RCIN and OZwRCIN projects

Object

Title: Geomorphic response to the Little Ice Age in Slovakia

Creator:

Stankoviansky, Miloš ; Pišút, Peter

Date issued/created:

2011

Resource type:

Text

Subtitle:

Geographia Polonica Vol. 84 Special Issue Part 1 (2011)

Publisher:

IGiPZ PAN

Place of publishing:

Warszawa

Description:

187 pp. ; 24 cm

Type of object:

Journal/Article

References:

1. Alapy, Gy. (1933), A csallóközi halászat története [The history of fishing in Žitný Ostrov Island], Komárno, re-edited by Kalligram in 1994.
2. Andrusov, D. (1931), Poznámka o sesuvech v povodí Oravy na Slovensku [Comment on landslides in the Orava River Basin in Slovakia], in Věstník Státního geologického ústavu ČSR, VII, Praha, SGÚ ČSR: 172–174.
3. Arcanum (2006a), A Magyar Országos Levéltár Térképtára [Map Archives of the Hungarian National Archives]. I. Kamarai Térképek [Maps of Hungarian Royal Chamber, 1747–1882], DVD–ROM, Arcanum Adatbázis Kft. and National Archives of Hungary, Budapest.
4. Arcanum (2006b), A Magyar Országos Levéltár Térképtára [Map Archives of the Hungarian National Archives]. II. Helytartótanácsi Térképek [Maps of the Hungarian Locumtenential Council, 1735–1875], Magyar Országos Levéltár and Arcanum Adatbázis Kft., Budapest.
5. Arcanum (2007), Kéziratos Térképek az Országos Széchényi Könyvtár Térképtárában [Manuscript maps from the map repository of the National Széchényi Library], DVD–ROM, Arcanum Adatbázis Kft. and Országos Széchényi Könyvtár, Budapest.
6. Bitara, E. (1998), História povodní v povodí Váhu [History of floods in the Váh basin], in Bačík, M., Podkonický, L. and Szolgay, J. (eds.), Povodne a protipovodňová ochrana, Dom techniky ZSVTS, Banská Bystrica, 16–20.
7. Boardman, J., Verstraeten, G. and Bielders, Ch. (2006), Muddy floods, in Boardman, J. and Poesen, J. (eds.), Soil erosion in Europe, Wiley, Chichester, 743–755.
http://dx.doi.org/10.1002/0470859202.ch53 -
8. Bork, H.-R., Bork, H., Dalchow, C., Faust, B., Piorr, H. P. and Schatz, T. (1998), Landschaftsentwicklung in Mitteleuropa, Gotha, Klett–Perthes.
9. Brázdil, R. (1996), Reconstruction of past climate from historical sources in the Czech Lands, in Jones, P. D., Bradley, R. S. and Jouzel, J. (eds.), Climate variations and forming mechanisms of the last 2000 years, NATO ASI Series, Vol. I 41, Springer, Berlin, Heidelberg, 409–431.
10. Brázdil, R. (2000), Historical climatology: definition, data, methods, results, Geografický časopis, 52: 99–121.
11. Brázdil, R., Dobrovolný, P., Elleder, L., Kakos, V., Kotyza, O., Květoň, V., Macková, J., Müller, M., Štekl, J., Tolasz, R. and Valášek, H. (2005), Historické a současné povodně v České republice, [Historical and recent floods in the Czech Republic] Brno, Masarykova univerzita, Praha, Český hydrometeorologický ústav.
12. Brázdil, R., Dobrovolný, P. and Kotyza, O. (2004), Floods in the Czech Republic during the past millennium, La Houille Blanche, 5: 50–55.
http://dx.doi.org/10.1051/lhb:200405006 -
13. Brázdil, R., Glaser, R., Pfister, Ch., Dobrovolný, P., Antoine, J.-M., Barriendos, M., Camuffo, D., Deutsch, D., Enri, S., Guidoboni, E., Kotyza, O. and Sanchez-Rodrigo, F. L. (1999), Flood events of selected European rivers in the sixteenth century, Climatic Change, 43: 239–285.
http://dx.doi.org/10.1023/A:1005550401857 -
14. Brázdil, R. and Kiss, A. (2001), Daily weather observations at Košice, Slovakia, in the period 1677–1681, Meteorologický časopis, 4, 4: 3–14.
15. Brázdil, R., Kiss, A., Luterbacher, J. and Valášek, H. (2008), Weather patterns in Eastern Slovakia 1717–1730, based on records from Breslau meteorological network, International Journal of Climatology, 28, 12: 1639–1651.
http://dx.doi.org/10.1002/joc.1667 -
16. Brázdil, R. and Kotyza, O. (1997), Kolísání klimatu v Českých zemích v první polovině našeho tisíciletí [Climate fluctuation in the Czech lands during the first part of the last millenium], Archeologické rozhledy, 71: 663–698.
17. Brázdil, R., Pfister, Ch., Wanner, H., Von Storch, H. and Luterbacher, J. (2005), Historical Climatology in Europe – the state of the art, Climatic Change, 70: 363–430.
http://dx.doi.org/10.1007/s10584-005-5924-1 -
18. Bučko, Š. (1980), Vznik a vývoj eróznych procesov v ČSSR [Rise and development of erosion processes in CSSR], in: Zborník z konferencie "Protierózna ochrana pôdy", Dom techniky ČSVTS, Banská Bystrica, Trnava, 1–14.
19. Bučko, Š. and Mazúrová, V. (1958), Výmoľová erózia na Slovensku [Gully erosion in Slovakia], in Zachar, D. (ed.), Vodná erózia na Slovensku, Vydavateľstvo SAV, Bratislava, 68–101.
20. Büngten, U., Brázdil, R., Frank, D. and Esper, J. (2009), Three centuries of Slovakian drought dynamics, Climate Dynamics, 35, 2: 315–329, DOI: 10.1007/s00382-009-0563-2.
http://dx.doi.org/10.1007/s00382-009-0563-2 -
21. Büngten, U., Brázdil, R., Dobrovolný, P., Trnka, M. and Kyncl, T. (2010), Five centuries of Southern Moravian drought variations revealed from living and historic tree rings, Theoretical and Applied Climatology, DOI 1. 1007/s00704-010-0381-9.
22. Fekete, Š. and Láng, A. (1967), Povodeň na česko-slovensko-maďarskom úseku Dunaja v r. 1965 a jej ochranárske dôsledky [The flood of 1965 in the Czechoslovak-Hungarian stretch of the Danube and implications for the nature protection], Československá ochrana prírody, 5: 11–31.
23. Feranec, J. and Oťaheľ, J. (2001), Krajinná pokrývka Slovenska [Land cover of Slovakia], Bratislava, Veda.
24. Flohn, H. (1982), Actual palaeoclimatic problems from a climatologist's viewpoint, in Ghazi, A. (ed.), Palaeoclimatic Research and Models, D. Reidel Publ. Comp., Dordrecht, 17–33.
25. Földes, G. (1896), Felső – Csallóköz árvédekezésének története [History of the flood control in Upper Žitný ostrov Island], Bratislava.
26. Fulajtár, E. and Janský, L. (2001), Vodná erózia pôdy a protierózna ochrana [Water erosion and soil erosion conservation], Bratislava, Výskumný ústav pôdnej úrodnosti.
27. Fűry, J. (1998), História povodní a ochrana proti ich dôsledkom na Podunajskej nížine [History of floods and flood control in the Podunajská nížina Lowlands], in Bačík, M., Podkonický, L. and Szolgay, J. (eds.), Povodne a protipovodňová ochrana, Dom techniky ZSVTS, Banská Bystrica, 9–15.
28. Graus, I. (2002), Tajomné a nezvyčajné javy a úkazy v živote mešťana [Mysterious and unusual effects and phenomena in citizen´s life], Historické štúdie, 42: 111–120.
29. Hooke, J. M. (2004), Cutoffs galore! Occurrence and causes of multiple cutoffs on a meandering river, Geomorphology, 61: 225–238.
http://dx.doi.org/10.1016/j.geomorph.2003.12.006 -
30. Horváthová, B. (2003), Povodeň to nie je len veľká voda [A flood is not just a high flow]. Bratislava, Veda.
31. Király, J. (1890), A Pozsonyi Nagy-Dunai vám és révjog története [History of the toll collection and toll law on the Major Danube in Bratislava], Pozsony (Bratislava), Angermayer.
32. Koslowski, G. and Glaser, R. (1999), Variations in reconstructed ice winter severity in the Western Baltic from 1501 to 1995, and their implications for the North Atlantic Oscillation, Climatic Change, 41: 175–191.
http://dx.doi.org/10.1023/A:1005466226797 -
33. Kotarba, A. (2004), Zdarzenia geomorfologiczne w Tatrach Wysokich podczas małej epoki lodowej [Geomorphic events in the High Tatra Mountains during the Little Ice Age], in Kotarba, A. (ed.), Rola małej epoki lodowej w przekształcaniu środowiska przyrodniczego Tatr, Prace Geograficzne 197, Instytut Geografii i Przestrzennego Zagospodarowania (IG i PZ) PAN: 9–55.
34. Kotarba, A. (2005), Geomorphic processes and vegetation pattern changes case study in the Zelené pleso Valley, High Tatra, Slovakia, Studia Geomorphologica Carpatho-Balcanica, 39: 39–48.
35. Kotarba, A. (2007a), Extreme geomorphic events in the High Tatras during the Little Ice Age, in From continent to catchment: Theories and practices in physical geography, Presses Universitaires Blaise Pascal, Clermont-Ferrand, 325–334.
36. Kotarba, A. (2007b), Geomorphic activity of debris flows in the Tatra Mts and in other European mountains, Geographia Polonica, 80, 2: 137–150.
37. Kotarba, A. and Starkel, A. (1972), Holocene morphogenetic altitudinal zones in the Carpathians, Studia Geomorphologica Carpatho-Balcanica, 6: 21–35.
38. Lamb, H.H. (1984), Climate in the last thousand years: natural climatic fluctuations and change, in Flohn, H. and Fantechi, R. (eds.), The Climate of Europe: Past, present and future, Reidel, Dordrecht, 25–64.
39. Mednyanský, A. (1962), Malebná cesta dolu Váhom. Bratislava, Slovenské vydavateľstvo krásnej literatúry [Slovak translation from Malerische Reise auf dem Waagflusse in Ungern", 2. Aufgabe, Pesth, 1844].
40. Meyer, M. and Geiger, W.J. (1677), Theatri Europaei Continuatio X. Oder Europćischer Geschichte Zehender Theil.
41. Midriak, R. and Lipták, J. (1995), Erosion and reforestation of abandoned lands in the Slovak karst biosphere reserve, Ekológia, Suppl., 2: 111–124.
42. Munkáči, J. and Rigo, F. (1998), História povodní a protipovodňovej ochrany v územnej pôsobnosti OZ Povodie Hrona [History of floods and flood control within a territorrial scope of the Povodie Hrona Enterprises], in Bačík, M., Podkonický, L. and Szolgay, J. (eds.), Povodne a protipovodňová ochrana, Dom techniky ZSVTS, Banská Bystrica, 21–28.
43. Munzar, J., Elleder, L. and Deutsch, M. (2005), The catastrophic flood in February/March 1784 – a natural disaster of European scope, Moravian Geographical Reports, 13, 1: 8 – 24.
44. Papčo, P. (2010), Geomorfologická odozva zmien využívania krajiny vo vybranom území Nitrianskej pahorkatiny [Geomorphic response to land use changes in the selected area of the Nitrianska pahorkatina Hills], Unpublished Ph.D. thesis, Bratislava, Comenius University, Faculty of Natural Sciences.
45. Paul, C.M. (1868), Die nördliche Arva, Jahrbuch der k.-k. geologischen Reichsanstalt (Wien), 18 (2): 27–46.
46. Pekárová, P. (2010), Režim povodní v povodí rieky Dunaj [The regime of floods in the Danube River catchment area], in Hydrologické dny 2010, Hradec Králové, 95–101.
47. Pekárová, P., Svoboda, A., Novák, V. and Miklánek, P. (2011), Historická hydrológia a integrovaný manažment povodí a krajiny [Historical hydrology and integrated management of the catchments and landscape], Vodohospodársky spravodajca, 1–2: 4–7.
48. Pfister, C., Luterbacher, J., Schwarz-Zanetti, G. and Wegmann, M. (1998), Winter air temperature variations in western Europe during the Early and High Middle Ages (AD 750–1300), The Holocene, 8, 5: 535–552.
http://dx.doi.org/10.1191/095968398675289943 -
49. Pfister, C., Schwarz-Zanetti, G. and Wegmann, M. (1996), Winter severity in Europe: the fourteenth century, Climatic Change, 34, 1: 91–108.
http://dx.doi.org/10.1007/BF00139255 -
50. Pišút, P. (1995), Meandrovanie Dunaja pri Bodíkoch pred zmenou charakteru riečiska v 1. storočí [Meandering of the Danube River at the village of Bodíky prior to the channel pattern change in 18th century], Geografický časopis, 47, 4: 285–298.
51. Pišút, P. (2002), Channel evolution of the pre-channelized Danube river in Bratislava, Slovakia (1712 – 1886), Earth Surface Processes and Landforms, 27: 369–390.
http://dx.doi.org/10.1002/esp.333 -
52. Pišút, P. (2004), Najstaršie mapky bratislavského Ružinova zo 16. storočia [Earliest maps of the Bratislava´s suburb Ružinov from the 16th century], Pamiatky a múzeá, 2: 44–48.
53. Pišút, P. (2006), Changes in the Danube riverbed from Bratislava to Komárno in the period prior to its regulation for medium water (1886–1896), in Mucha I. and Lisický, M. J. (eds.), Slovak-Hungarian environmental monitoring on the Danube, podzemná voda, Bratislava, 186–190.
54. Pišút, P. (2008), Endangerment of the village Čunovo (Slovakia) by lateral erosion of the Danube river in the 18th century, Moravian Geographical Reports, 16, 4: 33–44.
55. Pišút, P. (2009), Cartographic evidence of the disastrous ice flood of 1809 and its aftermath (Danube River, Slovakia), in Geophysical Research Abstract, Vol. 11, EGU2009–9201.
56. Pišút, P. (2011), Dunajská povodeň na Sviatok všetkých svätých roku 1787 a Bratislava [All Saints´ Day Flood" of 1787 and Bratislava], Geografický časopis, 63, 1: 87–109.
57. Pišút, P. and Timár, G. (2007), História územia ostrova Kopáč [History of the Ostrov Kopáč], in Majzlan, O. (ed.), Príroda ostrova Kopáč, Fytoterapia OZ, Bratislava, 7–30.
58. Porter, S. C. (1986), Pattern and forcing of Northern Hemisphere glacier variations during the last millennium, Quaternary Research, 26: 27–48.
http://dx.doi.org/10.1016/0033-5894(86)90082-7 -
59. Purgina J. (1958), Samuel Mikovíni (1700–1750). Život a dielo [Samuel Mikovíni, life and works], Edition Monumenta Slovaciae cartographica, I., Bratislava, Správa geodézie a kartografie na Slovensku.
60. Réthly, A. (1962), Időjárási események és elemi csapások Magyarországon 1700-ig [Meteorological events and natural disasters in historical Hungary until 1700], Akadémiai Kiadó, Budapes59
61. Réthly, A. (1970), Időjárási események és elemi csapások Magyarországon 1701–1800-ig [Meteorological events and natural disasters in historical Hungary from 1701 until 1800], Akadémiai Kiadó, Budapest.
62. Rohr, Ch. (2006), Measuring the frequency and intensity of floods of the Traun River (Upper Austria), 1441–1574, Hydrological Sciences – Journal des Sciences Hydrologiques, 51, 5: 834–846.
63. Stankoviansky, M. (1998), Vývoj pôsobenia ronových procesov na území Slovenska a ich geomorfologický efekt [Evolution of operation of runoff processes in the territory of Slovakia and their geomorphic effect], Geografický časopis, 50, 3–4: 235–246.
64. Stankoviansky, M. (2002), Bahenné povodne – hrozba úvalín a suchých dolín [Muddy floods– a hazard from dells and dry valleys], Geomorphologia Slovaca, 2, 2: 5–15.
65. Stankoviansky, M. (2003a), Geomorfologická odozva environmentálnych zmien na území Myjavskej pahorkatiny [Geomorphic response to environmental changes in the territory of the Myjava Hill Land], Bratislava, Univerzita Komenského.
66. Stankoviansky, M. (2003b), Historical evolution of permanent gullies in the Myjava Hill Land, Catena, 51: 223–239.
http://dx.doi.org/10.1016/S0341-8162(02)00167-4 -
67. Stankoviansky, M. (2003c), Gully evolution in the Myjava Hill Land in the second half of the last millennium in the context of the Central–European area, Geographia Polonica, 76, 2: 89–107.
68. Stankoviansky, M. (2009), Geomorphic effect and environmental impact of current and historical muddy floods in Slovakia, Zeitschrift für Geomorphologie N.F., 53, Suppl.-Band, 2: 159–170.
69. Stankoviansky, M. and Barka, I. (2007), Geomorphic response to environmental changes in the Slovak Carpathians, Studia Geomorphologica Carpatho–Balcanica, 41: 3–28.
70. Stankoviansky, M., Létal, A. and Damankošová, Z. (2007), Comparison of historical evolution of gully networks on both Slovak and Moravian forelands of the White Carpathians, in Casalí, J. and Giménez, R. (eds.), Progress in gully erosion research, Univerzidad Públika de Navarra, Pamplona, 124–125.
71. Starkel, L. (1998), Frequency of extreme hydroclimatically-induced events as a key to understanding environmental changes in the Holocene, in Issar, A.S. and Brown, N. (eds.), Water, environment and society in times of climatic change, Dordrecht, Kluwer Academic Publishers, 273–2881
http://dx.doi.org/10.1007/978-94-017-3659-6_12 -
72. Starkel, L. (2000), Heavy rains and floods in Europe during last millennium, in Obrębska-Starkel, B. (ed.), Reconstructions of climate and its modelling, Prace Geograficzne 107, Instytut Geografii i Przestrzennego Zagospodarowania (IGiPZ), PAN: 55–62.
73. Starkel, L. (2003), Clustering of flood events in the context of increased human activity, in Thorndycraft, V. R., Benito, G., Barriendos, M. and Llasat, M. C. (eds.), Palaeofloods, historical floods and climatic variability: Applications in flood risk assessment (Proceedings of the PHEFRA Workshop, Barcelona, 16–19th October, 2002), 79–84.
74. Stehlík, O. (1981), Vývoj eroze půdy v ČSR [Development of soil erosion in CSR], Studia geographica, Brno, Geografický ústav ČSAV, 72: 3–37.
75. Šindlerová, G. (2005), Využitie historických máp pri hodnotení geomorfologickej odozvy environmentálnych zmien [Use of historical maps in the assessment of geomorphic response to environmental changes], in: Zborník z vedeckej konferencie Historické mapy, Kartografická spoločnosť SR, Geografický ústav SAV, Bratislava, 213–218.
76. Špůrek, M. (1972), Historical catalogue of slide phenomena, Studia geographica, Brno, Geografický ústav ČSAV, 19: 5–178.
77. Timár, G. and Pišút, P. (2008), The development and cut–off of the Čičov/Csicsó and Nagybajcs oxbow lakes, Danube River, Slovakia/Hungary– indicators of a quickly variable riverine environment, Geophysical Research Abstracts, 10: 01097.
78. Tőry, K. (1952), A Duna és szabályozása [The Danube River and its regulation], Budapest, Akadémiai Kiadó.

Relation:

Geographia Polonica

Volume:

84

Issue:

Special Issue Part 1

Start page:

127

End page:

146

Detailed Resource Type:

Article

Format:

File size 0,8 MB ; application/pdf

Resource Identifier:

10.7163/GPol.2011.S1.9 ; oai:rcin.org.pl:2298

Source:

CBGiOS. IGiPZ PAN, call nos.: Cz.2085, Cz.2173, Cz.2406 ; click here to follow the link

Language:

eng

Rights:

Rights Reserved - Free Access

Terms of use:

Copyright-protected material. May be used within the limits of statutory user freedoms

Digitizing institution:

Institute of Geography and Spatial Organization of the Polish Academy of Sciences

Original in:

Central Library of Geography and Environmental Protection. Institute of Geography and Spatial Organization PAS

Projects co-financed by:

Programme Innovative Economy, 2010-2014, Priority Axis 2. R&D infrastructure ; European Union. European Regional Development Fund

Access:

Open

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Last modified:

Oct 2, 2020

In our library since:

Feb 9, 2012

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2473

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https://rcin.org.pl/igipz/publication/13965

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