BLAST DISEASE OF BLACK GLUTINOUS RICE GERMPLASMS UNDER INOCULATION AT SEEDING AND TILLERING STAGES
Black rice is an alternative source of blast disease resistance and appropriate screening method is necessary to be proposed. The objectives were to 1) evaluate leaf blast disease of different black glutinous rice genotypes, and 2) determine correlations between disease symptoms at seedling and tillering stages. Leaf blast disease for 25 black glutinous rice genotypes and 3 check genotypes were observed at Khon Kaen University, Thailand in 2013 and 2014. HY 71, Niawdam Gs.no.21629, Khaokam Gs.no.88084, KKU-GL-BL-05-003, KKU-GL-BL-05- 004, KKU-GL-BL-06-010 and KKU-GL-BL-06-023 were high resistant genotypes across growth stages, times of evaluation and years. Seedling and tillering stages were significantly different for severity index. Correlation coefficients between severity indices at seeding and tillering stages in 2013 and 2014 for evaluation at 7 days after inoculation (DAI) were 0.34 (p<0.01) and 0.29 (p<0.01), respectively, and for evaluation at 14 DAI were 0.40 (p<0.01) and 0.41 (p<0.01), respectively. Correlation coefficients between severity indices evaluated at 7 and 14 DAI for growth stages and years varied from 0.34 to 0.50 (p<0.01). The results suggested that screening of leaf blast disease at only seedling stage was not enough to identify resistant genotypes.
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- Aram, P., B.J. Nadali, B. Nadali and N. Gorbanali. 2013a.
Evaluation of rice genotypes for resistance to blast isolates
IRAN-47 in greenhouse. Int. J. Agri. Res. Rev. 3(4): 934-
940.
- Aram, P., B.J. Nadali, B. Nadali and N. Gorbanali. 2013b. Leaf
blast resistance of rice different genotypes in blast nursery.
Int. J. Agri. Crop Sci. 5(12): 1307-1313.
- Banterng, P. and A. Joralee. 2015. Evaluation of black glutinous
rice genotypes for stability of gamma oryzanol and yield in
tropical environments. Turk. J. Field Crops 20(2): 142-149.
- Bhuiyan, M.A.R., M.K. Narimah, H. Abdul Rahim, M.Z.
Abdullah and R. Wickneswari. 2011. Transgressive variants
for red pericarp grain with high yield potential derived from
Oryza rufipogon×Oryza sativa: Field evaluation, screening
for blast disease, QTL validation and background marker
analysis for agronomic traits. Field Crop Res. 121: 232-239.
- Bonman, J.M. 1992. Rice blast. In: Compendium of rice
diseases, ed. Webster, R.K. and Gunnel, P.S., 14-16, The
American Phytopathological Society, St. Paul, Minnesota,
USA.
- Boonsit, P., P. Pongpiachan, S. Julsrigival and D. Karladee.
2010. Gamma oryzanol content in glutinous purple rice
landrace varieties. C.M.U. J. Nat. Sci. 9(1): 151-157.
- Cécile, R., H. Judith, B. Sandrine, T. Didier, N. Jean-Loup, L.
Marc-Henri and M. Jean-Benoit. 2008. Susceptibility of rice
to the blast fungus, Magnaporthe grisea. J. Plant Physiol.
165(1): 114-124.
- Chun, J. A., S. Li, Q. Wang, W.-S. Lee, E.-J. Lee, N.
Horstmann, H. Park, T. Veasna, L. Vanndy, K. Pros and S.
Vang. 2016. Assessing rice productivity and adaptation
strategies for Southeast Asia under climate change through
multi-scale crop modeling. Agr. Syst. 143: 14-21.
- Cicero, A.F.G. and A. Gaddi. 2001. Rice bran oil and γ-oryzanol
in the treatment of hyperlipoproteinemias and other
conditions. Phytother. Res. 15: 277-289.
- Freed, R.D. and O. Nissen. 1992. MSTAT-C Version 1.42.
Michigan State University, East Lansing, Michigan, USA.
Gomez, K.A. and A.A. Gomez. 1984. Statistical Procedures for
Agricultural Research. John Wiley and Sons, New York,
USA.
- Hwang, B.K., Y.J. Koh and H.S. Chung. 1987. Effects of AdultPlant
resistance on blast severity and yield of rice. Plant Dis.
71: 1035-1038.
- International Rice Research Institute. 1996. Standard Evaluation
System for Rice. 4. ed. Genetic Resources Center,
International Rice Research Institute, Manila, Philippines.
- Joralee, A., P. Banterng and W. Kaewpradit. 2013. Evaluation of
agronomic traits and gamma oryzanol content in black
glutinous rice grown under upland condition. Khon Kaen
Agric. J. (Supplement) 41: 618-623.
- Karthikeyan, V. and S. Gnanamanickam. 2008. Biological
control of Setaria blast (Magnaporthe grisea) with bacterial
strains. Crop Prot. 27: 263-267.
- Kato, H., T. Sasaki and Y. Koshimizu. 1969. Potential for
conidium formation of Pyricularia oryzae in lesions on
leaves and panicles of rice. Phytopathology 60: 608-612.
- Luo, Y., P.S. Teng, N.G. Fabellar and D.O. TeBeest. 1998. The
effects of global temperature change on rice leaf blast
epidemics: a simulation study in three agroecological zones.
Agric. Ecosyst. Environ. 68: 187-196.
- Mackill, D.J. and J.M. Bonman. 1986. New host of Pyricularia
oryzea. Plant Dis. 70: 125-127.
- Obilo, O.P., A.E. Daniel, G.O. Ihejirika, M.O. Ofor and N.C.
Adikuru. 2012. Control of rice blast (Magnaporthe grisea)
disease using various organic manures. Int. J. Agric. Rural
Dev. 15: 1198-1205.
- Prabavathy, V.R., N. Mathivanan and K. Murugesan. 2006.
Control of blast and sheath blight diseases of rice using
antifungal metabolites produced by Streptomyces sp. PM5.
Biol. Control 39: 313-319.
- Puri, K.D., S.M. Shrestha, G.B.K. Chhetri and K.D. Joshi. 2009.
Leaf and neck blast resistance reaction in tropical rice line
under green house condition. Euphytica 165: 523-532.
- Pattama, S. 1998. Mapping gene controlling blast resistance in
rice (Oryza sativa L.). Ph.D. Thesis. Kasetsart University,
Bangkok, Thailand.
- Roumen, E.C., J.M. Bonman and J.E. Parlevliet. 1992. Leaf age
related partial resistance to Pyricularia oryzae in tropical
lowland rice cultivars as measured by the number of
sporulating lessions. Phytopathology 82: 1414-1417.
- Ryu, S.N., S.Z. Park and C.T. Ho. 1998. High performance
liquid chromatographic determination of anthocyanin
pigments in some varieties of black rice. J. Food Drug Anal.
6: 729-736.
- Sanmuangchin, N., P. Banterng and A. Chawna. 2008.
Evaluation of black glutinous rice varieties. Khon Kaen
Agric. J. (Supplement) 36: 56-64.
- Shirasawa, H., M. Ueno, J. Kihara and S. Arase. 2012. Protective
effect of red light against blast disease caused by
Magnaporthe oryzae in rice. Crop Prot. 39: 41-44.
- Skamnioti, P. and S.J. Gurr. 2009. Against the grain:
safeguarding rice from rice blast disease. Trends Biotechnol
27(3): 141-150.
- Spyridon, D.K., K. Dimitrios, A.N. Dimitrios and L. Elisabetta.
2009. Blast disease influence on agronomic and quality traits
of rice varieties under Mediterranean conditions. Turk J
Agric. 33: 487-49
- Talbot, N.J. 2003. On the trail of a cereal killer: exploring the
biology of Magnaporthe grisea. Ann. Rev. Microbiol. 57:
177-202.
- Tendulkar, S., Y.K. Saikumari, V. Patel, S. Raghotama, T.K.
Munshi, P. Balaram and B.B. Chattoo. 2007. Isolation,
purification and characterization of an antifungal molecule
produced by Bacillus licheniformis BC98, and its effect on
phytopathogen Magnaporthe grisea. Appl. Microbiol. 1:
2331-2339.
- Teng, P.S. 1994. The epidemiological basis for blast
management. In: Rice Blast Disease, ed. Zeigler, R.S.,
Leung, S. and Teng, P.S., 408-433, CAB International.
Manila and Linden Drive, Philippines.
- Theeraamphon, C. 2008. Introgression of rice blast resistance
into the rice cultivar RD 6 using marker assisted selection.
Ph.D. Thesis in agronomy science, Khon Kaen University,
Khon Kaen, Thailand.
- Vikas, K.S., A. Singh, S.P. Singh, R.K. Ellur, V. Choudhary, S.
Sarkel, D. Singh, S.G. Krishnan, M. Nagarajan, K.K. Vinod,
U.D. Singh, R. Rathore, S.K. Prashanthi, P.K. Agrawal, J.C
.Bhatt, T. Mohapatra, K.V. Prabhu and A.K. Singh. 2012.
Incorporation of blast resistance into “PRR78”, an elite
Basmati rice restorer line, through marker assisted backcross
breeding. Field Crop Res. 128: 8-16.
- Yokoyama, S. 1981. Integrated management of rice blast
disease. Plant Prot. Jpn. 35:26-31.
- Yoshihiro, T., M.E. Mohsen, H. Naglaa and H. Mitsuro. 2014. A
novel method for controlling rice blast disease using fanforced
wind on paddy fields. Crop Prot. 63: 68-75.
- Yun Sung, K. and K. Ki Deok. 2009. Evidence of a potential
adaptation of Magnaporthe oryzae for increased
phosphorothiolate-fungicide resistance on rice. Crop Prot.
28: 940-946.
- Wang, Z., Y. Jia, H. Lin, I. Adair, V. Barbara and J.N. Rutger.
2007. Host active defense responses occur within 24 hours
after pathogen inoculation in the rice blast system. Rice
Science 14(4): 302-310.
- Zakira, N., A.H. Price, F.Y. Hafeez and M.R. Roberts. 2009.
Identification of rice blast disease-suppressing bacterial
strains from the rhizosphere of rice grown in Pakistan. Crop
Prot. 28: 1052-1060.
- Zhan, X.D., H.P. Zhou, R.Y. Chai, J.Y. Zhuang, S.H. Cheng and
L.Y. Cao. 2012. Breeding of R8012, a rice restorer line
resistant to blast and bacterial blight through marker-assisted
selection. Rice Science 19(1): 19-35.