Freshets, by the periodical changes of the hydrodynamic conditions in the river channel, cause its intensive changes. At the time, the occuring fluvial processes have the decisive influence on creation of erosive and cumulative forms in the channel. Dimensions of these forms depend also on sediment transport. This paper presents the results of investigations carried on the Łososina River meander for years 2004–2005. Morphological changes in the channel, created by the 3 freshets, have correlation with the archival data. The bank erosion estimation shows that a cross section of channel has become wider. The changing hydraulic conditions were determined and the sediment transport intensity was estimated. ...
The aim of the presented researche was to examine the morphological changes of the degraded sectors of the stream Smolnik, caused by two floods. The changes of the hydrodynamic conditions were estimated because of its decisive influence on sediment transport intensity and thus on the investigated channel sector geometry. The surveying measurements of the longitudinal profile and cross sections of channel were carried out. The granulometric composition of the bed and the bank material was determined also. Results of this researche are basis for calculation and for analysis of the studied process. Volumes of material eroded from the banks and from the bed channel as well of the sediment deposited on the bed channel were calculated. The Bagnold equation was applied for estimation of sediment transport intensity. The noticed changes along the channel are illustrated by the situational outlines, where area of undercuts of banks pits and bars are showed. ...
The present paper contains results of researches carried out on the Slomka stream, which is very intensively erosive. A study reach is limited to the channel section being 367 meters in length, with local changes of the bed slope. It woe surveyed in detail and related to data on discharge, channel changes after floods and grain-size distribution of the bed material we have noted that river bank undercuts were dominant forms of bank erosion witch was the most important process for the channel bed modeling. The bed configurations of type chutes and pools were observed because of multiple roughness related to variation in stream power, shear stress, and grain-composition of the bed material. This parameters, longitudinal profiles, volume of eroded material, and intensity of sediment transport have been determined and calculated on the basis of the measuring results. ...
Within their catchment basins, brooks and rivers form a structure under which the water flow and morphological processes impact each other. A structure of the flowing water is characterized by such variables as type of substratum, cross-section of the rook channel, longitudinal profile, and horizontal arrangement. Each change in the water flow and intensity of rubble transportation causes the morphology of the brook bed to change, and the direct causes are erosion and deposition processes. The objective of the survey studies presented in this mono-graph was to identify regularities controlling the processes of lateral and deep erosion, transportation, and sedimentation processes in two Carpathian brooks: Słomka and Kasinka. The survey studies were performed in a period from 2004 to 2006.The Słomka brook is a 25.2 km long, left-bank tributary of the Dunajec river and drains an area of 69.90 km2. The Kasinka brook is a right-bank tributary of the Raba river, and it pours into this river at km 92 +750, below the Mszanka brook mouth. The studies comprised both the straight sections of the brook channels and the strongly eroded section along the concave bank (the Kasinka brook). Within the gauging sections, comprehensive measurements were performed in order ...