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RELAXATION PHASES FOLLOWING THE MOUNTAIN LANDSCAPE DISTURBANCE, THE TATRA MTS, POLAND

Pawel Kroh

First published: 2013-06-20https://doi.org/10.5593/sgem2013/be5.v1/s20.106View metrics

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Publication details

Title
RELAXATION PHASES FOLLOWING THE MOUNTAIN LANDSCAPE DISTURBANCE, THE TATRA MTS, POLAND
Authors
Pawel Kroh
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on ECOLOGY, ECONOMICS, EDUCATION AND LEGISLATION
Publisher
Stef92 Technology
Year
2013
Pages
805 - 816 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References68
  1. Balon J., Stability of the natural environment in the Western Carpathians above the upper timberline, habilitation thesis, IGiGP UJ, Kraków, pp 262 (in Polish), 2007.

  2. Brown C.S., Mark A.F., Kershaw G .P., Dickison K.J.M., Secondary Succession 24 Years after Disturbance of a New Zealand High -alpine Cushionfield, Arctic, Antarctic and Alpine Research 38, pp. 325 -334, 2006. Section Ecology and Environmental Protection

  3. Chacón P., Cavieres L.A., Recovery of Alpine Plants after a Severe Human Disturbance in the Andes of Central Chile, Arctic, Antarctic and Alpine Research 40, pp. 617-623, 2008.

  4. Chorley R., Kennedy B., Physical geography. A sys tem approach. Prentice-Hall International Inc., London, 1971.

  5. Forman, R.T.T., 1999. Land Mosaics: The Ecology Of Landscape And Regions. Cambridge University Press.

  6. Fuentes E.R., Human Impacts And Ecosystem Resilience In The Southern Andes, Mountain Research and Development 4, pp. 45-49, 1984.

  7. German K., Kosiński M., Orawiec P., Comparison of the functioning and development of geosystems in the Tatras and Podhale during the rainstorms and flood of 1997 [in:] Borowiec Z et al. (ed) Changes in the natural enviroment of the Tatras, TPN, PTPNoZ, Kraków – Zakopane, pp. 139-145 (in Polish), 2002.

  8. Gigon A., Typology And Principles Of Ecological Stability And Instability, Mountain Research And Development 3(2), pp. 95-102, 1983.

  9. Hewitt K., Distur bance regime landscapes, pp. mountain drainage systems interrupted by large rockslides, Progress in Physical Geography 30(3), pp. 365 -393, 2006.

  10. Kotarba A., Contemporary relief changes on carbonate mountain slopes. Czerwone Wierchy (Tatras) case study, Prace Geograficzne IG PZ PAN 120, pp. 1-128 (in Polish), 1976.

  11. Kotarba A., Contemporary eolian processes and the stabilization of mountain ridgelines in the High Tatras in Poland, Przegląd Geograficzny 55, pp. 171 -182 (in Polish), 1983.

  12. Kotarba A., Tendencies Of Debris Slope Evolution In The High Tatra Mountains, Geographia Polonica, 55, pp. 83-90 (in Polish), 1988.

  13. Kotarba A., Geomorphological effects of catastrophic summer downpours in the High Tatras, Acta Universitatis Nicolai Copernic i, Geografia XXVII 92, pp. 21 -34 (in Polish), 1994.

  14. Kotarba, A., Formation of high mountain talus slopes related to debris flow activity in the High Tatra Mountains, Permafrost and Periglacial Processes, 8, 1997.

  15. Kowal-Kozłowska A., Microrelief of the subalpine zone of the Czerwone Wierchy, typewritten, master’s thesis, archiwum Zakładu Geomorfologii Inst. Geografii i Gosp. Przestrz. UJ, 155 pp.(in Polish), 1982.

  16. Kroh P., Changes in the natural environment in the M iętusia Valley in the Tatras, typewritten, master’s thesis, Archiwum Zakładu Geografii Fizycznej IGiGP UJ, Kraków, 107 pp. (in Polish), 2000.

  17. Kroh P., Relaxation in natural environment of Polish Tatra Mts, Institute of Geography and Spartial Management, Jagellonian University, 1-168 (in Polish), 2012.

  18. Kroh P., Characteristics of environmental relaxation in mountain landscapes following natural disturbances, the Tatra Mountains, Poland , International Multidisciplinary Scientific GeoConference SGEM, 2013. GeoConference on Ecology, Economics, Education and Legislation

  19. Lawson D.E., Response Of Permafrost Terrain To Disturbance, pp. A Synthesis Of Observations From Northern Alaska, U.S.A., Arctic, Antarctic and Alpine Research 18, pp. 1-17, 1986.

  20. Orawiec P., Functioning of selected geosystems formed duri ng extreme precipitation and the flood of July 1997 in the Tatras and Podhale, typewritten, master’s thesis, Archiwum Zakładu Geografii Fizycznej IGiGP UJ, Kraków, 234 pp. (in Polish), 2000.

  21. Phillips J.D., Sources of nonlinearity and complexity in geo morphic systems, Progress in Physical Geography 27(1), pp. 1-23. 2003.

  22. Phillips J.D., Changes, perturbations, and responses in geomorphic systems, Progress in Physical Geography 33(1), pp. 17-30, 2009.

  23. PUL TPN, Forest Management Plan of Tatra National Park. Jan. 1, 1975. Bureau of Forest Management and Forest Geodesy in Krakow, Krakow, (in Polish) 1975.

  24. PUL TPN, Forest Management Plan of Tatra National Park. Jan. 1, 1991. Bureau of Forest Management and Forest Geodesy in Krakow, Krakow, (in Polish) 1991.

  25. Rączkowska Z., Nivation and its Geomorphic Significance – Examples from the Polish High Tatra and the Ortles -cevedale Massif, the Italian Alps, Studia Geomorph. Carpatho-Balcanica XXXI, pp. 175-192, 1997.

  26. Rączkowska Z., Slope dynamics in the periglacial zone of the Tatra MTS, Biuletyn Peryglacjalny 38, pp. 127-133, 1999.

  27. Richling, A., Solon, J., Landscape Ecology, Wydawnictwo Naukowe PWN (in Polish), 2011.

  28. Sass, O., Haas, F., Schimmer, C., Heel, M., Bremer, M., Stöger, F. an d Wetzel, K.- F., Impact of forest fires on geomorphic processes in the Tyrolean Limestone Alps. Geografiska Annaler: Series A, Physical Geography, 94, 117-133, 2012.

  29. Scherrer P., Pickering C., Recovery of Alpine Vegetation from Grazing and Drought, pp . Data from Long -term Photoquadrats in Kosciuszko National Park, Australia, Arctic, Antarctic and Alpine Research 37, pp. 574-584, 2005.

  30. Scherrer P., Pickering C., Recovery of Alpine Herbfield on a Closed Walking Track in the Kosciuszko Alpine Zone, Australia, Arctic, Antarctic and Alpine Research 38, pp. 239-248, 2006.

  31. Trimble S.W., The use of historical data and artifacts in geomorphology, Progress in Physical Geography 32(1), pp. 3-29, 2008.

  32. Turner M.G ., Romme W.H., Gardner R.H., O'Neill R .V ., Kratz T.K., A revised concept of landscape equilibrium, pp. Disturbance and stability on scaled landscapes, Lanscape Ecology 8, pp. 213-227, 1993.

  33. Westman W.E., Measuring the Inertia and Resilience of Ecosystems, Bioscience 28(11), pp. 705-710, 1978.

  34. Widacki, W., Comments about geosystem functioning, Folia Geogr., Ser. Geogr. - Phys., 12, 137-146 (in Polish), 1979.

  35. Balon J., Stability of the natural environment in the Western Carpathians above the upper timberline, habilitation thesis, IGiGP UJ, Kraków, pp 262 (in Polish), 2007.

  36. Brown C.S., Mark A.F., Kershaw G .P., Dickison K.J.M., Secondary Succession 24 Years after Disturbance of a New Zealand High -alpine Cushionfield, Arctic, Antarctic and Alpine Research 38, pp. 325 -334, 2006. Section Ecology and Environmental Protection

  37. Chacón P., Cavieres L.A., Recovery of Alpine Plants after a Severe Human Disturbance in the Andes of Central Chile, Arctic, Antarctic and Alpine Research 40, pp. 617-623, 2008.

  38. Chorley R., Kennedy B., Physical geography. A sys tem approach. Prentice-Hall International Inc., London, 1971.

  39. Forman, R.T.T., 1999. Land Mosaics: The Ecology Of Landscape And Regions. Cambridge University Press.

  40. Fuentes E.R., Human Impacts And Ecosystem Resilience In The Southern Andes, Mountain Research and Development 4, pp. 45-49, 1984.

  41. German K., Kosiński M., Orawiec P., Comparison of the functioning and development of geosystems in the Tatras and Podhale during the rainstorms and flood of 1997 [in:] Borowiec Z et al. (ed) Changes in the natural enviroment of the Tatras, TPN, PTPNoZ, Kraków – Zakopane, pp. 139-145 (in Polish), 2002.

  42. Gigon A., Typology And Principles Of Ecological Stability And Instability, Mountain Research And Development 3(2), pp. 95-102, 1983.

  43. Hewitt K., Distur bance regime landscapes, pp. mountain drainage systems interrupted by large rockslides, Progress in Physical Geography 30(3), pp. 365 -393, 2006.

  44. Kotarba A., Contemporary relief changes on carbonate mountain slopes. Czerwone Wierchy (Tatras) case study, Prace Geograficzne IG PZ PAN 120, pp. 1-128 (in Polish), 1976.

  45. Kotarba A., Contemporary eolian processes and the stabilization of mountain ridgelines in the High Tatras in Poland, Przegląd Geograficzny 55, pp. 171 -182 (in Polish), 1983.

  46. Kotarba A., Tendencies Of Debris Slope Evolution In The High Tatra Mountains, Geographia Polonica, 55, pp. 83-90 (in Polish), 1988.

  47. Kotarba A., Geomorphological effects of catastrophic summer downpours in the High Tatras, Acta Universitatis Nicolai Copernic i, Geografia XXVII 92, pp. 21 -34 (in Polish), 1994.

  48. Kotarba, A., Formation of high mountain talus slopes related to debris flow activity in the High Tatra Mountains, Permafrost and Periglacial Processes, 8, 1997.

  49. Kowal-Kozłowska A., Microrelief of the subalpine zone of the Czerwone Wierchy, typewritten, master’s thesis, archiwum Zakładu Geomorfologii Inst. Geografii i Gosp. Przestrz. UJ, 155 pp.(in Polish), 1982.

  50. Kroh P., Changes in the natural environment in the M iętusia Valley in the Tatras, typewritten, master’s thesis, Archiwum Zakładu Geografii Fizycznej IGiGP UJ, Kraków, 107 pp. (in Polish), 2000.

  51. Kroh P., Relaxation in natural environment of Polish Tatra Mts, Institute of Geography and Spartial Management, Jagellonian University, 1-168 (in Polish), 2012.

  52. Kroh P., Characteristics of environmental relaxation in mountain landscapes following natural disturbances, the Tatra Mountains, Poland , International Multidisciplinary Scientific GeoConference SGEM, 2013. GeoConference on Ecology, Economics, Education and Legislation

  53. Lawson D.E., Response Of Permafrost Terrain To Disturbance, pp. A Synthesis Of Observations From Northern Alaska, U.S.A., Arctic, Antarctic and Alpine Research 18, pp. 1-17, 1986.

  54. Orawiec P., Functioning of selected geosystems formed duri ng extreme precipitation and the flood of July 1997 in the Tatras and Podhale, typewritten, master’s thesis, Archiwum Zakładu Geografii Fizycznej IGiGP UJ, Kraków, 234 pp. (in Polish), 2000.

  55. Phillips J.D., Sources of nonlinearity and complexity in geo morphic systems, Progress in Physical Geography 27(1), pp. 1-23. 2003.

  56. Phillips J.D., Changes, perturbations, and responses in geomorphic systems, Progress in Physical Geography 33(1), pp. 17-30, 2009.

  57. PUL TPN, Forest Management Plan of Tatra National Park. Jan. 1, 1975. Bureau of Forest Management and Forest Geodesy in Krakow, Krakow, (in Polish) 1975.

  58. PUL TPN, Forest Management Plan of Tatra National Park. Jan. 1, 1991. Bureau of Forest Management and Forest Geodesy in Krakow, Krakow, (in Polish) 1991.

  59. Rączkowska Z., Nivation and its Geomorphic Significance – Examples from the Polish High Tatra and the Ortles -cevedale Massif, the Italian Alps, Studia Geomorph. Carpatho-Balcanica XXXI, pp. 175-192, 1997.

  60. Rączkowska Z., Slope dynamics in the periglacial zone of the Tatra MTS, Biuletyn Peryglacjalny 38, pp. 127-133, 1999.

  61. Richling, A., Solon, J., Landscape Ecology, Wydawnictwo Naukowe PWN (in Polish), 2011.

  62. Sass, O., Haas, F., Schimmer, C., Heel, M., Bremer, M., Stöger, F. an d Wetzel, K.- F., Impact of forest fires on geomorphic processes in the Tyrolean Limestone Alps. Geografiska Annaler: Series A, Physical Geography, 94, 117-133, 2012.

  63. Scherrer P., Pickering C., Recovery of Alpine Vegetation from Grazing and Drought, pp . Data from Long -term Photoquadrats in Kosciuszko National Park, Australia, Arctic, Antarctic and Alpine Research 37, pp. 574-584, 2005.

  64. Scherrer P., Pickering C., Recovery of Alpine Herbfield on a Closed Walking Track in the Kosciuszko Alpine Zone, Australia, Arctic, Antarctic and Alpine Research 38, pp. 239-248, 2006.

  65. Trimble S.W., The use of historical data and artifacts in geomorphology, Progress in Physical Geography 32(1), pp. 3-29, 2008.

  66. Turner M.G ., Romme W.H., Gardner R.H., O'Neill R .V ., Kratz T.K., A revised concept of landscape equilibrium, pp. Disturbance and stability on scaled landscapes, Lanscape Ecology 8, pp. 213-227, 1993.

  67. Westman W.E., Measuring the Inertia and Resilience of Ecosystems, Bioscience 28(11), pp. 705-710, 1978.

  68. Widacki, W., Comments about geosystem functioning, Folia Geogr., Ser. Geogr. - Phys., 12, 137-146 (in Polish), 1979.

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