FAQ
logo Uniwersytetu Jagiellońskiego

Udział procesów mrozowych w rozwoju brzegów rzecznych

Data publikacji: 08.11.2017

Prace Geograficzne, 2017, Zeszyt 150, s. 7 - 27

https://doi.org/10.4467/20833113PG.17.014.7318

Autorzy

,
Karol Augustowski
Uniwersytet Komisji Edukacji Narodowej w Krakowie
ul. Podchorążych 2, 30-084 Kraków, Polska
Wszystkie publikacje autora →
Józef Kukulak
Uniwersytet Komisji Edukacji Narodowej w Krakowie
ul. Podchorążych 2, 30-084 Kraków, Polska
Wszystkie publikacje autora →

Tytuły

Udział procesów mrozowych w rozwoju brzegów rzecznych

Abstrakt

Contribution of frost processes in the development of river banks

The aim of this article is to determine the share of frost processes in the annual balance of river bank erosion. Rates of erosional retreat of river banks in Podhale (boundary zone between the Central and Outer Carpathians) were measured for the hydrological year 2013–2014. Bank erosion during the winter half year was caused mainly by frost phenomena (ground ice and needle ice) and during the summer half year – by fluvial processes and mass movements (undercutting, slumping). The share of erosion by fluvial processes in the yearly progress of bank retreat (this amounted to 71 cm on average) was four times greater than by frost processes, including mass movements. The effects of erosion by frost processes were greatest in the upper parts of banks, built mostly of fine-grained alluvia, while the lower parts, built largely of gravel, were mostly eroded by fluvial processes.

Bibliografia

Abernethy B., Rutherfurd I.D., 1998, Where along a river’s length will vegetation most effectively stabilise stream banks?, Geomorphology, 23, 55–75.

Arens S.M., Slings Q., de Vries C.N., 2004, Mobility of a remobilised parabolic dune in Kennemerland, The Netherlands, Geomorphology, 59, 175–188.

Augustowski K., 2012, The role of multigelation in the development of river banks, Georeviv, 22 (1), 56–66.

Augustowski K., 2013, Niszczenie brzegów rzecznych przez procesy mrozowe na przykładach dorzecza Dunajca i Ropy w 2011 i 2012 roku, Czasopismo Geograficzne, 83 (3–4), 157–174.

Augustowski K., Chmielowska D., Kukulak J., Zawiejska J., 2012, Varied riverbank stability in the voreland of the Tatra Mountains, Geomorhologia Slovaca et Bohemica, 1, 23–31.

Augustowski K., Chmielowska D., Kukulak J., 2013, Geologiczne uwarunkowania dynamiki procesów brzegowych rzek zachodniego Podhala, Przegląd Geologiczny, 6 (12), 755–763.

Augustowski K., Kukulak J., 2013, Przekształcenia powierzchni brzegów rzecznych przez procesy mrozowe, Landform Analysis, 24, 3–10.

Banach M., 1988, Główne procesy a osady w strefie brzegowej zbiornika Włocławek, Przegląd Geograficzny, 60 (3), 267–299.

Banach M., Grobelska H., 2003, Stan dynamiki brzegów zbiornika Jeziorsko, Słupskie Prace Geograficzne, 1, 91–106.

Bartley R., Keen R.J., Hawdon A.A., Disher M.G., Kinsey-Henderson A.E., Hairsine P.B., 2006, Measuring rates of bank erosion and channel change in northern Australia: A case study from the Daintree River catchment, Reef and Rainforest CRC Final Report, CSIRO Land and Water Science Report 43/06, 51, http://www.clw.csiro.au/publications/science/2006/sr43-06.pdf (13.06.2015).

Bertrand F., 2010, Fluvial erosion measurements of streambank using Photo-Electronic Erosion Pins (PEEP), Ph.D. Thesis, University of Iowa, http://ir.uiowa.edu/cgi/viewcontent.cgi?article=1827&context=etd (10.02.2013).

Coffman D., 2009, Streambank Erosion Assessment in Non-cohesive Channels Using Erosion Pins and Submerged Jet Testing, Dallas/Fort Worth, Texas, Ph.D. Thesis, http://beardocs.baylor.edu/xmlui/bitstream/handle/2104/5318/David_Coffman_Masters.pdf?sequence=1 (12.04.2012).

Couper P., 2003, Effects of silt–clay content on the susceptibility of river banks to subaerial erosion, Geomorphology, 56, 95–108.

Couper P.R., Maddock I.P., 2001, Subaerial river bank erosion processes and their interaction with other bank erosion mechanisms on the River Arrow, Warwickshire, UK, Earth Surface Processes and Landforms, 26, 631–646.

Dutkiewicz L., 1967, The distribution of periglacial phenomena In NW-Sörkapp, Spitsbergen, Biuletyn Peryglacjalny, 16, 37–83.

Gierszewski P., 1988, Zmiany brzegów wywołane termicznymi ruchami lodu na przykładzie zbiornika włocławskiego, Przegląd Geologiczny, 60 (4), 657–674.

Gorczyca E., 2004, Przekształcanie stoków fliszowych przez procesy masowe podczas katastrofalnych opadów (dorzecze Łososiny), Wydawnictwo Uniwersytetu Jagiellońskiego, Kraków.

Green T.R., Beavis S.G., Dietrich C.R., Jakeman A.J., 1999, Relating stream–bank erosion to in-stream transport of suspended sediment, Hydrological Processes, 13, 777–787.

Hill A.R., 1973, Erosion of river banks composed of glacial till near Belfast, Northern Ireland, Zeitschrift für Geomorphologie, 17 (4), 428–442.

Hooke J.M., 1979, An analysis of the processes of river bank erosion, Journal of Hydrology, 42, 39–62.

Howard A., Raine S.R., Titmarsh G., 1998, The Contribution of Stream Bank Erosion to Sediment Loads in Gowrie Creek, Toowoomba, University of Southern Quennsland, Australia, http://www.usq.edu.au/users/raine/index_files/ASSSI98_Howard_etal.pdf (10.04.2012).

Hupp C.R., Schenk E.R., Richter J.M., Peet R.K., Townsend P.A., 2009, Bank erosion along the dam-regulated lower Roanoke River. North Carolina, The Geological Society of America, Special Paper, 451.

Jahn A., 1961, Quantitative Analysis of some Periglacial Processess In Spitsbergen, Zeszyty Naukowe Uniwersytetu Wrocławskiego, ser. B, 5, 1857–1959.

Kalinowski A., Glińska-Lewczuk K., Burandt P., Banaszek Ż., 2012, Wpływ zjawisk lodowych na erozje brzegów koryta rzecznego na przykładzie Łyny, Inżynieria Ekologiczna, 31, 57–71.

Kronvang B., Audet J., Baattrup-Pedersen A., Jensen H.S., Larsen S.E., 2012, Phosphorus Load to Surface Water from Bank Erosion in a Danish Lowland River Basin, Journal of Environmental Quality, 41, 304–313.

Lawler D.M., 1992, Process dominance in bank erosion systems, [w:] P. Carling, G.E. Petts (red.), Lowland Floodplain Rivers, John Wiley & Sons, New York, 117–143.

Lawler D.M., 1993, Needle ice processes and sediment mobilisation on river bends; the River Ilston, West Glamorgan, UK, Journal of Hydrology, 150, 81–114.

Lawler D.M., 1995, The impact of scale on the processes of channelside sediment supply: A conceptual model, [w:] W.T. Osterkamp (red.), Effects of Scale on Interpretation and Management of Sediment and Water Quality, IAHS Pub., vol. 226. IAHS Press, Wallingford, UK, 175–184.

Lawler D.M., Thorne C.R., Hooke J.M., 1997, Bank erosion and instability, [w:] C.R. Thorne, R.D. Hey, M.D. Newson (red.), Applied Fluvial Geomorphology for River Engineering and Management, Wiley, Chichester, 137–172.

Lawler D.M., Grove J.R., Couperthwaite J.S., Leeks G.J.L., 1999, Downstream change in river bank erosion rates in the Swale-Ouse system, northern England, Hydrological Processes, 13, 977–992.

Luppi L., Rinaldi M., Teruggi L.B., Darby S.E., Nardi L., 2008, Monitoring and numerical modelling of riverbank erosion processes: A case study along the Cecina River (central Italy), Earth Surface Processes and Landforms, 34 (4), 530–546.

Mengoni B., Mosselman E., 2006, Analysis of riverbank erosion processes: Cecina river, Italy, [w:] G. Parker, M.H. García (red.), River, Coastal and Estuarine Morphodynamics: RCEM 2005, Taylor & Francis Group, London, 943–951.

Merritt D.M., Cooper D.J., 2000, Riparian vegetation and channel change in response to river regulation: A comparative study of regulated and unregulated streams in the Green River Basin, USA, Regulated Rivers: Research and Management, 16, 543–564.

Neill C.R., Yaremko E.K., 1989, Identifying causes and predicting effects of bank erosion, National Conf. Hydraulic Eng., 14–18 August, New Orleans, Louisiana.

Pilarczyk K.W., Havinga H., Klaasen G.J., Verhey H.J., Mosselman E., Leemans J.A., 1989, Control of bank erosion in the Netherlands, State-of-the-art. Conf. Hydr. Eng. ASCE New Orleans, 1–32.

Przedwojski B., 1998, Morfologia rzek i prognozowanie procesów rzecznych, Wydawnictwo Akademii Rolniczej im. Augusta Cieszkowskiego, Poznań.

Rachocki A., 1974, Przebieg i natężenie współczesnych procesów rzecznych w korycie Raduni, Dokumentacja Geograficzna, 4, 1–117.

Reid J.R., 1985, Bank-erosion processes in a cool-temperate environment, Orwell Lake, Minnesota, Geological Society of America Bulletin, 96 (6), 781–792.

Reid J.R., 1992, Bank recession causes, measurement techniques, rates and predictions, Lake Sakakawea, North Dakota, Missouri River Division Sediment Ser. 38, Omaha, Nebraska.

Reid J.R., Sandberg B.S., Millsop M.D., 1988, Bank recession processes, rates and prediction, Lake Sakakawea, North Dakota, U.S.A, Geomorphology, 1, 161–189.

Rocznik Meteorologiczny 1963, PIHM.

Saynor M.J., Erskine W.D., Evans K.G., 2003, Bank erosion in the Ngarradj catchment: Results of erosion pin measurements between 1998 and 2001, Supervising Scientist Report 176, Supervising Scientist, Darwin NT, 40.

Shi Z., Wen A., Zhang X., Yan D., 2011, Comparison of the soil losses from 7Be measurements and the monitoring data by erosion pins and runoff plots in the Three Gorges Reservoir region, China, Applied Radiation and Isotopes, 69, 1343–1348.

Simon A., Hupp C.R., 1992, Geomorphic and Vegetative Recovery Processes along Modified Stream Channels of West Tennessee, U.S, Geological Survey Open-File Report 91–502, 142.

Simon A., Rinaldi M., 2000, Channel instability in the loess area of the Midwestern United States, Journal of the American Water Resources Association, 36, 133–150.

Sirvent J., Desir G., Gutierrez M., Sancho C., Benito G., 1997, Erosion rates in badland areas recorded by collectors, erosion pins and profilometer techniques (Ebro Basin, NE-Spain), Geomorphology, 18, 61–75.

Starkel L., 2006, Geomorphic hazards in the Polish Flysch Carpathians, Studia Geomorphologica Carpatho-Balcanica, 40, 7–19.

Teisseyre A.K., 1979, Przebieg zjawisk fluwialnych w zimie na przykładzie małych rzek sudeckich, Geologica Sudetica, 14 (1), 1–54.

Teisseyre A.K., 1984, Procesy fluwialne i rozwój koryta górnego Bobru na odcinku badawczym w Błażkowej (1967–1982), Geologica Sudetica, 19 (1), 7–71.

Thorne C.R., 1982, Processes and mechanisms of river bank erosion, [w:] R.D. Hey, J.C. Bathurst, C.R. Thorne (red.), Gravel-Bed Rivers, Wiley, Chichester, 227–272.

Thorne C.R., 1990, Effects of vegetation on river bank erosion and stability, [w:] J.B. Thornes (red.), Vegetation and Erosion, Wiley, Chichester, 125–144.

Thorne C.R., Lewin J., 1979, Bank processes, bed material movement and planform development in a meandering river, [w:] D.D. Rhodes, G.P. Williams (red.), Adjustments of the Fluvial System, Allen and Unwin, London, 117–137.

Vallejo L.E., 1977, Mechanics of the stability and development of the Great Lakes coastal bluffs, Ph.D. dissertation, University of Wisconsin-Madison, Madison, Wisconsin.

Vallejo L.E., 1990, Bluff retreat by frost action in the Great Lakes, [w:] 33rd Annual Meeting Technical Program Abstracts, Association of Engineering Geologists, 1–5 October, Pittsburgh, Pennsylvania, 50–51.

Van Klaveren R.W., McCool D.K., 1998, Erodibility and critical shear of a previously frozen soil, Transactions of the Asae, 41 (5), 1315–1321.

Wolman M.G., 1959, Factors influencing erosion of a cohesive river bank, American Journal of Science 257, 204–216.

Wynn T.M., Mostaghimi S., 2006, The effects of vegetation and soil type on streambank erosion, Southwestern Virginia, USA, Journal of the American Water Resources Association, 42, 69–82.

Wynn T.M., Henderson M.B., Vaughan D.H., 2008, Changes in streambank erodibility and critical shear stress due to subaerial processes along a headwater stream, southwestern Virginia, USA, Geomorphology, 97, 260–273.

Yumoto M., Ogata T., Matsuoka N., Matsumoto E., 2006, Riverbank freeze-thaw erosion along a small mountain stream, NikkoVolcanic Area, Central Japan, Permafrost and Periglacial Processes, 17, 325–339.

Informacje

Informacje: Prace Geograficzne, 2017, Zeszyt 150, s. 7 - 27

Typ artykułu: Oryginalny artykuł naukowy

Tytuły:

Polski:

Udział procesów mrozowych w rozwoju brzegów rzecznych

Angielski:

Contribution of frost processes in the development of river banks

Autorzy

Uniwersytet Komisji Edukacji Narodowej w Krakowie
ul. Podchorążych 2, 30-084 Kraków, Polska

Uniwersytet Komisji Edukacji Narodowej w Krakowie
ul. Podchorążych 2, 30-084 Kraków, Polska

Publikacja: 08.11.2017

Status artykułu: Otwarte __T_UNLOCK

Licencja: CC BY-NC-ND  ikona licencji

Udział procentowy autorów:

Karol Augustowski (Autor) - 50%
Józef Kukulak (Autor) - 50%

Korekty artykułu:

-

Języki publikacji:

Polski

Liczba wyświetleń: 1536

Liczba pobrań: 1428

<p> Udział procesów mrozowych w rozwoju brzegów rzecznych</p>