بر رسی تکامل خاک با استفاده از شاخص‌های مقادیر رس، آهن، آلومینیوم و منگنز در یک ردیف اقلیمی استان ایلام

          Amiri B, Delavar M, Alamdari P and Naderi A. 2018. Characterizing and study of clay minerals in a loess-           paleosol sequence, (case ctudy: Neka area). Water and Soil Science-Univesity of Tabriz 28(4): 225-249 (In Persian).

Anonymous. 2014. Keys to Soil Taxonomy (12th ed.). United States Department of Agriculture, Naturaral
Resources Conservation Service, Soil Survey Staff, Washington, DC.

Anonymous, 2008. Laboratory analysis Instructions of water and soil samples. Soil and Water Research
Institute. No. 467. Ministry of Agriculture, Iran. (In Persian)

Banaei HM. 1998. Soil Moisture and Temperature Regimes Map of Iran (1:2500000). Soil and Water Research Institute, Karaj, Iran.

Biglari H, Bazrafshan E and Dehshibi AR. 2011. Investigation of dispersion of aluminum concentration in groundwater resources and distribution network of drinking water in Sistan and Baluchestan province using GIS geographic information system. 14th National Conference on Environmental Health; Yazd (In Persian).

Birkeland PW, Burke RM, and Benedict JB. 1989. Pedogenic gradients for iron and aluminum accumulation and phosphorus depletion in arctic and alpine soils as a function of time and climate. Quaternary Research 32: 193–204.

Bull WB. 1991. Geomorphic Responses to Climatic Change: New York, Oxford University Press, 326 p.

Caner L, Radtke LM, Vignol-Lelarge ML, Inda AV, Bortoluzzi EC and Mexias AS. 2014. Basalt and rhyo-dacite weathering and soil clay formation under subtropical climate in southern Brazil. Geoderma 235-236: 100-112.

Costantini AC and Damiani D. 2004. Clay minerals and the development of Quaternary soils in central Italy. Revista Mexicana de CienciasGeologicas 21: 144-159.

Dahms D, Favilli F, Krebs R and Egli M. 2012. Soil weathering and accumulation rates of oxalate-extractable phases rived from alpine chronosequences of up to 1 Ma in age. Geomorphology 151–152: 99–1131.

Dethier DP, Birkeland PW and McCarth JA. 2012. Using the accumulation of CBD extractable iron and clay content to estimate soil age on stable surfaces and nearby slopes, Front Range, Colorado. Geomorphology 173-174: 17-29.

Donkin MJ and Fey MV. 1993. Relationships between soil properties and climatic indices in southern Natal. Geoderma 59: 197-212.

Fiedler S and Sommer M. 2004. Water and redox conditions in wetland soils-their influence on pedogenic oxides and morphology. Soil Science Society of America Journal68: 335-326.

Han, FX. 2007. Biogeochemistry of Trace Elements in Arid Environments. In: Han, editor. P.O. Box 17, 3300 AA Dordrecht, The Netherlands; p. 131.

Inda AV, Fink J R and Santos TFD. 2018. Pedogenic iron oxides in soils of the Acre State, Brazil. Ciência Rural, 48(8): [art.] e20180209.

Karimi M. 2008. Environmental effects of aluminum in atmosphere and water resources. Meteorological Office of Isfahan Province - Applied Meteorological Research Center.

Khormali F, Abtahi A, Mahmood S and Stoops G. 2003. Argillic horizon development in calcareous soils of arid and semiarid regions of southern Iran. Catena 53: 273-301.

Mehra OP and Jackson ML. 1960. Iron oxides removed from soils and clays by a dithionite-citrate system buffered with sodium bicarbonate. Clays Clay Minerals 7: 317–327.

Neghadzamani L, Farpoor MH and Jafari A. 2017. Soil genesis as affected by climate and geomorphic surface in Rayen area, Kerman Province. Journal of Water and Soil, 31(6): 1724-1739 (In Persian).

Owliaie HR, Adhami A, Jafari S, Ghasemi R and Rajaiie M. 2009. Magnetic acceptability distribution in relation to iron compounds in some selected soils of Fars province. Soil Research (Soil and Water Sciences) 23(2): 191-204 (In Persian)

Owliaie HR and Rezaei S. 2014. Effect of topography and land use on genesis, chemical forms of Fe, Mn and clay mineralogy of soils of Yasouj western plain. Journal of Water and Soil Conservation21(2): 109-129 (In Persian).

Ramshani KH and Abtahi A. 1995. The effect of climate and topography on formation, development and morphological characteristics of soils in Kohkiluyeh region in Fars province. The 4^th Iranian Soil Sciences Congress. Isfahan Uinversity of Technology. (In Persian).

Reimann CU, Siewers T, Tarvainen L, Bityukova J, Eriksson A, Gilucis V, Gregorauskiene V, Lukashev NN, Matinian and Pasieczna A. 2000.  Baltic soil survey: total concentrations of major and selected trace elements inarable soils from 10 countries around the Baltic Sea. Science of the Total Environment 257(2-3): 155-170.

Rezapor S, Jafarzadeh AA, Samadi A and Oustan S. 2010. Distribution of iron oxides forms on a transect of calcareous soils, north-west of Iran. Archives of Agronomy and Soil Science 56(2): 165-182.

Schoeneberger PJ, Wysocki DA and Benham EC. 2012. Soil Survey Staff. Field Book for Describing and Sampling Soils. Version 3.0. Natl. Soil Survey. Ctr., Lincoln, NE.

Simon M, Sanchez S and Garcıa I. 2000. Soil-landscape evolution on a Mediterranean high mountain. Catena 39: 211– 231.

Singh LP, Parkash B and Singhvi AK. 1998. Evolution of the Lower Gangetic Plain landforms and soils in West Bengal, India. Catena 33: 75-104.

Tokashiki Y, Dixon JB and Golden DC. 1986. Manganese oxide analysis in soils by combined X-ray diffraction and selective dissolution methods. Soil Science Society of America Journal 50: 1079-1084.

Torabi H and Moradinasab V. 2015. Different forms of iron and some physico-chemical properties as soil development parameters in a chronosequence on Karaj river terraces in Hassan-Abad, Southern Tehran. Journal of Water and Soil Science-Isfahan University of Technology 18 (70): 269-281 (In Persian).

Torrent J, Liu QS and Barron V. 2010. Magnetic minerals in Calcic Luvisols (Chromic) developed in a warm Mediterranean region of Spain: Origin and paleoenvironmental significance. Geoderma 154: 465–472.

 Valaee M, Ayoubi Sh, Khademi H, and Khormali F. 2015. Relationships between some soil physical and chemical properties with magnetic properties in different soil moisture regimes in Golestan province. Journal of Water and Soil, 29(6): 1567-1577 (In Persian).

Yamaguchi N, Hiradate S, Mizoguchi M and Miyazaki T. 2004. Disappearance of aluminum tridecamer from hydroxyaluminum solution in the presence of humic acid. Soil Science Society of America Journal 68: 1838-1843.

Zeraatpishe M and Khormali F. 2011. The investigation of soil formation and evolution of losses derived soils in a climosequence, case study: eastern of Golestan Province. Journal of Water and Soil Conservation, 18(2): 45-64 (In Persian).