وشش گیاهی تخت ییلاق پارک ملی گلستان. مجله منابع طبیعی ایران 55: 273-281.
قهرمان، ا. 1380. فلور رنگی ایران. جلد 1، موسسه تحقیقات جنگل ها و مراتع، 146 ص.
مبین، ص. 1364. رستنی های ایران: فلور گیاهان آوندی. 4 جلد، انتشارات دانشگاه تهران، 504 ص.
مصداقی، م. 1380. توصیف وتحلیل پوشش گیاهی. انتشارات جهاد دانشگاهی مشهد، 287 ص.
نیکان، م. 1389. بررسی تاثیر چرای دام بر گروه های عملکردی گیاهان در منطقه بهارکیش قوچان. رساله کارشناسی ارشد، دانشگاه فردوسی مشهد.
.01 Ahlstrand, B. M. 1982. Response of Chihuahuan Desert mountain shrub vegetation to burning. Journal of Range Management 35:62-65.
.11 Bock, J. H. and C. E. Bock. 1992. Vegetation response to wildfire on native versus exotic Arizon grassland. Journal of Vegetation Science 3:439-446.
.21 Carleton, S. W. and S. R. Loftin. 2000. Response of 2 semiarid grasslands to cool-season prescribed fire. Journal of Range Management 53:52-61.
.31 Cornelissen, J. H. C., S. Larovel, E. Garnier, N. Diaz, N. Buchman, D. E. Gurrich, P. B. Reich, N. ter Steege, H. D. Morgan, M. G. A. Vander Heijden, J. G. Pausas and H. Poorter. 2003. A handbook of protocols for standardized and easy measurement of plant functional traits worldwide. Journal of Botany 51: 335-380.
.41 Dale, G., R. G. Brockway, R. Gatewood and R. B. Paris. 2002. Restoring fire as an ecological process in short grass prairie ecosystems: initial effects of prescribed burning during the dormant and growing seasons. Journal of Environmental Management 65:135-152.
.51 De Groot, W. J., P. M. Bothwell, D. H. Carlsson and K. Logan. 2003. Simulating the effects of future fire regimes on western Canadian boreal forests. Journal of Vegetation Science 14: 355-364.
.61 Decastro, E. A. and J. B. Kauffman. 1998. A vegetation gradient of above ground biomass, root and consumption by fire. Journal of Tropical Ecology 14(3): 263-283.
.71 Diaz, S. and M. Cabido. 1997. Plant functional types and ecosystems functional in relation to global change: a multiscale approach. Journal of Vegetation Science 8: 463-474.
.81 Diaz, S., J. Cabido, M. Zak Martinez, E. Carretero and J. Aranibar. 1999. Plant functional types, ecosystem structure and land use history along a climate gradient in central-western Argentina. Journal of Vegetation Science 10: 651660.
.91 Doll, M., M. Bernhatdt-ro, A. Parth and W. Schmidt. 2008. Changes in life history trait composition during undisturbed old-field succession. Flora 203: 508–522.
۲۶
.02 Domingues, T. F., L. A. Martinelli and J. R. Ehleringer. 2007. Ecophysiological traits of plant function groups in forest and pasture ecosystems from eastern Amazonia, Brazil. Plant Ecology 193: 101-112.
.12 Duckworth, J. C., M. Kent and P. M. Ramsay. 2000. Plant functional types: an alternative to taxonomic plant community description in biogeography?. Progress in Physical Geography 24: 515-542.
.22 Novo, F. G. 1977. The effects of fire on the vegetation of Donana National Park (Spain), in Mooney, H. A. and Conrad, C. E., Symposium on the Environmental Consequences of Fire and Fuel Management in Mediterranean Ecosystems. Palo Alto, CA. USDA Forest Service, Washington Office, Washington, DC. p. 318-325, General Technical Report WO-3. 3(1): 318-325.
.32 Guevara, J. C., C. R. Stasi, C. F. Wuillod and O. R. Estevez. 1999. Effects of fire on rangeland vegetation in southwestern Mendoza plains (Argentina): composition, frequency, biomass, productivity and carrying capacity. Journal of Arid Environments 41: 27–35.
.42 Kahmen, S. and S. Poschlod. 2008. Effects of grassland management on plant functional trait composition. Agriculture, Ecosystems and Environment 128: 137–145.
.52 Kennan, T. C. D. 1972. The effects of fire on two vegetation types in Matopos, Rhodesia, Proceedings Annual [11th] Tall Timbers Fire Ecology Conference: fire in Africa. Tallahassee, FL. Tall Timbers Research, Inc., Tallahassee, FL. p. 53-98.
.62 Kristofor, R. B. 2006. Soil physiochemical changes following 12 years of annual burning in humid-subtropical tall grass prairie: a hypothesis. Acta Ecologica Sinica 30:407-413.
.72 Lavorel, S., S. McIntyre, J. Landsberg and D. Forbes. 1997. Plant functional classification: from general groups to specific groups based on response to disturbance. Trends in Ecology and Evolution 12:474-478.
.82 Lloret, F. and M. Vila. 2003. Diversity patterns of plant functional types in relation to fire regime and previous land use in Mediterranean woodlands. Journal of Vegetation Science 14: 387-398.
.92 Mcintyre, S., S. Diaz, S. Lavorel and W. Gramer. 1999. Plant functional types and disturbance dynamics- introduction. Journal of Vegetation Science 10: 604-698.
.03 McPherson, G. R. 1995. The role of fire in desert grassland. Desert grassland. PP. 130-151. In: McClaran, M.P.,Van
Devender, T.R.(Eds), the Desert Grassland. University of Arizona press, Tucson .
.13 Navarroa, T., C. l. Aladosb and B. Cabezudoa 2006. Changes in plant functional types in response to goat and sheep grazing in two semi-arid shrublands of SE Spain. Journal of Arid Environment 64: 298-322.
.23 Patten, D. T. and G. H. cave. 1984. Fire temperatures and physical characteristic of a controlled burn in the Upper Sonoran Desert. Journal of Range Management 37:277-280.
.33 Paula, S. and J .G. Pausas. 2006. Leaf traits and resprouting ability in the Mediterranean basin. Functional Ecology
20: 941-947.
.43 Pausas, J. G. and R. A. Bradstock. 2007. Fire persistence traits of plants along a productivity and disturbance gradient in Mediterranean shrublands of south-east Australia. Global Ecology and Biogeography 16: 330–340.