1.Alonso, P.C., Sierra, E., Ortega, C., and Dorronsoro. 1994. Soil development indices of
soils developed on fluvial terraces (Peòaranda de Bracamonte, Sala manca, Spain). Catena.
23: 295-308.
2.Ayoubi, S. 2002. Pedogenic evidence of climate change in the quaternary period in the paleosols of Isfahan and Imam Khayes. Doctoral dissertation, Department of Soil Science, Faculty of Agriculture, Isfahan University of Technology.
3.Badía, D., Martí, C., Casanova, J., Gillot, T., Cuchí, J.A., Palacio, J., and Andrés, R., 2015.
A Quaternary soil chronosequence study on the terraces of the AlcanadreRiver (semiarid Ebro Basin, NESpain). Geoderma. 241-242: 158-167.
4.Barshad, I. 1959. Factors affecting clay formation. Clays Clay Miner. 6: 110-132.
5.Bilzi, A.F., and Ciolkosz, E.J. 1977. A field morphology rating scale for evaluating pedological development. Soil Sci. 124: 45-48.
6.Birkeland, P.W. 1984. Holocene soil chronofunctions, Southern Alps, New Zealand. Geoderma. 34: 115-134.
7.Bockheim, J.G., Kelsey, H.M., and Marshall III, J.G. 1992. Soil development, relative dating and correlation of late Quaternary marine terraces in southwestern Oregan. Quat. Res.
37: 60-74.
8.Bull, W.B. 1990. Stream-terrace genesis: implications for soil development. Geomorphology 3: 351-367.
9.Bull, W.B. 1991. Geomorphic responses to climatic change. OxfordUniversity Press,
New York, 336p.
10.Buol, S.W., Hole, F.D., and McCracken, R.J. 1973. Soil Genesis and Classification.
Iowa State Univ. Press, Ames, IO, 2nd ed., 404p.
11.Cohen, S., Willgoose, G., Svoray, T., Hancock, G., and Sela, S. 2015. The effects of sediment transport, weathering and aeolian mechanisms on soil evolution. J. Geophys. Res. F: EarthSurf. 120: 2. 260-274.
12.Dolatshahi, A.R., Esfandiari, K., Momeni, A., and Hajmolana, N. 2000. Instructions for laboratory analysis of soil and water samples. No. 467, Soil and Water Research Institute, Ministry of Agriculture and Natural Resources, Tehran, Iran.
13.Harden, J.W. 1982. A quantitative index of soil development from field descriptions, examples from a chronosequence in Central California. Geoderma. 28: 1-28.
14.Harden, J.W., and Taylor, E.M. 1983. A quantitative comparison of soil development in four climatic regimes. Quat. Res. 20: 342-359.
15.Ibáñez, J.J., Vargas, R.J., and Vázquez-Hoehne, A. 2013. PedodiversityState of the Art and Future Challenges. In: J.J. Ibáñez, and J. Bockheim (Ed.), Pedodiversity. Taylor & Francis Group, Boca Raton, FL, USA, Pp: 133-152.
16.Isadpanah, B., Farmanara, M., and Eskandarzadeh, I. 1974. Final Report on Semi-Sedimentary Soil Science in Vardoush Region, IsfahanProvince. No. 391, Soil Science and Fertility Institute, Ministry of Agriculture and Natural Resources, Tehran, Iran.
17.Jafarian, M.A. 1986. Geography of the past and the developmental stages of the Zayandehrud valley. Res.J. Isf. Univ. 1: 31-15.
18.Jenny, H. 1941. Factors in Soil Formation. McGraw-Hill, New York. Kao, H., Chen, W.P., 2000. The Chi-chi earthquake sequence: active out-of-sequence thrust faulting in Taiwan. Science. 288: 2346-2349.
19.Khademi, H., Mermut, A.R., and Krouse, H.R. 1997. Sulfur isotope geochemistry of gypsiferous Aridisoils from central Iran. Geoderma. 80: 195-209.
20.Khanaamani, A., Jafari, R., Sangouni, H., and Shahbazi, A. 2011. Evaluation of Soil Status Using Remote Sensing Technology and Geographic Information System (Case study: Segzi Plain of Isfahan). J. Rem. Sens. App. GIS Natur. Resour. Sci. 3: 37-25.
21.Leamy, M.L., Milne, J.D.G., Pullar, W.A., and Bruce, J.G. 1973. Paleopedology and stratigraphy in the New Zealand Quaternary succession. N. Z. J. Geol. Geophys. 16: 723-744.
22.Makarian, M., Pourkermani, M., Sherkati, S., and Motamedi, H. 2011. Structural analysis of Chinese carpets in part of central Iran basin. Monthly Exploration and Production, 78: 55-48.
23.Morrison, R.B. 1968. Means of time-stratigraphic division and longdistance correlation of Quaternary successions. In: Morrison, R.B., and WrightJr. Jr., H.E. (Eds.), Means of Correlation of Quaternary Successions. Int. Assoc. Quat. Res., VII Congress, Proc. 8: 1-113.
24.Mulcahy, M.J., and Churchward, H.M. 1973. Quaternary environments and soils in Australia. Soil Sci. 116: 156-169.
25.Nourbakhsh, F. 2002. A Study on the Soils of Zarrin Shahr, Talekhoncheh and Kharmhine. SoilWaterRes.Center J. No. 1143.
26.Phillips, J.D. 1999. Earth surface systems: complexity, order and scale. Oxford: Blackwell.
27.Ramesht, M.H. 1992. Zayandeh‒RudRiver and its Impact on Spatial Image of Isfahan. Thesis of Doctor, Department of Geography, TarbiatModaresUniversity, Tehran.
28.Saldana, A., and Ibanez, J.J., 2004. Pedodiversity analysis at large scales: an example of three fluvial terrain of the HenaresRiver (central Spain). Geoderma. 62: 123-138.
29.Salehi, M.H., and Khademi, H. 2007. Fundamentals of soil mapping. IsfahanUniversity of Technology Press. (In Persian)
30.Schaetzl, R.J., and Anderson, S. 2005. Soils: genesis and geomorphology. CambridgeUniversity Press.
31.Schoeneberger, P.J., Wysocki, D.A., Benham, E.C., and Staff, S.S. 2012. Field book for describing and sampling soils. Natural Resources Conservation Service. NationalSoilSurveyCenter, Lincoln, NE, USA.
32.Soil Taxonomy. 2014. Keys to Soil Taxonomy. 12th ed. USDA-Natural Resources Conservation Service, Washington, DC.
33.Toomanian, N. 2006. How to develop land, soil diversity and quantitative mapping of some pedogenic characteristics in some parts of Central Iran, Ph.D. Soil college, Faculty of Agriculture, Isfahan University of Technology.
34.Torrent, J., Schwertmann, U., and Schulze, D.J. 1980. Iron oxide mineralogy of some soils of two river terrace sequences in Spain. Geoderma. 23: 191-208.
35.Tsai, H., Huang, W.S., Hseu, Z.Y., and Chen, Z.S. 2006. A river terrace soil chronosequence of the Pakua tableland in Taiwan. Soil Sci. 171: 167-179.
36.Tsai, H., Huang, W.S., Hseu, Z.Y., and Chen, Z.S. 2007. Pedogenic approach to resolving the geomorphic evolution of the Pakua river terraces in central Taiwan. Geomorphology.
83: 14-28.
37.Zinck, J.A. 1988. Physiography and soils. Lecture Notes for Soil Students. Soil Science Division. Soil Survey Courses Subject Matter: K6 ITC, Enschede, Netherlands.