|
1. Ahmadi, H., Jafari, M., Golkarian, A., Abrisham, E., Laflen, J., (2007), "Estimating water erosion and sediment using WEPP model (Case study of Bar-Erieh watershed, Neyshabur)", Pajouhesh & Sazandegi, 75: 161-172. [In Persian]. 2. Aksoy, A., Kavvas, M., (2005),"A review of hillslope and watershed scale erosion and sediment transport models", Catena, 64: 247-271. [ DOI:10.1016/j.catena.2005.08.008] 3. Alaei Taleghani, M., (2009), "Geomorphology of Iran", Tehran: Ghomes publication. [In Persian]. 4. Alexander, GN., (1972), "Effect of catchment area on flood magnitude", Journal of Hydrology, 16 (3): 225-240. [ DOI:10.1016/0022-1694(72)90054-6] 5. Alizadeh, A., (2013), "The principles of applied hydrology", 36th Edition, Imam Reza publication: Mashhad. [In Persian]. 6. Avena, G. C., Giuliano, G., Lupia Palmieri, E., (1967), "Sulla valutazione quantitativa della gerarchizzazione ed evoluzione dei reticoli fluviali", Bollettino della Societa Geologica Italiana, 86: 81-796. 7. Bahrami, Sh., (2013), "Analyzing the drainage system anomaly of Zagros basins: Implications for active tectonics", Tectonophysics, 608: 914-928. [ DOI:10.1016/j.tecto.2013.07.026] 8. Bahrami, Sh., Abkari, E., Motamedi¬ Rad, M., (2015), "Geometry analysis of drainage basins by means of tectonic geomorphology indicators (Case study: Sadkharv, Kalateh-Sadat, Farub-Ruman and Gelian catchments), Journal of geographical space, 14 (48): 199-222. [In Persian]. 9. Baroni, C., Noti, V., Ciccacci, S., Righini, G., Salvatore, M. C., (2005), "Fluvial origin of the valley system in northern Victoria Land (Antarctica) from quantitative geomorphic analysis", GSA Bulletin, 117: 212-228 [ DOI:10.1130/B25529.1] 10. Bomeri, M., Nahtanifar, A. B., Radfar, Sh., Mahdavi, A., (2011), "Identification of flood plains and physiographic and quantitative features of diving basin using GIS and remote sensing, Geography And Development Iranian Journal, 9 (22): 129-14. [In Persian]. 11. Chorley, R. J., (1969), "The drainage basin as the fundamental geomorphic unit', a synthesis of hydrology, geomorphology and socio-economic geography", Methue Methuen, 26: 77-9 12. Ciccacci, S., Fredi. P., Palmieri, E. L., Pugliese, F., (1986), "Indirect evalution of erosion entity in drainage basins through geomorphic, climatic and hydrological parameters".Gardiner, V. (Ed.), International Geomorphology Part II. John Wiley & Sons Ltd, Chichester, pp 33-48 13. Darabi, H., Solaimani, K., Shahedi, K., Miryaghubzadeh4, M., (2013)," Sub-watersheds classification based on morphometric parameters using cluster analysis in Pol-Doab Shazand watersh", Water and Soil Science, 22 (4): 199-211. [In Persian]. 14. DiBiase, R. A., Kelin, X.,Whipple, A., Arjun, M., Heimsath, A., William, B., Ouimet, B., (2010)," Landscape form and millennial erosion rates in the San Gabriel Mountains, CAEarth and Planetary Science Letters, 289: 134-144. [ DOI:10.1016/j.epsl.2009.10.036] 15. Fathizad, H., Karimi, A., Tavakoli, M., (2016)," Role of sensitivity of erosion the geological formations at erosion rate and sediment yield (Case study: Sub-basins of Doviraj river, Ilam province)", Journal of Watershed Management Research, 7 (13): 208-193. [In Persian]. [ DOI:10.18869/acadpub.jwmr.7.13.208] 16. Goudie, A., (2004), "Encyclopedia of geomorphology," vol 2, Internatinal association of Geomorphology: London. 17. Guarnieri, P., Pirrotta, C., (2008), "The response of drainage basins to the late quaternary tectonics in the Sicilian side of the Messina Strait (NE Sicily)", Geomorphology, 95: 260-273. [ DOI:10.1016/j.geomorph.2007.06.013] 18. Gupta, V., Waymire, E., Wang, C., (1980)," A representation of an instantaneous unit hydrograph from geo- morphology", Journal of Water Resource, 16: 855-862. [ DOI:10.1029/WR016i005p00855] 19. Hakimkhani, Sh., Arab Khedri, M., (2006), "Regression analysis between suspended sediment and hydrogeomorphometric characteristics of Lake Urmia Basin", Agricultural Science Journal, 4 (17): 223-231. [In Persian]. 20. Harlin, J. M., (1984), "Watershed morphometry and time to hydrograph peak", Journal of Hydrology, 67: 141-154. [ DOI:10.1016/0022-1694(84)90238-5] 21. Horton, R. E., (1932), "Drainage basin characteristics", American Geophysical :union:: Washington, DC. [ DOI:10.1029/TR013i001p00350] 22. Hosseinzadeh, S. R., Jahadi, T. M., (2010), "Assessing the quality and accuracy of drainage morphometric analyses of drainage networks extracted from digital elevation models: A case study on Robate Gharebil catchment in Northern Khorasan", Geography and Regional Development, 8 (14): 183 -212. [In Persian]. 23. Hurtrez, J. E., Lucazeau, F., Lavé, J., Avouac, J. P., (1999), "Investigation of the relationships between basin morphology, tectonic uplift, and denudation from the study of an active fold belt in the Siwalik Hills, central Nepal", Journal of Geophysical Research, 104:12779-12796. [ DOI:10.1029/1998JB900098] 24. Iran Water Resource Management Company (IWRMC), (2008), "Data base of Iran Water Resources KhorasanRazavi Province", Tehran. [In Persian]. 25. IRIMO, (2017)," Meteorological organization country", Tehran. [In Persian]. 26. Jokarsarhangi, E., AmirAhmadi, A., Nikzad, E., (2009), "Modeling the flood estimation of the northern sub-areas of Alborz mountains using quantitative geomorphology and morphometric properties and using the geographic information system", Journal of Geography and Planning. 14(29):162-141. [In Persian]. 27. Keller, E. A., (1986)," Investigation of active tectonics: Use of surficial earth processes", Active tectonics, 136-147. 28. Leopold, L. B., Langbein, W. B., (1962), "The concept of entropy in landscap evolution", US Geological Survey Professional Paper, 1: 1-26. [ DOI:10.3133/pp500A] 29. Leopold, L. B., Wolman, M. G., (1957), "River channel patterns: Braided, meandering and straight", US Gcological Survey Profcssional Papcr, 282: 39-85. [ DOI:10.3133/pp282B] 30. Miller, J. P., (1958), "High mountain streams: Effects of geology on channel characteristics and bed material", New mexico: State Bureau of mines and minral resource. 31. Montgomery, D. R., Brandon, M.T., (2002), "Topographic controls on erosion rates in tectonically active mountain ranges", Earth Planet, Sci. Lett, 201:481-489. [ DOI:10.1016/S0012-821X(02)00725-2] 32. Onagh, M., Nahtani, M., (2004), "Relationship between geomorphologic units and erosion and sediment production in Gorganrood Kashidar watershed", Journal of Agricultural Sciences and Natural Resources, 11 (1): 157-170. [In Persian]. 33. Rangzan, K., Zarasvandi, A., Heydari, A., (2008), "Comparison of EPM and MPSIAC models in gis & rs for erosion and sediment yield assessment of the Pegah-Sorkh basin, Gotvand area, Khuzestan province, Iran", Physical Geography Research Quarterly, 40 (64): 123-136. [In Persian]. 34. Restrepo, J. D., Kjerfve, B., Hermelin, M., (2006), "Factors controlling sediment yield in a major South American drainage basin: The Magdalena river, Colombia", Journal of Hydrology, 316 (1): 213-232. [ DOI:10.1016/j.jhydrol.2005.05.002] 35. Schumm, SA., (1963), "Sinuosity of alluvial rivers on the great plains", Bulletin of the Geological Society of America, 74: 1089-1100. [ DOI:10.1130/0016-7606(1963)74[1089:SOAROT]2.0.CO;2] 36. Kirpich, Z. P., (1940), "Time of concentration of small agricultural watersheds", Civil Engineering, 6: 362- 1940. 37. Seta, M. D., Monte, M. D., Fredi, P., Palmieri, E. L., (2007), "Direct and indirect evaluation of denudation rates in Central Italy", Catena 71:21-30. [ DOI:10.1016/j.catena.2006.06.008] 38. Shabanian, E., Bellier, O., Siame, L., Abbassi, MR., Bourlès, D., Braucher, R., Farbod, Y., (2012), "The Binalud mountains: A key piece for the geodynamic puzzle of NE Iran, Tectonics, 31: 280-304. [ DOI:10.1029/2012TC003183] 39. Shariajafari, M., Ghyomiyan, J., (2005), "Relationship and correlation study between sedimentation with slope failure and land drain in central Taleghan basin", Geosciences Researches Journal, 14 (55): 90-97. [In Persian]. 40. Strahler, A. N., (1957), "Quantitative analysis of watershed geomorphology", Transactions American Geophysical :union:, 38 (6): 913-920. [ DOI:10.1029/TR038i006p00913] 41. Strahler, A. N., (1964), "Quantitave geomorphology of drainage basins and channel networks", In: McGraw, H., (ed) , Handbook of Applied Hydrology, Book Company, New York, pp 222-242. 42. Suresh, M., Sudhakar, S., Tiwari, K. N., Chowdary, V. M., (2004), "Prioritization of watersheds mophometric parameters and assessment of surface water potential using remote Sensing", Journal of tl Indian Society of remote sensing, 3: 249-259 [ DOI:10.1007/BF03030885] 43. Tuseta, J. D., Vericata, B., Batallaa, R., (2016), "Rainfall, runoff and sediment transport in a Mediterranean mountainous catchment", Journal of Science of The Total Environment, 540 (1): 114-132. [ DOI:10.1016/j.scitotenv.2015.07.075] 44. Vanoni, V. A., (1975), "Sedimentation engineering", Manuals & Reports on Engineering Practice, American Society of Civil Engineers: New York, USA. 45. Walling, D. E., (2017), "Measuring sediment yield from river basins", In Soil erosion research methods", New York: Routledge. 46. Zhang, H.Y., Shi, Z. H., Fanga, N. F., Guoa, M. H., (2015), "Linking watershed geomorphic characteristics to sediment yield: Evidence from the loess plateau of China", Geomorphology, 234: 19-27. [ DOI:10.1016/j.geomorph.2015.01.014] |
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