[1] Johnsson M. J., "The system controlling the composition of clastic sediments", Special Paper-Geological Society of America 284 (1993) 135-146.
[2] Fedo C. M., Eriksson K. A., Krogstad E. J., "Geochemistry of shales from the Archean (~3.0 Ga) Buhwa Greenstone Belt, Zimbabwe: implications for provenance and source-area weathering", Geochim. Cosmochim. Acta 60 (1996) 1751–1763.
]3[ مجرد م.، مؤذن م.، مؤید م.، "شیمی سنگ کل متاپلیتهای شاهین دژ، زادگاه رسوبی و پاراژنزهای کانیایی"، مجله پترولوژی، سال اول، شماره چهارم، (1389) صفحه 73-88.
[4] Dickinson W. R., "Interpreting detrital modes of graywacke and arkose", J. Sediment. Petrol., 40 (1970) 695-707.
[5] Dickinson, W. R., Valloni R., "Plate settings and provenance of sands in modern ocean basins", Geology, 8 (1980) 82-86.
[6] Bhatia M. R., "Plate tectonics and geochemical composition of sandstones", Journal of Geology 92 (1983) 181-193.
[7] Roser B. P., Korsch R. J., "Provenance signatures of sandstone-mudstone suites determined using discriminant function analysis of major-element data", Chemical Geology 67 (1988) 119-139.
[8] Floyd P. A., Leveridge B. E., "Tectonic environment of the Devonian Gramscatho basin, south Cornwall: framework mode and geochemical evidence from turbiditic sandstones", Journal of Geological Society of London 144 (1987) 531-542.
[9] Nesbitt H. W., Young G. M., "Early Proterozoic climates and plate motions inferred from major element chemistry of lutites", Nature 299 (1982) 715– 717.
[10] Wronkijewicz D.J., Condie K.C. "Geochemistry and mineralogy of sediments from the Ventersdrop and Transvaal supergroups, South Africa: Cratonic evolution during the Early Proterozoic", Geochimica et Cosmochimica Acta 54 (1990) 343-354.
[11] Long X., Sun M., Yuan C., Xiao W., Cai K., "Early Paleozoic sedimentary record of the Chinese 1tai; Implications for its tectonic evolution", Sedimentary Geology 208 (2008) 88-100.
[12] Hofmann A., "The geochemistry of sedimentary rocks from the Fig Tree Group, Barberton greenstone belt: Implications for tectonic", hydrothermal and surface processes during mid-Archaean times. Precambrian Research 143 (2005) 23-49.
[13] Garzanti E., Doglioni C., Vezzoli G., Ando S., "Orogenic belts and orogenic sediment Provenance", Journal of Geology 115 (2007) 315-334.
[14] Kasanzu C., Maboko M. A. H., Manya S., "Geochemistry of fine-grained clastic sedimentary rocks of the Neoproterozoic Ikorongo Group", NE Tanzania: Implications for provenance and source rock weathering. Precambrian Research 164 (2008) 201-213.
[15] Kutterolf S., Diener R., Schacht U., Krawinkel H., "Provenance of the Carboniferous Hochwipfel Formation-Geochemistry versus petrography", Sedimentary Geology 203 (2008) 246-266.
]16[ محامد ا.، مجرد م.، "زونبندی و واکنشهای رخ داده در هاله مجاورتی اسلاملو، اشنویه"، پانزدهمین همایش انجمن زمین شناسی ایران، دانشگاه تربیت معلم، تهران (1390).
[17] نبوی م. ح.، "دیباچه ای بر زمین شناسی ایران"، انتشارات سازمان زمین شناسی کشور (1355).
]18[ آقانباتی س. ع.، "زمین شناسی ایران"، سازمان زمین شناسی و اکتشافات معدنی کشور، چاپ دوم (1385).
]19[ لاسمی ی.، "رخساره ها، محیط رسوبی و چینه نگاری سکانسی نهشته سنگ های پرکامبرین بالایی و پالئوزوئیک ایران".
[20] Ghalamghash J., Bouchez J. L., Vosoughi-Abedini M., Nedelec A., "The Urumieh Plutonic Complex (NW Iran): Record of geodynamic evolution of Sanandaj-Sirjan zone during Cretaceous times- part II: Magnetic fabrics and plate tectonic reconstruction", Journal of Asian Earth Sciences 36 (2009) 303-317.
]21[ محامد ا.، "بررسی پدیده های دگرگونی مجاورتی اسلاملو، اشنویه"، پایاننامه کارشناسی ارشد، دانشگاه زنجان، ایران (1390).
[22] Kretz R., "Symbols For Rock Forming Minerals", American mineralogist, 68: 227-279.
[23] Herron M.M., "Geochemical classification of terrigenous sands and shales from core of log data", Journal of Sedimentary Petrology 58(5) (1983) 820-829.
[24] Pettijohn F. J., Potter P. E., Siever R., Sand and Sandstones. New York, Springer-Verlag (1972).
[25] Creaser R. A., Erdmer P., Sevens R. A., Grant S. L., "Tectonic affinity of Nisutlin and Avil assemblages strata from the Teslin tectonic zone", northern Canadian Cordillera: constraints from neodymium isotope and geochemical evidence. Tectonics 16 (1997) 107-121.
[26] Girty G. H., Ridge D. L., Knaack C., Johnson D., Al-Riyami R. K., "Provenance and depositional setting of Paleozoic chert and argillite", Sierra Nevada, California. Journal of Sedimentary Research 66 (1996) 107–118.
[27] Aleva G.J.J., "Laterites: Concepts, geology, morphology and chemistry", ISIRC, Wageningen. p. (1994).
[28] Barbera G., Mazzoleni P., Critelli S., Pappalardo A., Lo Guidice A., Cirrincione R., "Provenance of Shales and sedimentary history of the Monte Soro Unit", Sicily. Periodico di Mineralogia 75, 2-3 (2006) 313-330.
[29] Nesbitt H. W., MacRae N. D., Kronberg B. I., "Amazon deepsea fan muds: light REE enriched products of extreme chemical weathering", Earth and Planetary Science Letter 100 (1990) 118-123.
[30] Grandstaff D. E., Edelman M. J., Foster R. W., Zbinden E., Kimberley M. M., "Chemistry and mineralogy of Precambrian paleosols at the base of the Dominion and Pongola groups (Transvaal, South Africa)", Precambrain Research 32 (1986) 97-131.
[31] Harnois L., "The CIW index: a new chemical index of weathering", Sedimentary Geology 55 (1988) 319-322.
[32] Land L. S., "Frio sandstone diagenesis, Texas Gulf Coast; a regional isotopic study", American Association of Petroleum Geologists Manual, 37 (1984) 47-62.
[33] Wintsch R. P., Kvale C. M., "Differential mobility of elements in burial diagenesis of siliciclastic rocks", J. Sedim. Res., A64 (1994) 349-361.
[34] Velde B., "Origin and mineralogy of clays. Eds Velde", B. Springer, Berlin (1995).
[35] Ague J. J., "Evidence for major mass transfer and volum strain during regional metamorphism of pelites",. Geology 19 (1991) 855-858.
[36] Carmichael R. S., "Practical handbook of physical properties of rocks and minerals", CRC Press, Baca Raton (1989).
[37] Krauskopf K. P., Bird D. K., "Introduction to Geochemistry", 3rd edition, McGraw-Hill (1996).
[38] Campbell D. J., "The vascular flora of the DSIR study area lower Orongorongo Valley", Wellington, New Zealand. New Zealand Journal of Botany 22 (1984) 223-270.
[39] Yudovich Ya. E., Ketris M. P., "Fundamentals of Lithochemistry", St. Petersburg, Nauka, (2000) 479 (in Russian).
[40] Likhanov I. I., "Mineral Reactions and Mass Transfer during Low- and Medium-pressure Metamorphism. Doctor of Sciences Thesis", Novosibirsk: Geo Press, 38 (2003b) (in Russian).
[41] Maynard J. B., Valloni R., Yu H. S., "Composition of modern deep-sea sands from arc related basins", In: LEGGET, J.K (ed), Trench-Forearc Geology: Sedimentation and Tectonics on Modern and Ancient Active Plate Margins. Geological Society, London, Special Publications 10 (1982) 551-561.
)