Identifying flora of each region is fundamental for accomplishing other pure and applied researches in biology. Especially, in the ecological conditions of protected area of Male Gale. Data were collected in 96 sampling plots using systematic_ random method. The size of sampling plot was 20 m × 50 m for the tree and shrub species, and 8 m × 8 m for herbaceous species. In this study area, 162 species, 122 genera and 43 families were identified. The largest families were Asteraceae (26 species) and Fabaceae (25 species). The frequency of Asteraceae may be due to grazing in some areas of the region. The life form spectrum includes: Hemichryptophytes (14/01 %), Therophytes (65/4 %), Cryptophytes (76/9 %), Chamaephytes (7.1 %) and Phanerophytes (5.8 %). The abundance of Therophytes and Asteraceae family is refered to destruction of forests in the study area. The highest value of the SIV tree and shrub species layer belong to Quercus brantii species and ZIziphus Mummularia. The highest value of the FIV herbaceous layer belong to Asteraceae family. The Species Important Value (SIV) of vegetation cover indicated that tree, shrubs species and herbaceous species had geometric distribution, broken stick model and lognormal distribution in this area.
Asaadi AM. 2009. Floristic study of Firozeh watershed- north Khorasan province. Research Journal of Biological Sciences. 4(10): 1092-1103.
Bischetti GB, Chiaradia EA, Simonato T, Speziali B, Vitali B, Vullo P, Zocco A. 2007. Root strength and root area ratio of forest species in Lombardy (Northern Italy). InEco-and ground bio-engineering: The use of vegetation to improve slope stability.
Cain SA. 1938. The species–area curve. Am. Midland Nat.19: 81–573.
Farzam M, Melati F, Atashgahi. 2011. Flora, life form and chorology of winter and rural range plants in the Northern Khorasan Province, Iran. Journal of Rangeland Science. 1(4): 269-282.
Hamilton AJ. 2005. Species diversity or biodiversity?. Journal of Environmental Management 75: 89-92.
Heinrich M, Barnes J, Gibbons S. Williamson EM. 2004. Fundamentls of pharmacognosy and phytotherapy, Churchill Livingstone, Edinbourgh, London, New York.
International Union for Conservation of Nature and Natural Resources .1975.Proceedings of an International Meeting on ecological guidelines for the use of natural resources in the Middle East and South West Asia held at Persepolis, Iran. 24-30.
Körner C, Basler D. 2010. Phenology under global warming. Science. 327(5972):1461-1462.
Nadaf M, Ejtehadi H, Mesdaghi M, Farzam M. 2017. Flora, life form and chorology of plants in Jozak–Chaminbid area, North Khorassan Province. Iran. Iranian Journal of Plant Biology. 4(32): 69-88.
Negahdarsaber MR, Taheri Abkenar K, Pourbabaei H, Sagheb-Talebi K. 2017. Flora, life forms and chorology of plant species in the Deh-Kohneh Forest in Sepidan, Fars Province, Iran. Caspian Journal of Environmental Sciences. 15(1): 67-74.
Noroozi J, Akhani H, Breckle SW. 2008. Biodiversity and phytogeography of the alpine flora of Iran. Biodiversity and Conservation. 17(3): 493-521.
Niknejad Y, Rezaee MB, Zakerimehr MR. 2014. Florestic investigation, life form, and distribution of medicinal plants species in Rineh area Amol.
Magurran AE, Henderson PA. 2003. Explaining the excess of rare species in natural species abundance distributions. Nature. 422(6933):714.
Moradipour L, Babaei H, Hatami A. 2018. Vegetation Classification in Relation to Environmental Factors, in Fars Province, Iran. Journal of Biological Studies. 1(2): 49-58.
Mohtashamnia S, Zahedi G, Arzani H. 2007. Vegetation ordination of step pic rangelands in
relation to edaphical and physiographical factors (case study: Abadeh rangelands, Fars).
Moradkhani S, Milan BS. 2015. Floristic study of the rangeland Gugerd region in Khoy city (West Azarbaijan Province, NW Iran). Journal of Biodiversity and Environmental Sciences (JBES). 6(6): 48-59.
Pourbabaei H, Abedi R. 2013. Plant Species Groups in Chestnut (Castanea sativa Mill) Sites, Hyrcanian Forests of Iran. Ecologia Balkanica, 5(1).
Parmesan C. 2007. Influences of species, latitudes and methodologies on estimates of phenological response to global warming. Global Change Biology. 13(9): 1860-1872.
Parmesan C, Yohe G. 2003. A globally coherent fingerprint of climate change impacts across natural systems. Nature. 421(6918): 37.
Pourbabaei, H., 2010. Application of Statistics in Ecology (Methods and basic
calculations), University of Gilan. Rasht
Perry AL, Low PJ, Ellis JR, Reynolds JD. 2005. Climate change and distribution shifts in marine fishes. Science. 308(5730): 1912-1915.
Razavi SM, Mattaji A, Rahmani R, Naghavi F. 2012. The Assessment of Plant Species Importance Value (SIV) in Beech (Fagus orientalis) Forests of Iran (A Case study: Nav District 2 of Asalem, Guilan Province). Int Res J App Basic Sci. 3(2), 433-439.
Rios JL, Recio MC. 2005. Medicinal plants and antimicrobial activity. Journal of ethnopharmacology. 100(1-2): 80-84.
Saghebtalebi Kh D, Sajedi D, Yazdanian F. 2004. A look at the forests of Iran, Forest research institute and pastures, Tehran,
Sarmiento G, Monasterio M. 1983. Life forms and phenology. Ecosystems of the World. 13: 79-108.
Sharma N, Kant S. 2014. Vegetation structure, floristic composition and species diversity of woody plant communities in sub-tropical Kandi Siwaliks of Jammu, J & K, India. International Journal of Basic and Applied Sciences. 3(4): 382.
Smith WG. 1913. Raunkiaer's" life-forms" and statistical methods. Journal of Ecology. 1(1):16-26.Takhtajan. 1986. Floristic region of the world. University of California Press.
Taber S. 1973. Influence of pollen location in the hive on its utilization by the honeybee colony. Journal of Apicultural Research. 12(1):17-20.
Thuiller W, Lavorel S, Araújo MB, Sykes MT, Prentice IC. 2005. Climate change threats to plant diversity in Europe. Proceedings of the National Academy of Sciences. 102(23): 8245-8250.
Verburg PH, Schot PP, Dijst MJ, Veldkamp A. 2004. Land use change modelling: current practice and research priorities. GeoJournal. 61(4): 309-324
Valipour A, Namiraninan M, Etemad V, Ghazanfari H. 2009. Relationships between diameter, height and geographical aspects with bark thickness of Lebanon oak tree (Quercus libani Oliv.) in Armardeh, Baneh (Northern Zagros of Iran). Research Journal of Forestry. 3(1): 1-7.
Vaseghi P, Ejtehadi H, M Zokaii M, Joharchi MR. 2008. Study of floristics, vegetation structure and chorology of plants in Kalat highlands of Gonabad, Khorasan Province, east of Iran. Journal of Science of TarbiatMoalem University. 8: 75-88.
Veiskarami Z, Pilehvar B, Soosani, J, Veiskarami GH, Zeinivand H. 2012.Study of flora, life form and chorology of perk forest in Lorestan province, Iran. Natural ecosystems of iran. 3(1): 27-28.
Yavari A, Shahgolzari SM. 2010. Floristic study of Khan-Gormaz protected area in Hamadan province, Iran. Int J Agric Biol. 12: 271-275.
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