Components of Slow Mildewing in Oat Powdery Mildew Caused by Blumeria graminis F. Sp. avenae

Authors

  • A. B. Malannavar Department of Plant Pathology, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062
  • D. K. Banyal Department of Plant Pathology, CSK Himachal Pradesh Krishi Vishvavidyalaya, Palampur-176 062

Keywords:

Oat, Powdery Mildew, Area Under Disease Progress Curve (AUDPC), Infection Rate, Slow Mildewing.

Abstract

Powdery mildew of oat (Blumeria graminis f. sp. avenae) is the most deleterious foliar disease of cultivated oat, particularly in cooler regions. Slow mildewing, a partial resistance behaves genetically as a quantitative trait and can be assessed by comparing with mildew development on a highly susceptible cultivar grown under the same conditions. The slow mildewing components (disease severity, AUDPC and infection rate) under field conditions were studied in 15 moderately susceptible along with highly susceptible check (HJ-8) selected from panel of 303 field screened oat genotypes. The lines were categorized into slow mildewing categories based on terminal disease severity and AUDPC values. The AUDPC values of these lines ranged from 475 (JPO-45) to 1775 (HJ-8) and infection rate ranged from 0.053 to 0.144, being minimum in JPO-45 and maximum in HJ-8. All the tested lines gave 3 or 4 infection type under greenhouse evaluation and were designated as moderately susceptible and susceptible genotypes. Three oat lines showing moderately susceptible reactions, along with HJ-8 were selected to carry out experiment on slow mildewing in greenhouse. Among all the selected lines, the incubation period varied between 3-4 days and latent period between 4-5 days, i.e. maximum of 4 and 5 days, as compared to minimum of 3 and 4 days in HJ-8, respectively. After 11 days of inoculation, countless conidiophores bearing conidia were produced on all the lines except in IG-03-203. The size of powdery mildew colony was recorded and maximum colony size 3.87 mm was observed in HJ-8 followed by 2.87, 3.37 and 3.30 mm in IG-03-203, JPO-20 and KRR-AK-06, respectively.

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Published

2020-06-01

How to Cite

Malannavar, A. B., & Banyal, D. K. (2020). Components of Slow Mildewing in Oat Powdery Mildew Caused by <i>Blumeria graminis</i> F. Sp. <i>avenae</i>. Himachal Journal of Agricultural Research, 46(1), 62–68. Retrieved from https://hjar.org/index.php/hjar/article/view/155065

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References

Anonymous, 2017. Annual Reports-Rabi, forage crop protection 2016-17. Pp. 152-170.

Anonymous. 2016. Annual Reports-Rabi, forage crop protection 2015-16. Pp. 118-136.

Arushi, Malannavar AB and Banyal DK. 2018. Studies on biology and environmental factors affecting the development of tomato powdery mildew under protected cultivation. Indian Phytopathology 71: 385-391.

Banyal DK, Singh Amar and Tyagi PD. 2005. Pathogenic variability in Erysiphe pisi pea powdery mildew. Himachal Journal of Agricultural Research 31: 87-92.

Banyal DK, Chaudhary J and Singh Amar. 2015. Evaluation of pea (Pisum sativum) germplasm for inheritance of resistance to powdery mildew (Erysiphe pisi). Indian Phytopathology 68(2):166–171.

Banyal DK, Sood VK, Singh Amar and Mawar Ritu. 2016. Integrated management of oat diseases in North-western Himalaya. Range Management and Agroforestry 37 (1): 84-87.

Chaudhary J and Banyal DK. 2016. Study of slow mildewing components of powdery mildew of pea caused by Erysiphe pisi. Plant Disease Research 31(2): 138-141.

Chen XM. 2005. Epidemiology and control of stripe rust [Puccinia striiformis f.sp. tritici] on wheat. Canadian Journal of Plant Pathology 27: 314-337.

Conner RL, Kuzyk AD and Su H. 2003. Impact of powdery mildew on the yield of soft white spring wheat cultivars. Canadian Journal of Plant Science 83: 725-728.

Harneet Kaur. 2019. Eco-friendly management of wheat powdery mildew caused by Blumeria graminis tritici. M. Sc thesis. CSKHPKV, Palampur. Pp. 41-75.

Jones IT, Roderick HW and Clifford BC. 1987. The integration of host resistance with fungicides in the control of oat powdery mildew. Annals of Applied Biology 110: 591-602.

Parlevliet JE. 1979. Components of resistance that reduce the rate of epidemic development. Annual Review of Phytopathology 17: 203-232.

Saari EE and Prescott JM. 1975. A scale for appraising the foliar intensity of wheat disease. Plant Disease Report 59: 377-380.

Sangwan O, Avtar R, Arora RN and Singh A. 2012. Variability and character association studies in fodder oat (Avena sativa L.). Forage Research 38: 56-58.

Shaner G and Finney RE. 1977. The effect of nitrogen fertilization on the expression of slow mildewing resistance in Knox wheat. Phytopathology 67(9): 1051-1056.

Sthapit J, Gbur EE, Brown GG, Marshall DS and Milus EA. 2012. Characterization of resistance to stripe rust in contemporary cultivars and lines of winter wheat from the eastern United States. Plant Disease 96: 737-745.

Vander Plank JR. 1963. Plant Diseases: Epidemics and control. Academic Press, London p 24.

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