- حکیمخانی، ش.، 1385. بررسی استفاده از ردیابها در منشایابی رسوبات آبی ریزدانه (مطالعه موردی حوزه ایستگاه پخش سیلاب پلدشت). پایان نامه دکتری، دانشکده منابع طبیعی دانشگاه تهران.
- حکیم خانی، ش.، 1389. ارزیابی اهمیت انواع فرسایش در تولید رسوب ( بررسی موردی: حوزه قره آغاج، ماکو). نشریه مرتع و آبخیزداری، مجله منابع طبیعی ایران، دوره 63 ، ص 13 تا 27.
- نصرتی، ک.، 1390. منشایابی رسوب بر اساس برآورد عدم قطعیت، مجله پژوهشهای آب ایران، سال پنچم، شماره 9، ص 51 تا 60.
- نصرتی، ک.، احمدی، ح.، و شریفی، ف.، 1391. منشایابی منابع رسوب: ارتباط بین فعالیتهای آنزیمی خاک و رسوب. مجله علوم و فنون کشاورزی و منابع طبیعی، علوم آب و خاک، سال شانزدهم، شماره 60، ص 227 تا 237.
-Ballantine, D., Walling, D., Collins, A., and Leeks, G., 2009. The content and storage of phosphorus in fine-grained channel bed sediment in contrasting lowland agricultural catchments in the UK. Geoderma, v. 151, p. 141-149.
-Carter, J., Owens, P.N., Walling, D.E., and Leeks, G.J.L., 2003. Fingerprinting suspended sediment sources in a large urban river system. The Science of the Total Environment, v. 314, p. 513-534.
-Collins, A., Anthony, S., Hawley, J., and Turner, T., 2009. The potential impact of projected change in farming by 2015 on the importance of the agricultural sector as a sediment source in England and Wales. Catena,v. 79, p. 243-250.
-Collins, A., and Walling, D., 2007. Sources of fine sediment recovered from the channel bed of lowland groundwater-fed catchments in the UK. Geomorphology, v. 88, p. 120-138.
-Collins, A., Walling, D., and Leeks, G., 1997. Use of the geochemical record preserved in floodplain deposits to reconstruct recent changes in river basin sediment sources. Geomorphology, v. 19, p. 151-167.
-Collins, A., Walling, D., Webb, L., and King, P., 2010. Apportioning catchment scale sediment sources using a modified composite fingerprinting technique incorporating property weightings and prior information. Geoderma,v. 155, p. 249-261.
-Fox, J., and Papanicolaou, A., 2008. Application of the spatial distribution of nitrogen stable isotopes for sediment tracing at the watershed scale. Hydrology,v. 358, p. 46-55.
-Gruszowski, K., Foster, I.D.L., Lees, J., and Charlesworth, S., 2003. Sediment sources and transport pathways in a rural catchment, Herefordshire, UK. Hydrological Processes,v. 17, p. 2665-2681.
-Hatfield, R.G., and Maher, B.A., 2009. Fingerprinting upland sediment sources: particle size‐specific magnetic linkages between soils, lake sediments and suspended sediments. Earth Surface Processes and Landforms,v. 34, p. 1359-1373.
-Krein, A., Petticrew, E., and Udelhoven, T., 2003. The use of fine sediment fractal dimensions and colour to determine sediment sources in a small watershed. Catena,v. 53, p. 165-179.
-Nosrati, K., Govers, G., Ahmadi, H., Sharifi, F., Amoozegar, M. A., Merckx, R., and Vanmaercke, M., 2011. An exploratory study on the use of enzyme activities as sediment tracers: biochemical fingerprints?. International Journal of Sediment Research,v. 26, p. 136-151.
-Poulenard, J., Perrette, Y., Fanget, B., Quetin, P., Trevisan, D., and Dorioz, J.M., 2009. Infrared spectroscopy tracing of sediment sources in a small rural watershed (French Alps). Science of The Total Environment,v. 407, p. 2808-2819.
-Rutherford, P.M., McGill, W.B., Arocena, J.M. and Figueiredo, C.T. 2008. Total nitrogen. In: M.R. Carter and E.G. Gregorich (Editors), Soil Sampling and Methods of Analysis, CRC Press, Taylor and Francis Group, Boca Raton.
-Skjemstad, J.O., and Baldock, J.A., 2008. Total and organic carbon. In: Carter, M.R., Gregorich, E.G. (Eds.), Soil Sampling and Methods of Analysis. CRC Press, Taylor and Francis Group, Boca Raton, p. 225-237.
-Smith H. G. and Dragovich D. 2008, Improving precision in sediment source and erosion process distinction in an upland catchment, south-eastern Australia. Catena, v. 72, p. 191-203.
-Vanacker, V., Molina, A., Govers, G., Poesen, J., and Deckers, J., 2007. Spatial variation of suspended sediment concentrations in a tropical Andean river system: The Paute River, southern Ecuador. Geomorphology, v. 87, p. 53-67.
-Wallbrink, P., Martin, C., and Wilson, C., 2003. Quantifying the contributions of sediment, sediment-P and fertiliser-P from forested, cultivated and pasture areas at the landuse and catchment scale using fallout radionuclides and geochemistry. Soil and Tillage Research, v. 69, p. 53-68.
-Wallbrink, P.J., 2004. Quantifying the erosion processes and land-uses which dominate fine sediment supply to Moreton Bay, Southeast Queensland, Australia. Journal of environmental radioactivity,v. 76, p. 67-80.
-Walling, D., and Collins, A., 2008. The catchment sediment budget as a management tool. Environmental Science & Policy,v. 11, p. 136-143.
-Walling, D., Collins, A., and Stroud, R., 2008. Tracing suspended sediment and particulate phosphorus sources in catchments. Journal of Hydrology,v. 350, p. 274-289.
-Walling, D.E., Owens, P.N., Waterfall, B.D., Leeks, G.J.L., and Wass, P.D., 2000. The particle size characteristics of fluvial suspended sediment in the Humber and Tweed catchments, UK. The Science of the Total Environment, v. 251, p. 205-222.
-Wilkinson, S., Wallbrink, P., Hancock, G., Blake, W., Shakesby, R., and Doerr, S., 2009. Fallout radionuclide tracers identify a switch in sediment sources and transport-limited sediment yield following wildfire in a eucalypt forest. Geomorphology,v. 110, p. 140-151.
-Zapata, F., 2003. The use of environmental radionuclides as tracers in soil erosion and sedimentation investigations: recent advances and future developments. Soil and Tillage Research,v. 69, p. 3-13.