The Study of Phenological and Morphophysiological Traits of New and Old Barely Shoot Cultivars

Document Type : Research Article

Authors

Ferdowsi University of Mashhad

Abstract

In order to compare morphophysiological traits between new and old cultivars of barley (Hordeum vulgare L.) a greenhouse experiment was conducted in greenhouse condition in Faculty of Agriculture, Ferdowsi University of Mashhad in spring and summer 2011.The type of experiment was a completely randomized design with eight treatments (Nosrat , Youssof , Fagr30 , Nick) and four old cultivars include (Reihan, Kavir, Zarjo , Valfajr) and three replications. All seeds were grown in PVC tubes contained washed sands and disruptive sampling was occurred with destroying plastic bags in the end of the four stages uncluding 6th leaf stage, jointing, heading and ripening. Results indicated that new cultivars showed better performances in all shoot growth parameters than the old cultivars. Modern cultivars for most traits, particularly traits that were positively correlated with yield and its components proved more successful than the old cultivars. They had longer reproductive periods and grain filling duration but their vegetative period were shorter than old cultivars. Among shoots characteristics, new cultivars had higher leaf area, stem dry weight and stem length than old cultivars. Result of this study showed that, among all the characteristics of grain yield and yield components, such as grain weight ,spike length, spike per plant, grain per spike and number tiller , new figures were better than old figures. In general, new cultivar Nick was introduced as the best cultivar and Zarjo was introduced as the weakest cultivar.

Keywords


عتصامی، م.، س. گالشی، ا. سلطانی، و ع. نوری نیا. 1388. آنالیز رشد دانه و تغییرات فنولوژی در ژنوتیپ های جو(Hordeum vulgareL.).فصلنامه علمی اکوفیزیولوژی گیاهان زراعی، 1(1).
2. پیغمبری، ع.، ب. یزدی صمدی، س. عبد میشانی، ا. صرافی، ع. طالعی، و م. ر. قنادها.1384. ارزیابی تحمل به خشکی و صفات مربوط به عملکرد دانه در لاین های جو هاپلوئید مضاعف شده. مجله علوم کشاورزی ایران، 36(4): 967-955.
3. راحمی، ع. 1384. پیش بینی دریافت و استفاده از تشعشع خورشیدی در گیاه نخود. پایان نامه کارشناسی ارشد ،دانشگاه علوم کشاورزی و منابع طبیعی گرگان ،92 صفحه.
4. رمضانی، ح. ر.، آساد، م. ت. 1387. تغییرات ژنتیکی در میزان عملکرد دانه و صفات مرتبط با آن در ارقام جو (Hordeum vulgareL.)اصلاح شده. پژوهش و سازندگی در زراعت و باغبانی. شماره 79.
5. روستائی، م. 1388. بررسی تحمل به تنش انجماد و برخی از خصوصیات زراعی در ژنوتیپ های گندم نان و دوروم دیم. مجله به نژادی نهال و بذر، 25(1): 295- 275.
6. روشنفکر ،ح.، مسگر باشی ،م. و کاشانی،ع. 1386. ارزیابی خصوصیات زراعی وعملکرد ژنوتیپ های جو بدون پوشینه در اهواز. مجله علمی کشاورزی،30(4).
7. صالحی، م. و ارزانی، ا. 1390. اثر تنش شوری بر صفات مورفوفیزیولوژیک لاینهای تریتیکاله .مجله علوم زراعی ایران،13(4) :711- 697 .
8. طراوتی، ح . 1381. اقتصاد زیست محیطی. نشر هوای تازه. تهران، 321 صفحه.
9. کافی، م.، جعفر نژاد ،ا. و جامی الاحمدی، م.1384. گندم: اکولوژی و فیزیولوژی و برآورد عملکرد. انتشارات دانشگاه فردوسی مشهد. تعداد صفحات
10. کوچکی،ع.، راشد محصل،م. ح.، نصیری محلاتی، م. و صدر آبادی ،ر.1376 . مبانی فیزیولوژیک رشد و نمو گیاهان زراعی (ترجمه). انتشارات بنیاد فرهنگی رضوی ،ص 404.
11. نقوی، م. ر.، شاهباز پورشهبازی، ع .و طالعی،. ع .1381. بررسی تنوع ذخایر توارثی گندم دوروم برای برخی خصوصیات زراعی و مرفولوژیکی. مجله علوم زراعی ایران، ۴(۸۱-۸۸) .
12. نکویی، ا. 1371. بررسی شاخص های رشد ارقام گندم در اصفهان. پایان نامه کارشناسی ارشد، دانشگاه اصفهان، دانشکده علوم. 109 صفحه.
13. نورمحمدی، ق.، سیادت، ع. وکاشانی، ع. 1380. زراعت غلات . جلد اول . انتشارات دانشگاه شهید چمران ،446 صفحه.
14. Abdel-Ghani, H. A., K. Parzies, S. Ceccarelli,, S. Grando, and H. H. Geiger. 2005.Estimation of Quantitative Genetic Parameters for out crossing-Related Traits in Barley. Crop Science, 45: 98-105.
15. Fernando, R., Cuillen-portal, R., Obert, N., Qingwnxueaudkent, S., Eskridge, M .2006.Compensatory mechanisms associated with the effect of spring wheat seed size an wild oat competition . Crop Science.46:935-945.
16. Fischer, R.A., and Kohn, G.D. 1999. The relationships of grain yield to vegetative growth and post flowering leaf area in the wheat crop under conditions of limited soil moisture. Aus J of Agriculture Research. 17: 281-295.
17. Gabriella, A., Daneil, L., Calderini, F., and Slaffer, C.A. 2003. Genetic improvement of barley yield potential and physiological determinants in Argentina (1944-1998). Springer Netherland, 130: 325- 334.
18. Gebeyehou, G., Knott, D.R., and Baker, R.J.1982. Relationships among duration of grain yield in durum wheat cultivates. Crop Science 22: 287-290.
19. Kaplan , S.L., and Koller, H.R .1977. Leaf area and corex change rate as determinants of the rate of vegetative growth in soybean plants . Crop Science . 17 : 35-38.
20. Muurinens, P. 2005. Radiation-use efficiency of modern and old spring cereal cultivars and it’s response to nitrogen in northern growing condition. Field Crops Res. 54: 138-146.
21. Naseer, Sh. 2001. Response of barley (Hordeum vulgare L.) at various growth stages to salt stress. J. Biological Science. 1(5): 326-259.
22. Neuman, P. M. 1993. Rapid and reversible modifications of extension capacity of cell walls in elongation maize leaf tissues responding to root addition and removal of NaCl. Plant Cell.Environ,16:1107-1114.
23. Nikkhah, H. R., and A. Yousefi. 2004. Evaluation of drought tolerance of barley cultivars lines in water limited conditions. Proceeding of the 8th Iranian Congress of Crop Sciences. Aug. 25 – 27, 2004. GuilanUniversity. Rasht, Iran. (In Persian).
24. Noormandmoayed, F., Rostami, M., and Ghanadiha, M. 2001. Morphoghysiological traits of bread wheat and them relation with yield in stress and no stress condition. Iranian Agriculture Science Journal.32:2.785-794.
25. Perkasem,B., Netsangtip, R., lordkaew,s., and cheng,C.1993.Grain set failure in boron deficient wheat.Plant and Soil,155/156:309-312.
26. Puri, P. T., Quceiset, C. O., and Williams, V. A. 1982. Evaluation of yield components as selection criteria in barley breeding. Crop Science. 22: 927-934.
27. Reynolds, M.P., Rajaram, S., and Sayre, K.D. 1999. Physiological and genetic changes of irrigated wheat in the post- green revolution period and approaches for meeting projected global demand. Crop Science. 39: 1611-1621.
28. Samarah, N. H. 2005. Effects of drought stress on growth and yield of barley. Agron. Sustain, 25: 145-149.
29. Senthoid, A., Turner, N.C., Botwright, T., and Condon, A.G. 2003. Evaluating the impact of a trait for increased Specific leaf area on wheat yields using a crop simulation model. Agron. J.95: 10-19.
30. Sinebo, W .2002.Yield relationships of barleys growth in a tropical highland environment . Crop Science 42:428-437.
31. Slaffer, G.A., and Andrade, F.A. 1993. Physiological attributes related to the generation of grain yield inbread wheat cultivars released at different eras. Field Crop Research. 31: 351- 367.
32. Slafer,G.A., Satorre., E.H., and Andrade, F.H.1994 .Increases in grain yield in bread wheat from breeding and associated physiological changes.In G.A.Slafer(Ed)،Genetic Improvement of Field Crops.Marcel Dekke .pp.1-68.
33. Thurling, N. 2006. Morph physiological determinants of yield in rapeseed (Brassica campestris and Brassica napus) growth and morphological characters. Aust. J. Agricultural. Research, 25(2): 697- 710.
34. Tomer, S. B. and Orasad, G. 1988. Path coefficient analysis in barley. Barley Genet. Newslet. Vol 18.
35. Voltas, J., Romagosa, I. and Araus, J. L., 1998. Growth and final weight of central and lateral barley grains under Mediterranean conditions as influenced by sink strength. Crop Science, 38: 84- 89.
36. Yin, X., Martin, J., Kropff, J., and Stam, P. 2000. A model analysis of yield differences among recombinants inbred lines in barley. Agron. J. 92: 114-120.
37. Yun, S. J., Gyenis, L., Bossolini, E., Hayes, P. M., Matus, I., Smith, K. P., Steffenson, B.J., Tuberosa, R. and Muehlbauer, G. J. 2006. Validation of quantitative trait loci for multiple disease resistance in barley using advanced backcross lines developed with a wild barley. Crop Science, 46: 1179-1186.
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