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Elymus tauri Popülasyonunda Morfolojik Özelliklerinin Genetik Çeşitliliğinin Değerlendirilmesi

Evaluation of Genetic Diversity of Morphological Traits in Elymus tauri Populations

Journal Name:

  • Cumhuriyet Üniversitesi Fen Fakültesi Fen Bilimleri Dergisi

Publication Year:

  • 2015
DOI: 
http://dx.doi.org/10.17776/csj.52835

Key Words:

Keywords (Original Language):

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Abstract (2. Language): 
In this study the genetic diversity of morphological traits in Elymus tauri, seeds of 12 populations from East Azabaijan, Ardabil, Kordestan and Alborz provinces were collected. The seeds were planted in Randomized Complete Block Design (RCBD), with four replication, in Tabriz Botanical Garden.Analysis of Variance showed that there was a significant difference among populations at %1 probability level in all traits under study. Cluster Analysis of data based on Ward method, differentiated 12 populations in 2 groups.In Principal Component Analysis, the contribution of the first and second components was higher than %73.In the explanation of the first component, the traits of total number of tillers, spike length and fertile tiller numbe had high positive and significant rates.Grouping obtained from Cluster Analysis was confirmed with the results of Principal Component Analysis.
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Abstract (Original Language): 
Bu çalışmada Doğu Azerbaycan, Ardabil, Kordestan ve Albroz bölgelerinden 12 topluluğun tohumları olan Elymus tauri’nin biçimsel yapılarının genetik çeşitliliği toplanmıştır. Tohumlar 4 kopya ile Tebriz botanik bahçesinde Rasgele tam blok dizaynına (RCBD) dikilmiştir. Varyans analizi gösterdi ki çalışmadaki tüm yapılardaki toplumlarda %1 olasılık düzeyinde kayda değer farklılıklar vardır. Ward metoduna dayalı verilerin Cluster Analizi 12 topluluğu 2 gruba ayırmıştır. Ana unsur analizinde, birinci ve ikinci öğelerin katkısı %73 den yüksekti. Birinci öğenin açıklamasında, toplam kök sayısının özelliklerinin, diken uzunluklarının ve verimli kök sayılarının yüksek ve kayda değer oranları vardı. Cluster Analizinden elde edilen gruplama Ana unsur analizinin sonuçlarını onaylamıştır.
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REFERENCES

References: 

[1] Abdi Ghazijahani, A., Razbn Haghighi, A., Mirzaei Nadoushan, H. and Talebpur, A. (2003),
‘‘Evaluatio of genetic diversity in native populations of Elymus tauri species at north-west of
Iran’’, Iranian J. of Rangelands and Forests Plant Breeding and Genetic Research, 11, pp. 235-
247.
[2] Abdi Ghazijahani, A. (2009), ‘‘Study of genetic diversity in populations spread climatic
conditions of different regions of Agropyron tauri’’, Azerbaijan J. Botanical Institutes, 29, pp.
838-843.
[3] Alderson, J. and Sharp, W.C. (1995), ‘‘Grass varieties in the United States’’, U.S.D.A.
Agric Hand b, 170, rev. ed.(Grass Var. USA).
[4] Asghri, A., Agayev, Y. and Fathi, S.A.A. (2007), ‘‘A karyological study of four species of
wheatgrass (Agropyron sp.)’’, Pakistan J. of Biol- Sci, 10(7), pp. 1093-1097.
[5] Broomandan, p. and Motamadi, J. (2007), Forage Crop Production, Forage Grasses.
University of Razi Press, (in Persian).
[6] Dewey, D.R. (1976), ‘‘Intermediate Wheat grasses of Iran’’, American society of Agronomy
Journal, 18(1), pp. 43-48.
[7] Farshadfar, M., Moradi, F., Mohebbi, A. and Safari, H. (2011), ‘‘Study of genetic variation
and drought resistance in accessions of Agropyron elongatum by morphological traits and
drought resistance indices’’, Iranian J. of Rangelands and Forests Plant Breeding and Genetic
Research, 18, pp.199-213.
Evaluation of Genetic Diversity of Morphological Traits
91
[8] Farshadfar, M. and Farshadfar, E. (2004) ‘‘Valuation of genetic diversity in Agropyron gearent based on morphological and chemical indices’’, Agricultural and Natural resource Journal of Science and Technology, 8, pp. 243-250.
[9] Hopkins, A. (2000) ‘‘Grass its production and utilization’’, Blackwell - Sci. Ltd. Appl. Genet, 85, pp. 961-968.
[10] Hodgson, J. (1979), ‘‘Nomenclature and definitions in grazing studies’’, Grass and forage-Sci, 34, pp. 11-19.
[11] Jafari, A., Morad Alvari, Sh. and Rahmani, A. (2010), ‘‘To study the genetic diversity of 22 genotypes of Agropyron elogatum forage in both irrigated and rainfed conditions north of Lorestan’’, Abstracts 11th of Agronomy and Plant Breeding, University of Shahid Beheshti, Tehran, pp. 153.
[12] Johnson, R.C. (1991), ‘‘Salinity resistance, water relations, and salt content of crested and tall wheatgrass accessions’’, Crop Sci, 31, pp.730 -734.
[13] Karimi, H. (2005), ‘‘Rangeland’’, University of Tehran, (in Persian).
[14] Karimzadeh, J., Monirifar, H.A., Abdi Ghazijahani, A. and Razban Haghighi, A. (2012), ‘‘Grouping of Agropyron tauri populations based on morphological traits’’, Iranian J. of Range and Desert Research, 19, pp. 693-702.
[15] Kazemi-Saeed, F., Abdi-Ghazijahan, A. and Babaei, M. (2013) ‘‘Study of water deficit tolerance components in 12 accessions of Agropyron cristatum L.’’, Iranian J. of Rangelands and Forests Plant Breeding and Genetic Research, 21, pp. 300-314.
[16] Koucheki,A. and Banayan, M. (2012) ‘‘Physiology of crop plants’’, University of Mashhad Press, (in Persian).
[17] Mesdagi, M. (2003), ‘‘Rangeland in Iran, Astan Quds Razavi Press, (in Persian).
[18] Moghaddam, M. R. (1998), ‘‘pasture and range management’’, University of Tehran Press, (in Persian).
[19] Moghaddam, M,. Mohammadi, M, and Agayi, M,S. (1992), ‘‘Multivariate statistical methods’’, Pyshtaz Elm Press, (in Persian).
[20] Mohammadi, R., Khayyam Nekouei, M., Mirlohi, A. F. and Razmjoo, Kh. (2006), ‘‘Investigation of genetic variation in tall wheat grass (Agropyron elongatum (Host) Beauv.) populations’’, Iranian J. of Rangelands and Forests Plant Breeding and Genetic Research, 14, pp. 15-24.
[21] Nguyen, H.T. and Sleper, D. A. (1983), ‘‘Genetic variability of seed yield and reproductive characters in tall Fescue’’, Crop Sci, 23,pp. 621-626.
[22] Rafezi, A., Farshadfar, M. and Farshadfar, A. (2008), ‘‘ Using biochemical markers (proteins) for study interspecies diversity at 17 population of Agropyron elongatum L.’’, Iranian J. of Rangelands and Forests plant Breeding and Genetic Research, 16, pp. 248 – 253.
[23] Peymanifard, B., Malekpur, B. and Faizipurm, M. (1994), ‘‘Introduction of pasture plants important and guide of culture them to different areas’’, Research of Institute Forest and Range Lands Press, Iran, (In Farsi).
ABDIGAZIJAHANI and RAZBAN HAGHIGHI
92
[24] Rahmani, E., Jafari, A.A. and Ghalanader, I. (2009), ‘‘Seed and hay production in 18 ecotypes of crested wheatgrass Agropyron cristatum in cold –temperate territory of northern Lorestan’’, Iranian j. of Range and Desert Research, 16, pp. 66-78.

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