The alignment of the rivers is an essential component of the river morphology. It varies depending on the water section due to the different geological and geomorphological conditions.  The space in which rivers move is called the pendulum range. The extent of the migration corridor depends on the runoff, the substrate composition and the longitudinal gradient. 
Morphological river types
The morphology of rivers shows a wide range. The different morphological river types range from meandering and calmly flowing lowland rivers to heavily branched rivers to cascading, highly turbulent mountain rivers.  The river morphology is determined by the natural features of the catchment area of the river - such as topography , geology , tectonics , vegetation and climate - as well as by the fluvial processes and river geneses that depend on them.    Sections of the riverare characterized by almost the same natural framework conditions and they can therefore be assigned to a morphological river type. The morphological river type describes the geometry of the water in the form of longitudinal and transverse profile as well as ground plan . In the classification, the redesign dynamics in the river bed and within the surrounding water area also play a role in the event of a flood. In addition to the river bed morphology, the runoff and solid matter dynamics as well as the longitudinal and lateral connectivity (longitudinal continuity and cross-linking between river and floodplain ) are considered in the typification . 
Straight rivers in the geometric sense do not occur in nature. Elongated channels are therefore rivers that have a very small flow development and thus a large stretch. Rivers rarely flow in a straight line for more than ten times their channel width. The stretching of a channel is essentially determined by a steep bed slope or a geomorphologically-related narrowing of the river through lateral valley slopes.  Of course, they occur on hard rocks in valleys of mountains such as gorge and Kerbtal . The mountain rivers can be found, for example, in alpine regions with steep slopes and with a certain topography. The valley path shuttles from one side of the river to the other.  Due to deep and lateral erosion as well as landslides , the alpine rivers have a high solid load. 
→ Main article: Intertwined river
Branched rivers arise when the gradient is medium to steep. The solid matter balance is characterized by transfer processes with high bed load . In ramified rivers, the lack of a limiting shoreline is typical. The bank varies constantly due to the numerous relocation processes.  The active flow cross-section is characterized by an enlarged width. The relationship between river width and water depth is large, with the relationship between water depth and grain diameter being only small. Numerous channels structure the river bed. The gutters separate irregularly and flow together again. Flood events lead to changes in the channel system. Between the channels, in the course of the relocation dynamics at higher discharges (HQ), mostly vegetationless gravel banks and islands develop , which are permanently shifted in their position and shape.  At these extreme locations, pioneer vegetation can temporarily set in, which is constantly removed by the current during floods. There is no fixed valley path. 
Winding / meandering rivers
→ Main article: Meander
Winding river stretches are also called river meanders. The river type is characterized by a low ratio between river width and water depth. There is a large relationship between water depth and grain diameter. This type of river forms with a low gradient and a low flow velocity in flat floodplains. A single deep channel forms the river bed. The long valley path has been shifted towards the Prallhang (outer bank). River meanders develop freely in their alluvium and valley meanders develop due to the relief of the terrain. 
- Joachim Mangelsdorf, Karl Scheurmann: River morphology: A guide for natural scientists and engineers . Oldenbourg Wissenschaftsverlag, Vienna 1980, ISBN 978-3486233117 .
- Geoffrey Petts, C. Amoros: Fluvial Hydrosystems. Chapman & Hall, 2011, ISBN 9789401071666.
- Heinz Patt [Hrsg.]: River and floodplain development: Fundamentals and experiences . 2nd edition, Springer Vieweg, 2016, ISBN 978-3662484487 .
- Heinz Patt: Near-natural hydraulic engineering: development and design of flowing waters . 5th edition, Springer Vieweg, 2018, ISBN 978-3658224776 .
- Mathias Jungwirth, Gertrud Haidvogl, Otto Moog, Susanne Muhar, Stefan Schmutz: Applied fish ecology in rivers . Facultas Universitätsverlag, UTB, Vienna, 2003, ISBN 978-3825221133 .
- Friedrich Schaffernak: Floor plan of the river morphology and the river structure. Springer-Verlag, 1950, ISBN 978-3211801680 .
- Theodor Strobl, Franz Zunic: Hydraulic engineering: Current bases - New developments . Springer, 2006, ISBN 978-3-540-22300-9 , pp. 82, 91.
- Heinz Patt, Peter Jürging: River and floodplain development: Basics and experiences . Ed .: Heinz Patt. 2nd Edition. Springer Vieweg, 2016, ISBN 978-3-662-48448-7 , p. Pos. 812 (Kindle).
- Helmut Habersack: Solid matter budget, river morphology, ecological status and flood protection. Federal Ministry for Sustainability and Tourism, accessed on May 30, 2019 .
- Helmut Habersack: SED_AT Solid household, sediment transport and river morphology within the framework of the National Water Management Plan. Final report. Federal Ministry of Agriculture, Forestry, Environment and Water Management (BMLFUW), September 2014, accessed on May 30, 2019 .
- Peter Jürging: River and floodplain development: Basics and experiences . Ed .: Peter Jürging, Heinz Patt. Springer, Berlin, Heidelberg 2005, pp. 10 f.
- Heinz Patt, Peter Jürging: River and floodplain development: Fundamentals and experiences . Ed .: Heinz Patt. 2nd Edition. Springer Vieweg, 2016, ISBN 978-3-662-48448-7 , p. Pos. 826 (Kindle).
- Mathias Jungwirth, Gertrud Haidvogl, Otto Moog, Susanne Muhar, Stefan Schmutz: Applied fish ecology on flowing waters . Facultas Universitätsverlag, UTB, Vienna 2003, ISBN 978-3-8252-2113-3 , p. 69–70.
- Water, hydraulics. Bavarian State Office for the Environment, accessed on May 30, 2019 .
- Mathias Jungwirth, Gertrud Haidvogl, Otto Moog, Susanne Muhar, Stefan Schmutz: The level of river sections - the morphological river type. In: Applied fish ecology in flowing waters. Facultas Universitätsverlag, UTB, Vienna 2003, ISBN 978-3-8252-2113-3 , p. 76–81.
- Joachim Mangelsdorf, Karl Scheurmann: River morphology: A guide for natural scientists and engineers. Oldenbourg Wissenschaftsverlag, Vienna 1980, ISBN 978-3-486-23311-7 , p. 109–111.
- Michael hut: Ecology and hydraulic engineering . Vieweg + Teubner Verlag, Berlin, Vienna 2000, pp. 27 f.