مروری بر مطالعات فرسایش خاک و منشایابی رسوب
محورهای موضوعی : جنگلداری
1 - دانشگاه شهید بهشتی
2 - دانشگاه شهید بهتشی
کلید واژه: "منشایابی رسوب", "مدل های ترکیبی", "ردیابها", "فرسایش خاک",
چکیده مقاله :
رسوبات معلق در سیستمهای رودخانهای و حوضهای از منابع غیرنقطهای سرچشمه میگیرند که از لحاظ مکانی و زمانی متفاوتاند. فرآیند منشایابی رسوب بر روشهایی تاکید میکند که پژوهشگران از طریق نمونههای ترکیبی برداشت شده از رودخانه و حوضه قادر به تفکیک منابع رسوب باشند. علاقمندی به این روش به عنوان یکی از تکنیکهای فرسایش و رسوب و نیز ابزاری برای تکمیل روشهای سنتی فرسایش آبی برای شناسایی منشا و حرکت رسوبات در داخل رودخانه در بازههای زمانی و مکانی مختلف و برآورد مقدار فرسایش خاک با استفاده از ردیابهای موجود در خاک و رسوب افزایش یافته است. این مقاله تاکیدی بر تکنیکها و روشهای استفاده شده، مدلهای ترکیبی و استفاده از ردیابهای مختلف در مطالعات فرسایش و رسوب با تاکید بر منشایابی رسوب در جهان و ایران است تا مدلهای موجود، ردیابها و تکنولوژیهای نوین را معرفی کند. نتایج حاصل از مرور پیشینه پژوهش نشان داد که در حوزه فرسایش و رسوب مطالعات منسجم و با روششناسی جدید از دهه 60 میلادی شروع شده و مطالعات در مقیاسهای حوضه بزرگ، متوسط و کوچک، دامنه و مقیاس پلات یا آزمایشگاه با تکنیکهای مختلف واپاشی رادیونوکلویید، عناصر کمیاب زمینی، خواص مغناطیسی خاک، ردیابهای دیگر و منشایابی انجام شدهاند. این پژوهش ضمن مرور و معرفی مدلهای فرسایش و رسوب، مدلهای منشایابی، ردیابهای موجود و شیوههای نمونهبرداری، تکنولوژیهای نوین فرسایش و رسوب در ایران (اختراعات) را نیز معرفی میکند.
Suspended sediments originated from nonpoint sources in the fluvial and the catchment which they are different on spatial and temporal scales. Fingerprinting of sediment process focus on methods that researchers able to discriminate sediment sources using composite and extracted samples from river and basin. Interesting to this method has been increased as a erosion and sediment technique, as well as tools for completing of old method of water erosion with regarding to identifying of sediment sources, sediment delivery in the river at various spatial and temporal scale and estimation of soil erosion using existing tracers in the soil and sediment. This research emphasis on the used techniques and methods, mixing model and utilities of various tracers in the erosion and sediment studies focusing on sediment fingerprinting in the world and Iran in order to reviewing of performed studies researchers able to be familiar with existing models, tracers and new technologies and find track of soil and sediment studies focusing on fingerprinting. Result of review showed that cohesive studies of soil and sediment with regarding to new methodology started since 60th decade and studies have been performed in large, medium and small scale basin, hillslope, plot and experimental scale with techniques such as radionuclide decay, earth rare element, magnetic properties of soils, other tracers and fingerprinting. This research reviews and introduces erosion and sediment models, fingerprinting models, existing tracers and sampling methods and new soil and sediment technologies of Iran (patents).
- Abbasi,Marzieh., Feiznia, Sadat., Ahmadi, Hassan, & Kazemi, Younes, 2009. Fingerprinting of windy sediment of Niatak using geochemistry elements tracing. Dry ecology 1: 35-43.
- Aksoy, Hafzullah and Kavvas, M. Levent, 2005. A review of hillslope and watershed scale erosion and sediment transport models, catena 64: 247-271.
- Alewell, C. Birkholz, A. Meusburger, K. Schindler Wildhaber, Y & Mabit, L, 2016. Quantitative sediment source attribution with compound-specific isotope analysis in a C3 plant-dominated catchment (central Switzerland). Biogeosciences 13(5): 1587-1596.
- Atarpourfard, Abbas., Khodami, Mahdi., Hossainy, Majid, Golbabayi, Hossain, 2005. Investigation of application of clay mineral possibility as a fingerprint in calculating of sediment yielding of Lat Shor catchment, 2th national conference of catchment and water resouces management of water and soil, Kerman.
- Bagnold, R A., 1941. The Physics of Blown Sand and Desert Dunes. London: Methuen, 11-65.
- Bird, G. Brewer, P. A. Macklin, M. G. Nikolova, M. Kotsev, T. Mollov, M & Swain, C, 2010. Quantifying sediment-associated metal dispersal using Pb isotopes: Application of binary and multivariate mixing models at the catchment-scale. Environmental pollution 158(6): 2158-2169.
- Blissenbach E, 1954. Geology of alluvial fans in semi arid regions. Geological Society of America Bulletin 55: 175-190.
- Bryan, K., 1925. The Papago country, Arizona. United Stated Geological Survey (USGA) Water-Supply Paper, p 499.
- Bullard, J E and Livingstone, I, 2002. Interactions between aeolian and fluvial systems in dryland environments. Area 34: 8-16.
- Bullard, J E. McTainsh, G H, 2003. Aeolian-fluvial interactions in dryland environments: examples, concepts and Australia case study. Progress in Physical Geography 27: 471-501.
- Chen, F. Zhang, F. Fang, N & Shi, Z, 2016. Sediment source analysis using the fingerprinting method in a small catchment of the Loess Plateau, China. Journal of Soils and Sediments, 1-15.
- Collins, AL. Walling, DE and Leeks, GJL, 1997a. Source type ascription for fluvial suspended sediment based on a quantitative composite fingerprinting technique. Catena 29: 1–27.
- Collins, A.L., Walling, D.E, 2002. Selecting fingerprinting properties for discriminating potential suspended sediment sources in river basins. J. Hydrol 261: 218–244.
- Collins, A. L., Zhang, Y., Walling, D. E., Grenfell, S. E., Smith, P., Grischeff, J., & Brogden, D, 2012. Quantifying fine‐grained sediment sources in the River Axe catchment, southwest England: application of a Monte Carlo numerical modelling framework incorporating local and genetic algorithm optimisation. Hydrological Processes, 26(13), 1962-1983.
- Cotton, C A., 1947. Climatic Accidents in Landscape-making. Christchurch, New Zealand: Whitcombe and Tombs, 126-174.
- D’Haen, K. Verstraeten, G. & Degryse, P, 2012. Fingerprinting historical fluvial sediment fluxes. Progress in Physical Geography 36(2): 154-186.
- Davis, C. M., & Fox, J. F, 2009. Sediment fingerprinting: review of the method and future improvements for allocating nonpoint source pollution. Journal of Environmental Engineering 135(7): 490-504.
- Davis, W M, 1905. The geographical cycle in an arid climate. Journal of Geology, 13: 381-407.
- Devereux, OH. Prestegaard, KL. Needelman, BA and Gellis, AC, 2010. Suspended-sediment sources in an urban watershed, Northeast Branch Anacostia River, Maryland. Hydrol Process 24: 1391– 1403.
- Doody, D. G. Archbold, M. Foy, R. H & Flynn, R, 2012. Approaches to the implementation of the Water Framework Directive: targeting mitigation measures at critical source areas of diffuse phosphorus in Irish catchments. Journal of environmental management 93(1): 225-234.
- Falbo, K., Schneider, R. L., Buckley, D. H., Walter, M. T., Bergholz, P. W., & Buchanan, B. P, 2013. Roadside ditches as conduits of fecal indicator organisms and sediment: Implications for water quality management. Journal of environmental management 128: 1050-1059.
- Feiznia, Sadat., Ahmadi, Hassan., Moazzami, Mohammad, & Fahmi, Hedayat, 2009, Investigation and determination of sediment sources contribution using natural tracers of soil (Case study: Abolfars catchment, Khozestan province). Journal of pasture and watershed-natural resources of Iran, 4: 503-514.
- Foster, G. R., 1988. Modeling soil erosion and sediment. Soil erosion research methods, Ankeny, Iowa, 97-117.
- Gao, X T. Tang, K L, 1997. Study on alternate action of wind erosion and water erosion in Shenfu-Dongsheng Coal Mining area. Journal of Soil Erosion and Soil and Water Conservation 3(4): 1-7. (in Chinese).
- Gao, Z L. Mu, X M, 2004. Spatio-temporal change of land use/coverage in loess wind-water erosion crisscross region. Journal of Soil and Water Conservation, 18(5): 146-150. (in Chinese).
- Gellis, A. C & Walling, D. E, 2011. Sediment source fingerprinting (tracing) and sediment budgets as tools in targeting river and watershed restoration programs. Stream Restoration in Dynamic Fluvial Systems 263-291.
- Ghadimi, Ali Asghar., Khodashenas, Saeed Reza., Akbarzadeh, Mohammad Reza, & Ghhram, Bijan, 2015. sediment fingerprinting of entered in lake of Sadha using geochemistry elements (Case study: river of Gholhagh in northern Khorasan province), journal of lake and electricity and hydrology plant 2(6): 20-31.
- Guzmán, G., Quinton, J. N., Nearing, M. A., Mabit, L., & Gómez, J. A, 2013. Sediment tracers in water erosion studies: current approaches and challenges. Journal of Soils and Sediments, 13(4): 816-833.
- Haddadchi, A. Ryder, D. S. Evrard, O & Olley, J, 2013. Sediment fingerprinting in fluvial systems: review of tracers, sediment sources and mixing models. International Journal of Sediment Research 28(4): 560-578.
- Hakhimkhani, Shahrokh, 2010. Evaluation of relative contribution of erosion types in sediment yield (case study: Ghare Aghaj, Makou). Journal of pasture and watershed 1: 13-27.
- Hakimkhani, Sh, 2006. Use investigation of tracers in tiny sediments of rivers using fingerprinting technique (case study: Poldasht watershed, Makou). PhD thesis. University of Tehran, 235.
- Hakimkhani, S., Ahmadi, H, & Ghayoumian, J, 2009. Determination of surface and sub-surface erosion contribution in sediment yield using fingerprinting technique in the Mergen watershed-Makou. Journal of water and soil sciences 1: 83-96.
- He Q, Walling D E, Owens P N, 1996. Interpreting the 137Cs profiles observed in several small lakes and reservoirs in southern England. Chemical Geology 129: 115-131.
- Heidari, K., Najafi Nejad, A., Khormali, F, & Baba nejad, M, 2013. Determination of land unit contributions in suspended sedimen yield using fingerprinting technique (Case study: Tol beneh catchment, Golestan province), researches of environmental erosion 11: 27-38.
- Higgitt, DL, 199. Soil erosion and soil problems. Prog Phys Geogr
15: 91–100. - Horowitz, A. J. Elrick, K. A and Hooper, R. C, 1989. A comparison of instrumental dewatering methods for the separation and concentration of suspended sediment for subsequent trace element analysis. Hydrological Processes 3(2): 163-184.
- Institute of Geographical Research, CAS, 1962. The Origin of Desert Landforms and Research Method. Beijing: Science Press 114-154. (in Chinese).
- Keyes, C R, 1912. Deflative scheme of the geographic cycle in an arid climate. Geological Society of America Bulletin, 23: 537-562.
- Kouhpeima, A., feiznia, S., Ahmadi, H, & Moazzami, M, 2011. Investigation of magnetic properties of soil in differentiation of sediment sources. journal of physic of earth and space 1: 11-19.
- Krein, A. Petticrew, E.& Udelhoven, T, 2003. The use of fine sediment fractal dimensions and colour to determine sediment sources in a small watershed, Catena, 53: 165–179.
- Lal R, 2001. Soil degradation by erosion, Land Degrad Develop 12: 519–539.
- Langford, R P, 1989. Fluvial-aeolian interactions: Part I. modern systems, Sedimentology 36: 1023-1035.
- Langford, R P. Chan, M A, 1989. Fluvial-aeolian interactions: Part II. ancient systems. Sedimentology 36: 1037-1051.
- Lartiges, B. S., Deneux-Mustin, S., Villemin, G., Mustin, C., Barres, O., Chamerois, M & Babut, M, 2001. Composition, structure and size distribution of suspended particulates from the Rhine River. Water Research 35(3): 808-816.
- McIntosh R, 1983. Floodplain geomorphology and human occupation of the upper inland delta of the Niger. Geographical Journal 149: 182-201.
- Mizugaki, S. Onda, Y. Fukuyama, T. Koga, S. Asai, H and Hiramatsu, S, 2008. Estimation of suspended sediment sources using 137Cs and 210Pbex in unmanaged Japanese cypress plantation watersheds in southern Japan. Hydrological Processes, 22(23): 4519-4531.
- Morris, G. L and Fan, J., 1997. Reservoir sedimentation handbook. McGraw-Hill, New York.
- Motha, J. A. Wallbrink, P. J. Hairsine, P. B and Grayson, R. B, 2002. Tracer properties of eroded sediment and source material. Hydrological Processes 16: 1983-2000.
- Motha, J. A. Wallbrink, P. J. Hairsine, P. B and Grayson, R. B, 2004. Unsealed roads as suspended sediment sources in an agricultural catchment in south-eastern Australia. Journal of Hydrology 286(1-4): 1-18.
- Nosrati, Kazem, 2011. Sediment sourcing based on uncertainty estimation. Journal of water research of Iran 9: 51-60.
- Nosrati, K., Ahmadi, H & sharifi, f, 2011. Fingerprinting of sediment sources: relation between Anzim activities of soil nd sediment. Journal of sciences and techniques of agriculture and natural resources, sciences of water and soil 60: 227-237.
- Nosrati, K. Govers, G. Ahmadi, H. Sharifi, F. Amoozegar, MA. Merckx, R and Vanmaercke, M, 2011. An exploratory study on the use of enzyme activities as sediment tracers: biochemical fingerprints?, Int J Sediment Res 26: 136–151.
- Nosrati, K Amini, M, 2014. Suspended sediment sampler, www.ip.ssaa.ir.
- Nosrati, K. Govers, G. Semmens, B. X & Ward, E. J, 2014. A mixing model to incorporate uncertainty in sediment fingerprinting. Geoderma 217: 173-180.
- Nosrati, K., Ahmadi, F., Nazari Samani, A.A, & Servati, M.R, 2015. determination of land use role in suspended and bedload sediment yield based on fingerprinting in Taleghani basin, Khoram Abad, pasture and catchment 68: 751-765.
- Nosrati, K., Amini, M., Haddadchi, A, & Zare, M.R, 2016. Determination of contribution in sediment generation using magnetization properties and uncertainty mixing model (case study: Ashan drainage basin, Maragheh county), Journal of sciences and techniques of agriculture and natural resources, sciences of water and soil, in press.
- Olfield, F. Rumnery, T.A. Thompson, R & Walling, D.E, 1979. Identification of suspended sediment sources by means of magnetic measurements: some preliminary results, Water resource 15: 211-218.
- Owens, P. N. Walling, D. E and Leeks, G. J. L, 2000. Tracing fluvial suspended sediment sources in the catchment of the River Tweed, Scotland, using composite fingerprints and a numerical mixing model. Tracers in Geomorphology. Chichester, Wiley, 291-307.
- Papanicolaou, A. N. Fox, J. F & Marshall, J, 2003. Soil fingerprinting in the Palouse Basin, USA, using stable carbon and nitrogen isotopes. International Journal of Sediment Research 18(2): 278-284.
- Penck, W (1905): Climatic features of the land surface, American Journal of Science, 19, pp 165-167.
- Phillips, J. M., Russell, M. A. and Walling, D. E, 2000. Time-integrated sampling of fluvial suspended sediment: a simple methodology for small catchments. Hydrological Processes 14(14): 2589-2602.
- Qiu, Y. Fu, B J. Wang, Y, 2002. Spatio-temporal variation in soil erosion and its relation to environment factors. Journal of Soil and Water Conservation, 16(1): 108-111. (in Chinese).
- Regan, John T. Fenton, Oven & Healy. Mark G, 2012. A review of phosphorus and sediment release from Irish tillage soils, the methods used to quantify losses and the current state of mitigation practice, Biology and Environment: Proceedings of the Royal Irish Academy, 157-183.
- Reid, Leslie M and Dunne, Thomas., 1996. Rapid evaluation of sediment budgets. Reiskirchen, Germany: Catena.
- Richards, Carl and Bacon, Kermit. L, 1994. Influence of fine sediment on macroinvertebrate colonization of surface and hyporheic stream substrates. Great Basin Naturalis, 54: 106-113.
- Russell, M. A., Walling, D. E. and Hodgkinson, R. A, 2001. Suspended sediment sources in two small lowland agricultural catchments in the UK. Journal of Hydrology, 252(1-4): 1-24.
- Slattery, MC. Walden, J and Burt, TP., 2000. Use of mineral magnetic measurements to fingerprinting suspended sediment sources: results from a linear mixing model. In: Foster IDL (ed) Tracers in Geomorphology. John Wiley and Sons Ltd, Chichester, UK.
- Street, F A and Grove, A T, 1976. Environmental and climatic implications of late Quaternary lake-level fluctuations in Africa. Nature 261: 385-390.
- Thomas, D S G, 1990. Arid geomorphology. Progress in Physical Geography, 14: 221-231.
- Von Bülow, K, 1930. General-geological observations in the moving dune area of the Leba lake Nehrung in East Pomerania. Jahrbuch der Preussischen Geologischen Landesanstalt 50(2): 592-606. (in German).
- Von Bülow, K, 1934. Four years of observations at the wandering dunes on the Nehrung of Leba lake. Provisional report. Jahrbuch der Preussischen Geologischen Landesanstalt, 54(1): 151-159. (in German).
- Walden, J. Slattery, MC. Burt, TP., 2000. Use of mineral magnetic measurements to fingerprinting suspended sediment sources: results from a linear mixing model. In: Foster IDL (ed) Tracers in Geomorphology. John Wiley and Sons Ltd, Chichester, UK.
- Walker, H J, 1967. Riverbank dunes in the Colville Delta, Alaska. Coastal Studies Bulletin 1: 7-14.
- Walling, Desmond, 2005. Tracing suspended sediment sources in catchments and river systems, Science of the Total Environment 344: 159-184.
- Williams, Garnett P, 1989. Sediment concentration versus water discharge during single hydrologic events in rivers. Journal of Hydrology 111(1–4): 89-106.
- Wood, Paul J and Armitage, Patrick D, 1997. Biological Effects of Fine Sediment in the Lotic Environment. Environmental Management 21(2): 203-217.
- Wright, J. F & Berrie, A. D, 1987, Ecological effects of groundwater pumping and a natural drought on the upper reaches of a chalk stream. Regulated Rivers: Research & Management, 1(2): 145-160.
- www.ip.ssaa.ir.
- www.isti.ir.
- Yi, Yujun., Yang, Zhifeng & Zhang, Shanghong, 2011. Ecological risk assessment of heavy metals in sediment and human health risk assessment of heavy metals in fishes in the middle and lower reaches of the Yangtze River basin. Environmental Pollution, 159(10): 2575-2585.
- Young, RA and Holt, RF, 1968. Tracing soil movement with fluorescent glass particles. Soil
- Zhang, XC John & Liu, B. L, 2016. Using multiple composite fingerprints to quantify fine sediment source contributions: A new direction. Geoderma 268: 108-118.
- Zhou, Huiping., Chang, Weina., & Zhang, Longjiang, 2016. Sediment sources in a small agricultural catchment: A composite fingerprinting approach based on the selection of potential sources. Geomorphology 266: 11-19.
- Abbasi,Marzieh., Feiznia, Sadat., Ahmadi, Hassan, & Kazemi, Younes, 2009. Fingerprinting of windy sediment of Niatak using geochemistry elements tracing. Dry ecology 1: 35-43.
- Aksoy, Hafzullah and Kavvas, M. Levent, 2005. A review of hillslope and watershed scale erosion and sediment transport models, catena 64: 247-271.
- Alewell, C. Birkholz, A. Meusburger, K. Schindler Wildhaber, Y & Mabit, L, 2016. Quantitative sediment source attribution with compound-specific isotope analysis in a C3 plant-dominated catchment (central Switzerland). Biogeosciences 13(5): 1587-1596.
- Atarpourfard, Abbas., Khodami, Mahdi., Hossainy, Majid, Golbabayi, Hossain, 2005. Investigation of application of clay mineral possibility as a fingerprint in calculating of sediment yielding of Lat Shor catchment, 2th national conference of catchment and water resouces management of water and soil, Kerman.
- Bagnold, R A., 1941. The Physics of Blown Sand and Desert Dunes. London: Methuen, 11-65.
- Bird, G. Brewer, P. A. Macklin, M. G. Nikolova, M. Kotsev, T. Mollov, M & Swain, C, 2010. Quantifying sediment-associated metal dispersal using Pb isotopes: Application of binary and multivariate mixing models at the catchment-scale. Environmental pollution 158(6): 2158-2169.
- Blissenbach E, 1954. Geology of alluvial fans in semi arid regions. Geological Society of America Bulletin 55: 175-190.
- Bryan, K., 1925. The Papago country, Arizona. United Stated Geological Survey (USGA) Water-Supply Paper, p 499.
- Bullard, J E and Livingstone, I, 2002. Interactions between aeolian and fluvial systems in dryland environments. Area 34: 8-16.
- Bullard, J E. McTainsh, G H, 2003. Aeolian-fluvial interactions in dryland environments: examples, concepts and Australia case study. Progress in Physical Geography 27: 471-501.
- Chen, F. Zhang, F. Fang, N & Shi, Z, 2016. Sediment source analysis using the fingerprinting method in a small catchment of the Loess Plateau, China. Journal of Soils and Sediments, 1-15.
- Collins, AL. Walling, DE and Leeks, GJL, 1997a. Source type ascription for fluvial suspended sediment based on a quantitative composite fingerprinting technique. Catena 29: 1–27.
- Collins, A.L., Walling, D.E, 2002. Selecting fingerprinting properties for discriminating potential suspended sediment sources in river basins. J. Hydrol 261: 218–244.
- Collins, A. L., Zhang, Y., Walling, D. E., Grenfell, S. E., Smith, P., Grischeff, J., & Brogden, D, 2012. Quantifying fine‐grained sediment sources in the River Axe catchment, southwest England: application of a Monte Carlo numerical modelling framework incorporating local and genetic algorithm optimisation. Hydrological Processes, 26(13), 1962-1983.
- Cotton, C A., 1947. Climatic Accidents in Landscape-making. Christchurch, New Zealand: Whitcombe and Tombs, 126-174.
- D’Haen, K. Verstraeten, G. & Degryse, P, 2012. Fingerprinting historical fluvial sediment fluxes. Progress in Physical Geography 36(2): 154-186.
- Davis, C. M., & Fox, J. F, 2009. Sediment fingerprinting: review of the method and future improvements for allocating nonpoint source pollution. Journal of Environmental Engineering 135(7): 490-504.
- Davis, W M, 1905. The geographical cycle in an arid climate. Journal of Geology, 13: 381-407.
- Devereux, OH. Prestegaard, KL. Needelman, BA and Gellis, AC, 2010. Suspended-sediment sources in an urban watershed, Northeast Branch Anacostia River, Maryland. Hydrol Process 24: 1391– 1403.
- Doody, D. G. Archbold, M. Foy, R. H & Flynn, R, 2012. Approaches to the implementation of the Water Framework Directive: targeting mitigation measures at critical source areas of diffuse phosphorus in Irish catchments. Journal of environmental management 93(1): 225-234.
- Falbo, K., Schneider, R. L., Buckley, D. H., Walter, M. T., Bergholz, P. W., & Buchanan, B. P, 2013. Roadside ditches as conduits of fecal indicator organisms and sediment: Implications for water quality management. Journal of environmental management 128: 1050-1059.
- Feiznia, Sadat., Ahmadi, Hassan., Moazzami, Mohammad, & Fahmi, Hedayat, 2009, Investigation and determination of sediment sources contribution using natural tracers of soil (Case study: Abolfars catchment, Khozestan province). Journal of pasture and watershed-natural resources of Iran, 4: 503-514.
- Foster, G. R., 1988. Modeling soil erosion and sediment. Soil erosion research methods, Ankeny, Iowa, 97-117.
- Gao, X T. Tang, K L, 1997. Study on alternate action of wind erosion and water erosion in Shenfu-Dongsheng Coal Mining area. Journal of Soil Erosion and Soil and Water Conservation 3(4): 1-7. (in Chinese).
- Gao, Z L. Mu, X M, 2004. Spatio-temporal change of land use/coverage in loess wind-water erosion crisscross region. Journal of Soil and Water Conservation, 18(5): 146-150. (in Chinese).
- Gellis, A. C & Walling, D. E, 2011. Sediment source fingerprinting (tracing) and sediment budgets as tools in targeting river and watershed restoration programs. Stream Restoration in Dynamic Fluvial Systems 263-291.
- Ghadimi, Ali Asghar., Khodashenas, Saeed Reza., Akbarzadeh, Mohammad Reza, & Ghhram, Bijan, 2015. sediment fingerprinting of entered in lake of Sadha using geochemistry elements (Case study: river of Gholhagh in northern Khorasan province), journal of lake and electricity and hydrology plant 2(6): 20-31.
- Guzmán, G., Quinton, J. N., Nearing, M. A., Mabit, L., & Gómez, J. A, 2013. Sediment tracers in water erosion studies: current approaches and challenges. Journal of Soils and Sediments, 13(4): 816-833.
- Haddadchi, A. Ryder, D. S. Evrard, O & Olley, J, 2013. Sediment fingerprinting in fluvial systems: review of tracers, sediment sources and mixing models. International Journal of Sediment Research 28(4): 560-578.
- Hakhimkhani, Shahrokh, 2010. Evaluation of relative contribution of erosion types in sediment yield (case study: Ghare Aghaj, Makou). Journal of pasture and watershed 1: 13-27.
- Hakimkhani, Sh, 2006. Use investigation of tracers in tiny sediments of rivers using fingerprinting technique (case study: Poldasht watershed, Makou). PhD thesis. University of Tehran, 235.
- Hakimkhani, S., Ahmadi, H, & Ghayoumian, J, 2009. Determination of surface and sub-surface erosion contribution in sediment yield using fingerprinting technique in the Mergen watershed-Makou. Journal of water and soil sciences 1: 83-96.
- He Q, Walling D E, Owens P N, 1996. Interpreting the 137Cs profiles observed in several small lakes and reservoirs in southern England. Chemical Geology 129: 115-131.
- Heidari, K., Najafi Nejad, A., Khormali, F, & Baba nejad, M, 2013. Determination of land unit contributions in suspended sedimen yield using fingerprinting technique (Case study: Tol beneh catchment, Golestan province), researches of environmental erosion 11: 27-38.
- Higgitt, DL, 199. Soil erosion and soil problems. Prog Phys Geogr
15: 91–100. - Horowitz, A. J. Elrick, K. A and Hooper, R. C, 1989. A comparison of instrumental dewatering methods for the separation and concentration of suspended sediment for subsequent trace element analysis. Hydrological Processes 3(2): 163-184.
- Institute of Geographical Research, CAS, 1962. The Origin of Desert Landforms and Research Method. Beijing: Science Press 114-154. (in Chinese).
- Keyes, C R, 1912. Deflative scheme of the geographic cycle in an arid climate. Geological Society of America Bulletin, 23: 537-562.
- Kouhpeima, A., feiznia, S., Ahmadi, H, & Moazzami, M, 2011. Investigation of magnetic properties of soil in differentiation of sediment sources. journal of physic of earth and space 1: 11-19.
- Krein, A. Petticrew, E.& Udelhoven, T, 2003. The use of fine sediment fractal dimensions and colour to determine sediment sources in a small watershed, Catena, 53: 165–179.
- Lal R, 2001. Soil degradation by erosion, Land Degrad Develop 12: 519–539.
- Langford, R P, 1989. Fluvial-aeolian interactions: Part I. modern systems, Sedimentology 36: 1023-1035.
- Langford, R P. Chan, M A, 1989. Fluvial-aeolian interactions: Part II. ancient systems. Sedimentology 36: 1037-1051.
- Lartiges, B. S., Deneux-Mustin, S., Villemin, G., Mustin, C., Barres, O., Chamerois, M & Babut, M, 2001. Composition, structure and size distribution of suspended particulates from the Rhine River. Water Research 35(3): 808-816.
- McIntosh R, 1983. Floodplain geomorphology and human occupation of the upper inland delta of the Niger. Geographical Journal 149: 182-201.
- Mizugaki, S. Onda, Y. Fukuyama, T. Koga, S. Asai, H and Hiramatsu, S, 2008. Estimation of suspended sediment sources using 137Cs and 210Pbex in unmanaged Japanese cypress plantation watersheds in southern Japan. Hydrological Processes, 22(23): 4519-4531.
- Morris, G. L and Fan, J., 1997. Reservoir sedimentation handbook. McGraw-Hill, New York.
- Motha, J. A. Wallbrink, P. J. Hairsine, P. B and Grayson, R. B, 2002. Tracer properties of eroded sediment and source material. Hydrological Processes 16: 1983-2000.
- Motha, J. A. Wallbrink, P. J. Hairsine, P. B and Grayson, R. B, 2004. Unsealed roads as suspended sediment sources in an agricultural catchment in south-eastern Australia. Journal of Hydrology 286(1-4): 1-18.
- Nosrati, Kazem, 2011. Sediment sourcing based on uncertainty estimation. Journal of water research of Iran 9: 51-60.
- Nosrati, K., Ahmadi, H & sharifi, f, 2011. Fingerprinting of sediment sources: relation between Anzim activities of soil nd sediment. Journal of sciences and techniques of agriculture and natural resources, sciences of water and soil 60: 227-237.
- Nosrati, K. Govers, G. Ahmadi, H. Sharifi, F. Amoozegar, MA. Merckx, R and Vanmaercke, M, 2011. An exploratory study on the use of enzyme activities as sediment tracers: biochemical fingerprints?, Int J Sediment Res 26: 136–151.
- Nosrati, K Amini, M, 2014. Suspended sediment sampler, www.ip.ssaa.ir.
- Nosrati, K. Govers, G. Semmens, B. X & Ward, E. J, 2014. A mixing model to incorporate uncertainty in sediment fingerprinting. Geoderma 217: 173-180.
- Nosrati, K., Ahmadi, F., Nazari Samani, A.A, & Servati, M.R, 2015. determination of land use role in suspended and bedload sediment yield based on fingerprinting in Taleghani basin, Khoram Abad, pasture and catchment 68: 751-765.
- Nosrati, K., Amini, M., Haddadchi, A, & Zare, M.R, 2016. Determination of contribution in sediment generation using magnetization properties and uncertainty mixing model (case study: Ashan drainage basin, Maragheh county), Journal of sciences and techniques of agriculture and natural resources, sciences of water and soil, in press.
- Olfield, F. Rumnery, T.A. Thompson, R & Walling, D.E, 1979. Identification of suspended sediment sources by means of magnetic measurements: some preliminary results, Water resource 15: 211-218.
- Owens, P. N. Walling, D. E and Leeks, G. J. L, 2000. Tracing fluvial suspended sediment sources in the catchment of the River Tweed, Scotland, using composite fingerprints and a numerical mixing model. Tracers in Geomorphology. Chichester, Wiley, 291-307.
- Papanicolaou, A. N. Fox, J. F & Marshall, J, 2003. Soil fingerprinting in the Palouse Basin, USA, using stable carbon and nitrogen isotopes. International Journal of Sediment Research 18(2): 278-284.
- Penck, W (1905): Climatic features of the land surface, American Journal of Science, 19, pp 165-167.
- Phillips, J. M., Russell, M. A. and Walling, D. E, 2000. Time-integrated sampling of fluvial suspended sediment: a simple methodology for small catchments. Hydrological Processes 14(14): 2589-2602.
- Qiu, Y. Fu, B J. Wang, Y, 2002. Spatio-temporal variation in soil erosion and its relation to environment factors. Journal of Soil and Water Conservation, 16(1): 108-111. (in Chinese).
- Regan, John T. Fenton, Oven & Healy. Mark G, 2012. A review of phosphorus and sediment release from Irish tillage soils, the methods used to quantify losses and the current state of mitigation practice, Biology and Environment: Proceedings of the Royal Irish Academy, 157-183.
- Reid, Leslie M and Dunne, Thomas., 1996. Rapid evaluation of sediment budgets. Reiskirchen, Germany: Catena.
- Richards, Carl and Bacon, Kermit. L, 1994. Influence of fine sediment on macroinvertebrate colonization of surface and hyporheic stream substrates. Great Basin Naturalis, 54: 106-113.
- Russell, M. A., Walling, D. E. and Hodgkinson, R. A, 2001. Suspended sediment sources in two small lowland agricultural catchments in the UK. Journal of Hydrology, 252(1-4): 1-24.
- Slattery, MC. Walden, J and Burt, TP., 2000. Use of mineral magnetic measurements to fingerprinting suspended sediment sources: results from a linear mixing model. In: Foster IDL (ed) Tracers in Geomorphology. John Wiley and Sons Ltd, Chichester, UK.
- Street, F A and Grove, A T, 1976. Environmental and climatic implications of late Quaternary lake-level fluctuations in Africa. Nature 261: 385-390.
- Thomas, D S G, 1990. Arid geomorphology. Progress in Physical Geography, 14: 221-231.
- Von Bülow, K, 1930. General-geological observations in the moving dune area of the Leba lake Nehrung in East Pomerania. Jahrbuch der Preussischen Geologischen Landesanstalt 50(2): 592-606. (in German).
- Von Bülow, K, 1934. Four years of observations at the wandering dunes on the Nehrung of Leba lake. Provisional report. Jahrbuch der Preussischen Geologischen Landesanstalt, 54(1): 151-159. (in German).
- Walden, J. Slattery, MC. Burt, TP., 2000. Use of mineral magnetic measurements to fingerprinting suspended sediment sources: results from a linear mixing model. In: Foster IDL (ed) Tracers in Geomorphology. John Wiley and Sons Ltd, Chichester, UK.
- Walker, H J, 1967. Riverbank dunes in the Colville Delta, Alaska. Coastal Studies Bulletin 1: 7-14.
- Walling, Desmond, 2005. Tracing suspended sediment sources in catchments and river systems, Science of the Total Environment 344: 159-184.
- Williams, Garnett P, 1989. Sediment concentration versus water discharge during single hydrologic events in rivers. Journal of Hydrology 111(1–4): 89-106.
- Wood, Paul J and Armitage, Patrick D, 1997. Biological Effects of Fine Sediment in the Lotic Environment. Environmental Management 21(2): 203-217.
- Wright, J. F & Berrie, A. D, 1987, Ecological effects of groundwater pumping and a natural drought on the upper reaches of a chalk stream. Regulated Rivers: Research & Management, 1(2): 145-160.
- www.ip.ssaa.ir.
- www.isti.ir.
- Yi, Yujun., Yang, Zhifeng & Zhang, Shanghong, 2011. Ecological risk assessment of heavy metals in sediment and human health risk assessment of heavy metals in fishes in the middle and lower reaches of the Yangtze River basin. Environmental Pollution, 159(10): 2575-2585.
- Young, RA and Holt, RF, 1968. Tracing soil movement with fluorescent glass particles. Soil
- Zhang, XC John & Liu, B. L, 2016. Using multiple composite fingerprints to quantify fine sediment source contributions: A new direction. Geoderma 268: 108-118.
- Zhou, Huiping., Chang, Weina., & Zhang, Longjiang, 2016. Sediment sources in a small agricultural catchment: A composite fingerprinting approach based on the selection of potential sources. Geomorphology 266: 11-19.