Growth Analysis of Sugar Beet in Healthy and Rhizomania Infected Conditions

Rezaei, J; Bannayan Aval, M; Nezami, A; Mehrvar, M; Mahmoodi, B

doi:10.22067/gsc.v12i4.21809

Growth Analysis of Sugar Beet in Healthy and Rhizomania Infected Conditions

Document Type : Research Article

Authors

¹ Ferdowsi university of Mashhad

² Sugar Beet Seed Institute of Iran

10.22067/gsc.v12i4.21809

Abstract

Viral disease of Rhizomania is one the most important diseases of worldwide sugar beet farms. The disease significantly reduces the yield and quality of sugar beet and imposes high economic loss to farmers. Long-term breeding programs to introduce tolerant varieties are the only chance to avoid further yield losses. This study tried to analyze the growth of shoot and root of rhizomania tolerant and susceptible sugar beet to provide information for improve and acceleration sugar beet breeding programs. Growth indices were used for growth analyzing, quantification, and time course of sugar beet on infested and non-infested soils. A two-year experiment was conducted with four sugar beet varieties in 2010 and 2011. The results of this study showed that under infested soils, root dry matter and leaf area index of the susceptible varieties in comparison to tolerant varieties were lower by 57 and 24 percent respectively. In addition, crop growth rate and net assimilation rate of susceptible varieties were affected by rhizomania and were lower than that of tolerant varieties. On non-infested soil difference between dry matter and growth indices of susceptible and tolerant sugar beet varieties were not significant. Rhizomania decreased of green area and photosynthesis capacity and led to lower growth rate and dry matter production.

Keywords

References

1- ایزد پناه، ک.، پ. هاشمی، ر. کامران، م. پاک نیت، آ. سهند پور و م. معصومی. 1375. وجود گسترده بیماری ریشه ریشی در فارس. مجله بیماریهای گیاهی، 32: 206-200.

2- رضایی، ج. 1386. ارزیابی مقاومت ارقام تجارتی چغندرقند به بیماری ریزومانیا در شرایط مزرعه. گزارش نهایی شماره 1459/87 . انتشارات مرکز تحقیقات کشاورزی و منابع طبیعی خراسان رضوی.

3- سازمان هواشناسی کشور، www.irimo.ir، جستجوی اینترنتی.

4- Bhathal, J. S., R. Loughman, and J. Speijers. 2003. Yield reduction in wheat in relation to leaf disease from yellow (tan) spot and septoria nodorum blotch. European Journal of Plant Pathology, 109:435–443.

5- Blunt, S. J., M. J. C. Asher, and C. A. Gilligan. 1992. The effect of sowing date on infection of sugar beet by Polymyxa betae. Plant Pathology, 41:148-153.

6- Brunt, A.A. and Richards, K.E. 1989. Biology and molecular-biology of Furoviruses. Adv. Virus Res. 36:1–32.

7- Clover, G.R.G., Azam-Ali, S.N., Jaggard K.W. and Smith H.G. 1999. The effects of beet yellows virus on the growth and physiology of sugar beet (Beta vulgaris). Plant Pathology, 48:129–138.

8- de Koeijer, K.J. and van der Werf, W. 1999. Effects of beet yellows virus and beet mild yellowing virus on leaf area dynamics of sugar beet (Beta vulgaris L.) Field Crops Research, 61:163-177.

9- European and Mediterranean Plant Protection Organization (EPPO). 2004. Beet necrotic yellow vein benyvirus. Bulletin, 34:229 –237.

10- Fujisawa, I., and Sugimoto, T. 1976. Transmission of Beet necrotic yellow vein virus by Polymyxa betae. Annals of the Phytopathological Society of Japan, 43:583–586.

11- Hoffmann, C., and Kluge-Severin, S. 2011. Growth analysis of autumn and spring sown sugar beet. European Journal of Agronomy, 34:1–9.

12- Keller, P., Luttge, U., Wang, X.C., and Buttner, G. 1989. Influence of rhizomania disease on gas exchange and water relations of a susceptible and a tolerant sugar beet variety. Physiol. Mol. Plant Pathol. 34:379-392.

13- Kenter, C., and Hoffmann, C.M., Märländer, B. 2006. Effects of weather variables on sugar beet yield development (Beta vulgaris L.). European Journal of Agronomy, 24:62–69.

14- Lennefors, B.-L., Savenkov, E.I., Mukasa, S.B., and Valkonen, J.P.T. 2005. Sequence divergence of four soil-borne sugar beet-infecting viruses. Virus Genes 31:57–64.

15- Macri, F., Vianello, A., and Passera, C. 1977. Solute uptake in sugar beet root seedlings affected by rhizomania disease. Physiological Plant Pathology, 11:179-187.

16- Mehrvar, M., Valizadeh, J., Koenig, R., and Bragard, C.G. 2009. Iranian beet necrotic yellow vein virus (BNYVV): pronounced diversity of the p25 coding region in A-type BNYVV and identification of P-type BNYVV lacking a fifth RNA species. Archives of Virology, 154:501–506.

17- Milford, G.F.J., Pocock, T.O., and Riley, J. 1985. An analysis of leaf growth in sugar beet. I: Leaf appearance and expansion in relation to temperature under controlled conditions. Annals of Applied Biology, 106:163–172.

18- Mumford, D. L., and Wyse, R. E. 1976. Effect of fungus infection on respiration and reducing sugar accumulation of sugar beet roots and use of fungicides to reduce infection. Journal of American Society of Sugar Beet Technologists, 19:157-162.

19- Pavli, O.I., Stevanatob, P., Biancardic, E., and Skaracis, G.N. 2011. Review: Achievements and prospects in breeding for rhizomania resistance in sugar beet. Field Crops Research, 122:165–172.

20- Qi, A., Kenter, C., Hoffmann, C., and Jaggard, K.W. 2005. The Broom’s Barn sugar beet growth model and its adaptation to soils with varied available water content. European Journal of Agronomy, 23:108–122.

21- Radford, P.J. 1967. Growth analysis formulae-their use and abuse. Crop Science, 7:171-175.

22- Salle, G., Le Coz, S., and Tuquet, C. 1986. Biochemical, physiological and ultrastructural changes induced in sugar beet leaves by rhizomania. Physiologie Vegetate, 24:73-83.

23- Scott, R.K., and Jaggard, K.W. 1978. Theoretical criteria for maximum yield. p. 179–98. In proceedings of the 41th IIRB Congress, Brussels: International Institute for Beet Research.

24- Scott, R.K., and Jaggard, K.W. 1993. Crop physiology and agronomy. p. 179–237. In D.A. Cooke and R.K. Scott (ed.) The Sugar Beet Crop: Science into Practice. Chapman & Hall, London.

25- Steddom, K., Heidel, G., Jones, D., and Rush, C.M. 2003. Remote detection of rhizomania in sugar beets. Phytopathology, 93:720–726.

26- Tamada, T. 1999. Benyviruses. p.154–160. In R.G. Webster and A. Granoff (ed.). Encyclopedia of Virology, second ed. Academic Press, London, UK.

27- Tamada, T., and Baba, T. 1973. Beet necrotic yellow vein virus from rhizomania-affected sugar beet in Japan. Annals of the Phytopathological Society of Japan, 39:325–332.

28- Vianello, A., Macri, F., and Passera, C. 1980. CO2 fixation and fate of photosynthetic products in leaves of sugar beet affected by rhizomania. Phytopathologische Zeitschriiji, 99:63-69.

29- Webb, C.R., Gilligan, C.A. and Asher, M.J.C. 2000. Modeling the effect of temperature on the development of Polymyxa betae. Plant Pathology, 49:600-607.

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Volume 12, Issue 4 - Serial Number 36
January 2015
Pages 683-692

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Growth Analysis of Sugar Beet in Healthy and Rhizomania Infected Conditions

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January 2015
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Growth Analysis of Sugar Beet in Healthy and Rhizomania Infected Conditions

References

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Volume 12, Issue 4 - Serial Number 36January 2015Pages 683-692

Files

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How to cite

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Volume 12, Issue 4 - Serial Number 36
January 2015
Pages 683-692