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:: Volume 8, Issue 17 (2-2021) ::
PEC 2021, 8(17): 237-262 Back to browse issues page
Investigating the role of Trifolium genus on structural and functional vegetation characteristics of Fandoghlou rangelands in Namin County
Sahar Samadi Khangah Miss1, Ardavan Ghorbani Dr *, Mehdi Moameri Dr3
1- saharsamadi@uma.ac.ir
University of Mohaghegh Ardabili, Ardabil, Iran, a_ghorbani@uma.ac.ir , a_ghorbani@uma.ac.ir
3- moameri@uma.ac.ir
Abstract:   (295 Views)
The aim of this study was to investigate the role of Trifolium genus on the composition, diversity, forage value and quantitative vegetation parameters and interaction between Trifolium species and invasive species Leucanthemum vulgare Lam. in Fandoghlou rangelands in Ardabil province. In determining the sampling locations, six sites by systematic random method and due to the distribution of Trifolium species and L. vulgare were conducted. To compare data composition, diversity and evenness, density, canopy cover and production of all plants and L. vulgare in the selected sites, one way ANOVA and Duncan multiple test were used. Eighthy species belonging to 60 genera and 23 families were identified. Trifolium repense and T. pratense were the main species of this habitat and distributed in all sampling sites. Factors of richness, diversity and evenness between the sites of presence/absence of Trifolium species had a significantly difference (p<0.05). According to the results, 23 species have high forage value, 8 species have medium forage value and 49 species have low forage value, which species with high forage value in the sites with presence of T. repense and T. pratense have more density. Density, canopy cover and production of L. vulgare had a significant difference between the sites with presence/absence of Trifolium species (p<0.05). Moreover, density, canopy cover and production of all plants between the sites with presence/absence of Trifolium species had a significant difference (p<0.05). According to the results of this study, conservation and restoration of valuable native species should be considered in management utilization of steppe rangelands.
Keywords: Forage value, Ardabil province, Composition and diversity, Trifolium genus, Leucanthemum vulgare Lam
Full-Text [PDF 351 kb]   (67 Downloads)    
Type of Study: Research | Subject: Special
Received: 2020/03/29 | Accepted: 2020/08/25 | Published: 2021/03/12
1. Abdin, O., Zhou, X.M., Cloutier, D., Coulman, D.C., Faris, M.A., Smith, D.L. 2000. Cover crops and interrow tillage for weed control in short season maize (Zeamays). European Journal of Agronomy, 12: 93-102.
2. Arzani, H. 2009. Forage quality and daily requirement of range grazing livestock, University of Tehran Press, 350p.
3. Ashton, I.W., Miller, A.E., Bowman, W.D., Suding, K.N. 2010. Niche complementarity due to plasticity in resource use:Plant partitioning of chemical N forms. Ecology, 91: 3252-3260.
4. Assadi, M. 2006. Distribution patterns of the genus Acantholimon (Plumbaginaceae) in Iran, Iranian Journal of Botany, 12(2): 114-120. (In Persian)
5. Beaumont, A.B., Stitt, R.E., Snell, R.S. 1933. Some factors affecting the palatability of pasture plants. American Society of Agronomy, 25: 123-128.
6. Brown, C.D., Green, R.B. 2003. The challenges facing legumes in a dryland environment- a consultant's view. In:D.J. Moot (ed). Legumes for Dryland Pastures. Grassland Research and Practice Series, 11: 7-12.
7. Bulleri, F., Bruno, J.F., Benedetti-Cecchi, L. 2008. Beyond competition: incorporating positive interactions between species to predict ecosystem invasibility. Plos Biology, 6(6): 1136-1140.
8. Chapin, F.S. 2003. Effects of plant traits on ecosystem and regional processes: a conceptual framework for predicting the consequences of global change. Annals of Botany, 91(4): 455-463.
9. Chesson, P. 2000. Mechanisms of maintenance of species diversity. Annual Review of Ecology and Systematics, 31: 343–366.
10. De aceres, M. 2013. How to use the indicspecies package. 29p.
11. Den Hollander, N.G. 2012. Growth characteristics of several clover species and their suitability for weed suppression in a mixed cropping design. Thesis submitted in fulfilment of the requirements for the degree of doctor at Wageningen University, Wageningen. 132p.
12. Derrick, J. 2016. Optimization of subterranean clover for dryland pastures in New Zealand. Moot with the Lincoln University Dryland Pastures Research Team and Associates, Lincoln University, 42p
13. Fornara, D., Tilman, D. 2009. Ecological mechanisms associated with the positive diversity‐productivity relationship in an N‐limited grassland. Ecology, 90: 408–418.
14. Ghorbani, A., Samadi Khangah, S., Moameri, M., Esfanjani, J. 2020. Predicting the Distribution of Leucanthemum Vulgare Lam. Using Logistic Regression in Fandoghlou Rangelands of Ardabil Province, Iran. Journal of Rangeland Science, 10(1): 98-111.
15. Gilbert, B., Turkington, R., Srivastava, DS. 2009. Dominant species and diversity: linking relative abundance to controls of species establishment. The University of Chicago Press for the American Society of Naturalists, 174(6):850-862.
16. Govindarajulu, M., Pfeffer, P.E., Abubaker, J., Douds, D.D., Allen, J.W., Bucking, H., Lammers, P.J., Shacher-Hill, Y. 2005. Nitrogen transfer in the arbuscular mycorrhizal symbiosis. Nature, 435: 819–823.
17. Hancock, D., Harmon, D. 2016. White clover establishment and management guide. University of Georgia Cooperative Extension Bulletin, 10p.
18. Jacot, K.A., Lüscher, A., Nösberger, J., Hartwig, U.A. 2000. Symbiotic N2 fixation of various legume species along an altitudinal gradient in the Alps. Soil Biology and Biochemistry, 32: 1043–1052.
19. Jafari, A. 2005. The role of grasses and legumes in forage production in Iran. The first National Conference of Forage Production, Agricultural College, Tehran University, Karaj, Iran. 76-95 Pp. (In Persian) (Conference)
20. Klein, H. 2011. Oxeye daisy (Leucanthemum vulgare Lam.). Alaska Natural Heritage program, 45:1-3.
21. Li, J.H., Fang, X.W., Jia, J.J., Wang, G. 2007. Effect of legume species introduction to early abandoned field on vegetation development. Plant Ecology, 191: 1–9.
22. Magharri, E., Razavi, S.M., Ghorbani, A., Nahar, L., Sarker, S.D. 2015. Chemical Composition, Some Allelopathic Aspects, Free-Radical-Scavenging Property and Antifungal Activity of the Volatile Oil of the Flowering Tops of Leucanthemum vulgare Lam. Journal of Records of Natural Products: 9(4), 538-545.
23. Mangold, J., Sheley, R., Brown, M. 2009. Oxeye Daisy: Identification, biology and integrated management. Journal of Agriculture and Natural Resources (Weeds), 4 p.
24. Moghadam, M.R. 2009. Range and Range management. University of Tehran Publication, Tehran, 470p.
25. Moretto, A.S., Distel, R.A. 1997. Competitive interactions between palatable and unpalatable grasses native to a temperate semi-arid grassland of Argentina. Plant Ecology, 130(2): 155-161.
26. Murray, L.K. 2012. Early development characteristics of different clover species during establishment. Thesis submitted in partial fulfillment of the requirement for the degree of Bachelor of Agricultural Science at Lincoln University, 71p.
27. Rechinger, K.H. 1984. Flora Iranica, 157(2): 73-79.
28. Spehn, E.M., Hector. A.,Joshi, J.,Scherer‐Lorenzen, M., Schmid, B.,Bazeley‐White, E. et al. 2005. Ecosystem effects of biodiversity manipulations in European grasslands. Ecological Monographs, 75: 37–63.
29. Stephens, D. 2017. Field guide for managing Oxeye Daisy in the Southwest. United States Department of Agriculture, 9 p.
30. Stutz, S., Mráz, P., Hinz, H.L., Müller-Schärer, H., Schaffner, U. 2018. Biological invasion of oxeye daisy (Leucanthemum vulgare) in North America: Pre-adaptation, post-introduction evolution, or both?. PLOS ONE, 13(1): 1-18.
31. Temperton, V.M., Mwangi, P.N., Scherer‐Lorenzen, M., Schmid, B., Buchmann, N. 2007. Positive interactions between nitrogen‐fixing legumes and four different neighbouring species in a biodiversity experiment. Oecologia, 151: 190–205.
32. Theunissen, J., Schelling, G. 1996. Pest and disease management by intercropping: Suppression of thrips and rust in leek. International Journal of Pest Management, 42: 227-234.
33. Tilman, D., Hill, J., Lehman, C. 2006. Carbon‐negative biofuels from low input high diversity grassland biomass. Science, 314: 1598–1600.
34. Vallentine, J.F. 2001. Grazing management. Academic Press, New York, 659p.
35. Xu, H., Detto, M., Li, Y., Li, Y., He, F., Fang, S. 2018. Do N‐fixing legumes promote neighboring diversity in the tropics? Journal of Ecology, 107(1): 229-239.
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Samadi Khangah S, Ghorbani A, Moameri M. Investigating the role of Trifolium genus on structural and functional vegetation characteristics of Fandoghlou rangelands in Namin County. PEC. 2021; 8 (17) :237-262
URL: http://pec.gonbad.ac.ir/article-1-679-en.html

Volume 8, Issue 17 (2-2021) Back to browse issues page
مجله حفاظت زیست بوم گیاهان Journal of Plant Ecosystem Conservation
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