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DETERMINATION OF GEOMORPHOMETRIC CHARACTERISTICS OF WATERSHEDS USING GEOINFORMATIC SYSTEMS

Vizina, Stepan, Hradilek, Vaclav, Basta, Petr

First published: 2013-06-20https://doi.org/10.5593/sgem2013/bc3/s12.011View metrics

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Title
DETERMINATION OF GEOMORPHOMETRIC CHARACTERISTICS OF WATERSHEDS USING GEOINFORMATIC SYSTEMS
Authors
Vizina, Stepan, Hradilek, Vaclav, Basta, Petr
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 13th SGEM GeoConference on WATER RESOURCES. FOREST, MARINE AND OCEAN ECOSYSTEMS
Publisher
Stef92 Technology
Year
2013
Pages
85 - 92 pp
ISSN
1314-2704
ISBN
Not available yet
Language
en
Publication type
Conference Paper
References54
  1. ODIE REDDY, G.P. & MAJI, A.K. & GAJBHIYE, K.S.: Drainage morphometry and its influence on landform characteristics in a basaltic terrain, Central India – a remote sensing and GIS approach. International Journal of Applied Earth and Geoinformation. 6, pp. 1–16, 2004.

  2. PAKHMODE, V. & KULAKARNI, H. & DEOLANKAR, S.B.: Hydrological drainage analysis in watershed programme planning: a case from the Deccan basalt, India. Journal of Hydrogeology. 11, pp. 595– 604, 2003.

  3. SINGH, S.: Quantitative geomorphology of the drainage basin. In: CHOUHAN, T.S. & JOSHI, K.N. (Eds.), Readings on Remote Sensing Applications. Scientific publishers, Jodhpur. ISBN: 81-7233 -040-5, 1992.

  4. ESPER, A.M.Y.: Morphometric analysis of Colanguil river basin and flash flood hazard, San Juan Argentina. Environmental Geology 55, pp. 107– 111, 2008.

  5. BHASKAR, N.R. & PARIDA, B.P. & NAYAK, A.K.: Flood estimation for ungauged catchments using GIUH. Journal of Water Resources Planning and Management, ASCE 123 (4), pp. 228–238, 1997.

  6. JAIN, S.K. & SINGH, R.D. & SETH, S.M.: Design flood estimation using GIS supported GIUH approach. Water Resources Management. 14, pp. 369–376, 2000.

  7. MÁCA, P.: Jednotkový hydrogram. ČZU a VÚV, Praha, 101 p., 2010.

  8. PAIVA, R. C. D. & COLLISCHONN, W. & TUCCI, C. E. M.: Large scale hydrologic and hydrodynamic modeling using limited data and a GIS based approach [online]. Journal of Hydrology, DOI: 10.1016/j.jhydrol.2011.06.007, [cit. 2011-09 -20] Available from:, 2011.

  9. OLANG, L. O. & FÜRST, J.: Effects of land cover change on flood peak discharges and runoff volumes: model estimates for the Nyando River Basin, Kenya [online]. Hydrological Processes, DOI: 10.1002/hyp.7821, [cit. 2011-09 -20] Available from:, 2011.

  10. BEDIENT, P. B. & HUBER, W. C.: Hydrology and Floodplain Analysis. Prentice Hall, Upper Saddle River, New Jersey, 763 p., 2002.

  11. HUTCHINSON, M. F. & DOWLING, T. I.: A continental hydrological assessment of a new grid-based digital elevation model of Australia. Hydrological Processes, vol. 5, pp. 45-58, 1991.

  12. HUTCHINSON, M. F. & GESSLER, P.E.: Splines – more than just a smooth interpolator. Geoderma vol. 62, pp. 45-67, 1994.

  13. MOORE, I. D. & GRAYSON, R. B. & LADSON, A. R.: Digital terrain modelling: A review of hydrological, geomorphological, and biological applications. Hydrological Processes vol. 5, pp. 3-30, 1991 . GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  14. LI J. & WONG D. W. S.: Effects of DEM sources on hydrologic applications. Computer, Environment and Urban Systems, vol. 34, 251-261, 2009.

  15. GARBRECHT, J. & MARTZ, L.W.. Comment on: digital elevation model grid size, landscape representation, and hydrologic simulat ions by Weihua Zhang and David R. Montgomery. Water Resources Research 32, pp. 1461–1462, 1996.

  16. MARK, D. M.: Automatic detection of drainage networks from digital elevation models. Cartographica, vol 21(2-3), pp. 168-178, 1984.

  17. BAND, L. E.: Topographic partition of watersheds with digital elevation models. Water Resources Research, Vol. 22(1), pp. 15– 24, 1998.

  18. DJOKIC, D.: Comprehensive Terrain Preprocessing Using Hydro Tools. ESRI, New York, 61 p., 2008 .

  19. MAIDMENT, D. R.: Arc Hydro: GIS for Water Resources. Esri Press, 220 p. , 2002.

  20. GRAY , D. M.: Interrelationships of Watershed Characteristics. Journal of Geophysical Research, Vol. 66, No. 4, pp. 1215-1223, 1961.

  21. HUTCHINSON, M.F.: Calculation of hydrologically sound digital elevation models. Paper presented at Third International Symposium on Spatial Data Handling at Sydney, Australia, 1988.

  22. HUTCHINSON, M.F.: A new procedure for gridding elevation and stream line data with automatic removal of spurious pits. Journal of Hydrology 106: pp. 211-232, 1989.

  23. FA IRCHILD, J. & LAYMARIE, P.: Drainage networks from grid digital elevation models. Water Resources Research. 27, pp. 29–61, 1991.

  24. HORTON, R.E.: Drainage basin characteristics. Trans. American Geophysical Union 13, pp. 350–361, 1932.

  25. HORTON, R.E.: Erosional development of streams and their drainage basins, a hydro-physical approach to quantitative morphology. Geological Society of America Bulletin 56 (3), pp. 275–370, 1945.

  26. STRAHLER, A.: Quantitative analysis of watershed geomorpho logy. Transaction AGU 38, pp. 913–920, 1957.

  27. STRAHLER, A. N.: Quantitative geomorphology of drainage basins and channel networks, section 4-II. In V. T. Chow (Ed.), Handbook of Applied Hydrology (pp. 04 – 39). New York: McGraw-Hill, 1964.

  28. ODIE REDDY, G.P. & MAJI, A.K. & GAJBHIYE, K.S.: Drainage morphometry and its influence on landform characteristics in a basaltic terrain, Central India – a remote sensing and GIS approach. International Journal of Applied Earth and Geoinformation. 6, pp. 1–16, 2004.

  29. PAKHMODE, V. & KULAKARNI, H. & DEOLANKAR, S.B.: Hydrological drainage analysis in watershed programme planning: a case from the Deccan basalt, India. Journal of Hydrogeology. 11, pp. 595– 604, 2003.

  30. SINGH, S.: Quantitative geomorphology of the drainage basin. In: CHOUHAN, T.S. & JOSHI, K.N. (Eds.), Readings on Remote Sensing Applications. Scientific publishers, Jodhpur. ISBN: 81-7233 -040-5, 1992.

  31. ESPER, A.M.Y.: Morphometric analysis of Colanguil river basin and flash flood hazard, San Juan Argentina. Environmental Geology 55, pp. 107– 111, 2008.

  32. BHASKAR, N.R. & PARIDA, B.P. & NAYAK, A.K.: Flood estimation for ungauged catchments using GIUH. Journal of Water Resources Planning and Management, ASCE 123 (4), pp. 228–238, 1997.

  33. JAIN, S.K. & SINGH, R.D. & SETH, S.M.: Design flood estimation using GIS supported GIUH approach. Water Resources Management. 14, pp. 369–376, 2000.

  34. MÁCA, P.: Jednotkový hydrogram. ČZU a VÚV, Praha, 101 p., 2010.

  35. PAIVA, R. C. D. & COLLISCHONN, W. & TUCCI, C. E. M.: Large scale hydrologic and hydrodynamic modeling using limited data and a GIS based approach [online]. Journal of Hydrology, DOI: 10.1016/j.jhydrol.2011.06.007, [cit. 2011-09 -20] Available from:, 2011.

  36. OLANG, L. O. & FÜRST, J.: Effects of land cover change on flood peak discharges and runoff volumes: model estimates for the Nyando River Basin, Kenya [online]. Hydrological Processes, DOI: 10.1002/hyp.7821, [cit. 2011-09 -20] Available from:, 2011.

  37. BEDIENT, P. B. & HUBER, W. C.: Hydrology and Floodplain Analysis. Prentice Hall, Upper Saddle River, New Jersey, 763 p., 2002.

  38. HUTCHINSON, M. F. & DOWLING, T. I.: A continental hydrological assessment of a new grid-based digital elevation model of Australia. Hydrological Processes, vol. 5, pp. 45-58, 1991.

  39. HUTCHINSON, M. F. & GESSLER, P.E.: Splines – more than just a smooth interpolator. Geoderma vol. 62, pp. 45-67, 1994.

  40. MOORE, I. D. & GRAYSON, R. B. & LADSON, A. R.: Digital terrain modelling: A review of hydrological, geomorphological, and biological applications. Hydrological Processes vol. 5, pp. 3-30, 1991 . GeoConference on Water Resources. Forest, Marine and Ocean Ecosystems

  41. LI J. & WONG D. W. S.: Effects of DEM sources on hydrologic applications. Computer, Environment and Urban Systems, vol. 34, 251-261, 2009.

  42. GARBRECHT, J. & MARTZ, L.W.. Comment on: digital elevation model grid size, landscape representation, and hydrologic simulat ions by Weihua Zhang and David R. Montgomery. Water Resources Research 32, pp. 1461–1462, 1996.

  43. MARK, D. M.: Automatic detection of drainage networks from digital elevation models. Cartographica, vol 21(2-3), pp. 168-178, 1984.

  44. BAND, L. E.: Topographic partition of watersheds with digital elevation models. Water Resources Research, Vol. 22(1), pp. 15– 24, 1998.

  45. DJOKIC, D.: Comprehensive Terrain Preprocessing Using Hydro Tools. ESRI, New York, 61 p., 2008 .

  46. MAIDMENT, D. R.: Arc Hydro: GIS for Water Resources. Esri Press, 220 p. , 2002.

  47. GRAY , D. M.: Interrelationships of Watershed Characteristics. Journal of Geophysical Research, Vol. 66, No. 4, pp. 1215-1223, 1961.

  48. HUTCHINSON, M.F.: Calculation of hydrologically sound digital elevation models. Paper presented at Third International Symposium on Spatial Data Handling at Sydney, Australia, 1988.

  49. HUTCHINSON, M.F.: A new procedure for gridding elevation and stream line data with automatic removal of spurious pits. Journal of Hydrology 106: pp. 211-232, 1989.

  50. FA IRCHILD, J. & LAYMARIE, P.: Drainage networks from grid digital elevation models. Water Resources Research. 27, pp. 29–61, 1991.

  51. HORTON, R.E.: Drainage basin characteristics. Trans. American Geophysical Union 13, pp. 350–361, 1932.

  52. HORTON, R.E.: Erosional development of streams and their drainage basins, a hydro-physical approach to quantitative morphology. Geological Society of America Bulletin 56 (3), pp. 275–370, 1945.

  53. STRAHLER, A.: Quantitative analysis of watershed geomorpho logy. Transaction AGU 38, pp. 913–920, 1957.

  54. STRAHLER, A. N.: Quantitative geomorphology of drainage basins and channel networks, section 4-II. In V. T. Chow (Ed.), Handbook of Applied Hydrology (pp. 04 – 39). New York: McGraw-Hill, 1964.

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