[1]. Abd El-Ghani, M.M., & Wafaa, M.A. (2003). Soil vegetation relationships in coastal desert plain of southern Sinai, Egypt. Journal of Arid Environment, 55(4), 607–628.
[2]. Alkhverdiev, F. D. (1988). Indication significance of mosaicism of meadows with dominance the Shortgrass (Aeluropus littoralis Parl.) in the coastal patron of flatland Dagestan. Soviet Journal of Ecology, 19, 191-194.
[3]. Anonymous, (2015). Meteorological statistics of Isfahan province in 1951-2015. Isfahan, Iran.
[4]. Bajtala, M.J. (1999). Spatial patterns of duff consumption in black spruce and jack pine stands in the boreal mixed wood forest (Doctoral dissertation, MSc Thesis.] Guelph, University of Guelph: 124 p.
[5]. Black, C.A. (1982). Methods of soil analysis, Part 2 Chemical and Microbiological properties, American Society of Agronomy, Wisconsin, USA. Inc. vol. 2. 1159 p.
[6]. Carneval N.J., & Torres, P.S. (1990). The relevance of physical factors on species distribution in inland salt marshes (Argentina). Coenoses, 5(2), 113-120.
[7]. Diane, D.S., & Maureen, M.T. (2004). Vegetation of upper coastal plain depression wetlands”. Journal of Wetlands, 24(1): 23-42.
[8]. Daoyuan, Z. Linke, Y., & Borong, P. (2002). Bilogical and ecological characteristics of Tamarix L. and its effect on the ecological environment. Agricultural Sciences in china, 45, 17-23.
[9]. El-Ghani, M.M.A. (1998). Environmental correlates of species distribution in arid desert ecosystems of eastern Egypt. Journal of Arid Environments, 38(2), 297-313.
[10]El-Ghani, M. M.A., & Amer, W. M. (2003). Soil-vegetation relationships in a coastal desert plain of southern Sinai, Egypt. Journal of Arid Environment, 55(4), 607-628.
[11]. Ellenberg, H., Weber, H.E., & Dull, R. (1992). Zeigerwerte von Pflanzen in Mitteleuropa. Verlag Erich Goltze KG, 262.
[12]. Emtahani, M.H. (1992). Biological study of Planted forest of Tamarix in Chah- Afzal (Ardakan-Yazd). Master Thesis, Faculty of Natural Resources, Gorgan University of Agricultural Sciences and Natural Resources. Iran.
[13]. Fahimipour, E., Zare Chahouki, M.A., & Tavili, A. (2010). Relationship between rangeland index species and environmental factors in Middle Taleghan Basin. Journal of Rangeland, 4(1), 23-32.
[14]. Jafari, M., Javadi, S.A., Bagherpour Zarchi, M.A., & Tahmores, M. (2009). Study of the relationship between presence of plant species and environmental factors in Nadoshan Renglands of Yazd. Journal of Rangeland, 3(1), 29–52.
[15]. Jafari, M., Zare Chahooki, M.A., Tavili, A. Azarnivand, H., & Zahedi Amiri, CH. (2004). Effective environmental factors in the distribution of vegetation types in Poshtkouh rangelands of Yazd Province (Iran). Journal of Arid Environmental, 56(4), 627-641.
[16]. Jafari, M., Zare, S., Tavili, A., & Abbasi,
H.R. (2010). Habitat conditions and plant-environment relationship in some arid and semiarid lands character plants (Case study: Shahriyar Rangelands, Tehran Province).
Rostaniha, 11(1), 17-27.
[17]. Jafari Haghighi, M. (2003). Soil Decomposition Methods: Sampling and important chemical and physical decompositions with emphasis on theoretical and practical principles. Nedaye Zohi Publications. 240 p.
[18]. Kargar Chigani, H. (2006). Survey of habitats of three native species in the west of Isfahan, Master Thesis, Faculty of Natural Resources, Isfahan University of Technology, Isfahan, Iran.
[19]. Kerpez, T.A. and Smith, N.S., (1987). Saltcedar control for wildlife habitat improvement in the southwestern United States.
[20]. Khajedin, S. J. (2018), Plant Atlas of Moteh Wildlife Sanctuary. 1271 p.
[21]. Lihong, Y., Qu., J., & Xinzheng, C. (2005). Desert vegetation pattern at the northern foot of Tianshan Mountains: the role of soil conditions. Flora-Morphology, Distribution, Functional Ecology of Plants, 201(1), 44-50.
[22]. Madow, William G. (1968). Elementary sampling theory. 621-622.
[23]. Mahdifar, D., Karamian, R., Sagheb-Talebi, Kh., & Sepahvand, M. (2017). Effects of some physical and chemical soil properties on quantitative characteristics of Quercus infectoria Oliv. at Shine Forest of Lorestan province. Iranian Journal of Forest and Poplar Research, 23(2), 234-245.
[24]. Mahmoudi, SH. & Hakimian, M. (2012). Fundamentals of Soil Science. University of Tehran Press, 700 p.
[25]. Matinkhah, S. H., & Kaveh, Z. (2017). The relationship of soil with vegetative characteristics of L. Tamarix ramosissima in Abyaneh, Isfahan. Applied Ecology, 6(3), 89-99.
[26]. Mesdaghi, M. (1998). Range management in Iran. Astan Quds Razavi Publications. 333 p.
[27]. Mesdaghi, M. (2001). Description and analysis of vegetation. Translation. University Jihad Publications, University of Mashhad, 288 p.
[28]. Min, J., Dong, G.Q., Xie, W.M., Li, Y.L., Ji R.T., & Shi, W.M. (2018). Soil nutrients status in Tamarisk host woodland of Cistanche tubulosa. Soils (In Chinese), 50, 73–78.
[29]. Mir Mohammadi Meybodi, A.M., Amini, A., & Khajeddin, J. (2002). Effective Factors on Establishment of Four Species of Halophyte in the North of Gavkhoni Swamp Using Ordination Method. Journal of Agricultural Science and Technology, 6(2), 215- 228.
[30]. Mohammadi M., Mirzaei, J., Moradi, M. & Naji H.R. (2017). Soil physicochemical properties of Tamarisk (Tamarix ramosissima Ledeb.) sites in Ilam province. Iranian Journal of Forest and Poplar Research, 25(3), 419-430.
[31]. Mohammadi Golrang, B. Shahidi, A. & Kazemi. M. (2005). Introduction of suitable plant species for cultivation around canals (Case study: Mashhad), First National Conference on Canals, Mashhad, Iran.
[32]. Motamedi Joybari, A.S. (2000). Quantitative study of halophyte plants with soil salinity factors in Hoz Soltan Lake. Master Thesis, University of Tehran, Tehran, Iran.
[33]. Rahmatizadeh, A. (2004). Identification of saline areas and halophyte plants in Qom, Master Thesis, Faculty of Natural Resources, Isfahan University of Technology, Isfahan, Iran.
[34]. Rechinger., KH. (1964). Tamarix [Tamaricaceae]. In: (ed) Flora Iranica, No. 4 Akademische Druck u. Verlagsanstalt, Graz.
[35]. Rouhi Moghaddam, E., Sargazy, E., & Gholamalizadeh, A. (2015). Ecological properties of Tamarix habitats in Sistan Plain, Iran. Ecopersia, 3(4), 1-9.
[36]. Salehi, A., Taheri Abkenar, K., & Basiri, R. (2012). Study of the recovery soil physical properties and establishment of natural regeneration in skid trails (Case study: Nave Asalem forests). Iranian Journal of Forest, 3(4), 317-32.
[37]. Ter Braak, C.J., & Smilauer, P. (2002). CANOCO reference manual and CanoDraw for Windows user's guide: software for canonical community ordination (version 4.5). www.canoco.com.
[38]. Wei, Q. L., Liu, X. J., Ajmal Khan, M., & Gul, B. (2008). Relationship between Soil Characteristics and Halophytic Vegetation in Coastal Region of North China. Pakistan Journal of Botany, 40(3), 1081-109.
[39]. Yin, CH., Feng, G., Zhang, F.S., Tian, CY., & Tang, CX. (2010). Enrichment of soil fertility and salinity by tamarisk in saline soils on the northern edge of the Taklamakan Desert. Agricultural Water Management, 97(12), 1978–1986.
[40]. Zhang, X. (2006). Quantitative classification and ordination of forest communities in Panguangou National Nature Reserve. Acta Ecolodica Sinica, 26(3): 754-761.
[41]. Zubairi, M. (2000). Forest Survey (Tree and Forest Measurement). University of Tehran Press. 401 p.
)