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Hamzeh’ee B, Koshnevis M, Ashouri P, Mozaffarian V, Ravanbakhsh H. The effect of fire on vegetation diversity indices, a case study: Sirachal research station. nbr 2020; 7 (1) :92-105
URL: http://nbr.khu.ac.ir/article-1-3275-en.html
Research Institute of Forests and Rangelands, Agricultural Research, Education and Extention Organization (AREEO), Tehran, Iran , hamzehee@rifr-ac.ir
Abstract:   (3642 Views)
Fire affects vegetation and changes plant succession. In this paper, the vegetation of Sirachal Research Station, which burned in the summer of 2014, was studied and compared with the unburnt areas, based on biodiversity indices. The research was implemented as a factorial experiment in a completely randomized design. First, on the basis of physiognomy, the area was divided into three parts: shrubland, shrubland-rangeland, and rangeland. Each part was, then, divided into two sections, including a burnt area and an adjacent unburnt area (control area). In each area (burnt and unburnt), three sampling units were randomly assigned using PNP method, and vegetation measurements were subsequently performed. Based on data analysis, a total of 141 taxa were identified, belonging to 28 families and 95 genera, including one species of Gymnosperm, 19 monocotyledons and 121 dicotyledons in two burnt and unburnt areas of Sirachal Station. Based on the statistical analysis, using Past3 and SPSS softwares, there was no significant difference in the number of taxa between the vegetation of the burnt and unburnt areas. Of the indicators analyzed in Past3, the number of individual, the index of Menhinick's richness and the Shannon diversity index were significantly different in the treatments sampled from the burnt and unburnt areas. According to the Duncan test average, the number of individuals in the unburnt area, with a canopy cover below 25%, was greater than that in the burnt area, with the same canopy cover, however, no significant difference was observed between the individuals in the burnt area and unburnt area, with the same canopy cover of more than 25%. Also, the richness of the burnt area with a canopy of less than 5% is significantly higher than that in the unburnt area with the same canopy cover.
 
 
 
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Type of Study: Original Article | Subject: Plant Biology
Received: 2019/06/18 | Revised: 2020/07/15 | Accepted: 2019/08/13 | Published: 2020/03/31 | ePublished: 2020/03/31

References
1. Akbarzadeh, M. 1994. Preparation of vegetation map of Sirachal region by floristic and physiognomic methods. RIFR, Tehran, 71 pp.
2. Assadi, M. (ed.) 1988-2018. Flora of Iran, vols. 1-148. RIFR. Tehran.
3. Assadi, M. 1998. Pinaceae, Taxaceae, Cupressaceae and Ephedraceae. In Assadi, M. et al. (eds.), Flora of Iran, vols. 19-22. RIFR, Tehran, pp. 21-27.
4. Auld, T.D. & Denham, A.J. 2006. How much seed remains in the soil after a fire? Plant Ecol. 187: 15-24. [DOI:10.1007/s11258-006-9129-0]
5. Baghestani Maybodi, N., Farahpour, M. & Zare, M.T. 2010. Effect of fire on vegetation cover of steppe rangelands (a case study in Yazd province, Iran). Environ. Sci. 7: 37-42.
6. Bailey, A.W. 1988. Understanding fire ecology for range management. In Tueller, P.T. (ed.), Vegetation science applications for rangeland analysis and management; handbook of vegetation science, vol. 14. Springer, Dordrecht, pp. 527-557. [DOI:10.1007/978-94-009-3085-8_21]
7. Barnes, B.V., Zak, D.R., Denton, S.R. & Spurr, S.H. 1998. Forest ecology, 4th edition. John Wiley and Sons, USA, 774 pp.
8. Barnes, T.A. & Van Lear, D.H. 1998. Prescribed fire effects on advanced regeneration in mixed hardwood stands. S. J. Appl. Forest. 22: 138-142. [DOI:10.1093/sjaf/22.3.138]
9. Bond, W.J. & Keeley, J.E. 2005. Fire as a global 'herbivore': the ecology and evolution of flammable ecosystems. Trends Ecol. Evol. 20: 387-394. [DOI:10.1016/j.tree.2005.04.025]
10. Brooks, M., Ostoja, S. & Klinger, R. 2013. Fire effects on seed banks and vegetation in the eastern Mojave desert: Implications for post-fire management. JFSP research project reports, 81 pp. http:// digitalcommons. unl.edu/jfspresearch/81.
11. Capitanio, R. & Carcaillet, C. 2008. Post-fire Mediterranean vegetation dynamics and diversity: A discussion of succession models. Forest Ecol. Managem. 255: 431-439. [DOI:10.1016/j.foreco.2007.09.010]
12. Fattahi, B. & Tahmasebi, A. 2010. Fire influence on vegetation changes of Zagros mountainous rangelands (Case study: Hamadan province). J. Rangeland 4: 228-239.
13. Ghorbani, J., Safaeian, N. & Tamartash, R. 2011. Vegetation changes after the fire in semi-arid rangelands. International Fire Conference on Natural resources, Gorgan, 7 pp.
14. Galatowitsch S. 2008. Seedling establishment in restored ecosystems. In Leck., M.A., Parker, T., Simpson, R. (eds.), Seedling Ecology and Evolution, Cambridge University Press, Cambridge, pp. 352-372. [DOI:10.1017/CBO9780511815133.019]
15. Grime J.P., Mason G., Curtis A.V., Rod‌man J., Band S.R., Mowforth M.A.G., Neal A.M. & Shaw S. 1981. A comparative study of germination characteristics in a local flora. J. Ecol. 69: 1017-1059. [DOI:10.2307/2259651]
16. Guevara, J.C., Stasi, C.R., Wuilloud, C.F. & Estevez, O.R. 1999. Effects of fire on rangeland vegetation in south-western Mendoza plains (Argentina): composition, frequency, biomass, productivity and carrying capacity. J. Arid Environm. 41: 27-35. [DOI:10.1006/jare.1998.0463]
17. Hammer, Ø. 1999-2018. Manual of Past version 3.19. Natural History Museum, University of Oslo, 158 pp.
18. Hamzehee, B. 2019. Investigation of fire effects on soil seed bank and vegetation in Sirachal Research Station (Final report), Research Institute of Forests and Rangelands, 80 pp.
19. Hamzeh'ee, B. & Jalili, A. 2018. The importance of Poaceae in nature and human life. JIN 2: 46-55.
20. Jamshidi Bakhtar, A., Marvie Mohadjer, R.M., Sagheb-Talebi, K. Namiranian, M. & Maroufi, H. 2014. Alternation of plant diversity after fire in Zagros forest stands, case study: Marivan forests. IJFPR 21: 529-541.
21. Javadi, S.A. & Mamoon, Z. 2011. Natural burning effects on some vegetation and soil characteristics of rangeland (Case study: Pir Gol Sorkh Behbahan Rangeland). JNRR 2: 45-54.
22. Kalkhan, M.A., Stafford, E. & Stohlgren, T. 2007. Rapid plant diversity assessment using a pixel nested plot design: A case study in Beaver meadows, Rocky Mountain National Park, Colorado, USA. Divers. Distrib. 13: 379-388. [DOI:10.1111/j.1472-4642.2007.00333.x]
23. Keeley, J.E. & Keeley, S.C. 1981. Post-fire regeneration of southern California chaparral. Amer. J. Bot. 68: 524-530. [DOI:10.1002/j.1537-2197.1981.tb07796.x]
24. Khalilpoor, M., Jalilvand, H., pourmajidian, M. & Hojati, S.M. 2013. Investigation of the effect of fire on vegetation diversity of Zagros forests (Case study: Dale protected area in Kohgiluyeh and Boyerahmad province). First National Conference on Environmental Research of Iran, Hamadan, 23 pp. https://www.civilica.com/Paper-NCER01-NCER01_405.html.
25. Koutsias, N. & Karteris, M. 2000. Burned areas mapping using logistic regression modeling of a single post-fire Landsat-5 Thematic Mapper image. Int. J. Remote Sensing 21: 673-687. [DOI:10.1080/014311600210506]
26. Kwiatkowska-Falińska, A., Jankowska-Błaszczuk, M. & Jaroszewicz, B. 2014. Post-fire changes of soil seed banks in the early successional stage of pine forest. Pol. J. Ecol. 62: 455-466. [DOI:10.3161/104.062.0307]
27. Maringera, J., Wohlgemuth, T., Nef, C., Pezzatti, G.B. & Conedera, M. 2012. Post-fire spread of alien plant species in a mixed broad-leaved forest of the Insubric region. Flora 207: 19-29. [DOI:10.1016/j.flora.2011.07.016]
28. Metlen, K. L. & Fiedler, C. E. 2005. Restoration treatment effects on the under story of ponderosa Pine/Douglas- fire forest in Western Montana, USA. Forest Ecol. Managem. 222: 355-369. [DOI:10.1016/j.foreco.2005.10.037]
29. Moradi, B., Ravanbakhsh, H., Moshki, A. & Shabanian, N. 2016. The effect of fire on vegetation structure in Zagros forests (case study: Sarvabad, Kurdistan province). IJF 8: 381-392.
30. Mazraeh, M., Habashi, H., Kavousi, M. & Shafiei, A. 2011. Comparison of biodiversity of forest vegetation after fire. International Fire Fighting Conference on Natural Resources, Gorgan, 8 pp.
31. Moreira, F., Delgado, A., Ferreira, S., Borralho, R., Oliveira, N., Inacio, M., Silva, J.S. & Rego, F. 2003. Effects of prescribed fire on vegetation structure and breeding bird in young Pinus pinaster stands of northern Portugal. Forest Ecol. Managem. 184: 225-237. [DOI:10.1016/S0378-1127(03)00214-7]
32. Ortmann, J., Beran, D.D., Masters, R.A. & Stubbendieck, J.L. 2008. Grassland management with prescribed Fire. Nebraska cooperative extension. EC 98-148. Historical materials from university of Nebrasca-Lincoln Extension.
33. http://digitalcommons.unl.edu/extensionhist/1296.
34. Rafiee, F., Ejtahadi, H. & Jankju, M. 2015. Study of plant diversity at different time intervals after burning in a semiarid rangeland. JPR (IJB) 27: 854-864.
35. Ravanbakhsh, H., Hamzeh'ee, B., Etemad, V., Marvie Mohadjer, M.R. & Assadi, M. 2016. Phytosociology of Juniperus excelsa M.Bieb. forests in Alborz mountain range in the north of Iran. Pl. Biosyst. 150: 987-1000. [DOI:10.1080/11263504.2014.1000420]
36. Rechinger, K.H. (ed.). 1963-2015. Flora Iranica, vols. 1-174. Akademische Druck- u. Verlagsanstalt, Graz; vol. 175. Akademische Verlagsgesellschaft, Salzburg; vols. 176-181. Naturhistorisches Museum, Wien.
37. Sanghoon, C., Woen, K. & Che, S. 1997. Comparison of plant community structures in cut and uncut areas at burned area of Mt. Gumo-San. J. Kor. Forestry Soc. 86: 509-520.
38. Shahlai, A., Javadi, S.A., Saedi, K. & Afaridegan, A. 2012. The intentional fire effects on the vegetation of rangelands around Sanandaj (case study of Abidar Mountain and Hasan Abad area). 3rd Conference on Rangeland, Watershed and Desert, Karaj. 5 pp. https://www.civilica.com/Paper-RWD03-RWD03_143.html.
39. Shokri, M., Safayian, N., & Atrakchali, A. 2001. Fire effect on Golestan park vegetation. JNE (IJNR). 55: 273-281.
40. Talai Tabar, S.M., Tataeian, M.R. & Tamartash, R. 2017. The short-term effect of fire on vegetation structure and soil physico-chemical properties in non-wooded rangelands of Dorood Faraman. JRM 3: 1-18.
41. Zohary, M. 1973. Geobotanical fundations of the Middle East. vols. 1-2. Fischer Verlag, Stuttgart, Amesterdam, 738 pp.

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