Correlation of Leaf Parameters with Incidence of Papaya Ring Spot Virus in Cultivated Papaya and its Wild Relatives

Authors

  • Linta Vincent Author
  • Soorianathasundaram K Author
  • Shivashankara K S Author

DOI:

https://doi.org/10.24154/jhs.v14i2.796

Keywords:

Epicuticular wax content, Papaya, Trichome density, Vasconcellea

Abstract

Papaya ring spot virus (PRSV) disease has been the major impediment in papaya cultivation. The disease is transmitted through three aphid vectors and field tolerance towards this disease varies among Carica papaya cultivars as well as within the Vasconcellea genus. Leaf morphological traits are known to have influence on the probing preferences of aphids. Hence, this study was conducted to know whether the leaf parameters could contribute to the incidence of PRSV possibly by influencing the probing or feeding behaviour of aphid vectors. Leaf parameters viz., leaf thickness, leaf epicuticular wax content, presence and type of trichomes, trichome density were correlated with disease incidence at field conditions. The result revealed that leaf thickness along with epicuticular wax content had significant negative correlation with disease incidence. Similarly, trichome density had negative impact on disease incidence at 99.92% significance level. High epicuticular wax content and high trichome density in V. cauliflora and V. cundinamarcensis were found to be negatively associated with low to very low infection indicating that these parameters may have limited the vector transmission significantly.

References

Bin, F. 1979. Influenza dei peli glandolari sugli insetti in Lycopersicon spp. Frust Ent., 15:271-283.

Kalleshwaraswamy, C.M and Krishnakumar, N.K. 2008. Transmission efficiency of Papaya ringspot virus by three aphid species. Phytopathology, 98(5):541-546.

Dinesh, M.R. 2010. Papaya breeding in India. Acta Hort., 851: 69-75

Ebercon, A., Blum, A and Jordan, W.R. 1977. A rapid colorimetric method for epicuticular wax content of sorghum leaves. Crop Sci., 17: 179-180.

Goffreda, J.C., Mutschler, M.A., Ave´ D.A., Tingey, W.M and Steffens, J.C. 1989. Aphid deterrence by glucose estersin glandular trichome exudate of the wild tomato, Lycopersicon pennellii. J Chem Ecol.,15:2135-2147.

Guerrieri, E and Digilio, M.C. 2008. Belowground mycorrhizal endosymbiosys and aboveground insects: Can multilevel interactions be exploited for a sustainable control of pests? Molecular mechanisms of plant and microbe coexistence.

In: Nautiyal CS, Dion P, editors. Heidelberg: Springer-Verlag. p. 125-152.

Musetti, L and Neal, J.J. 1997. Resistance to the pink potato aphid, Macrosiphum euphorbiae, in two accessions of Lycopersiconhirsutum f. glabratum. Entomol Exp Appl., 84:137-146.

Ostrand, F., Wallis, I.R., Davies, N.W., Matsuki, M and Steinbauer, M.J. 2008. Causes and consequences of hostexpansion by Mnesamela privata. J. Chem.Ecol.,34: 153-167.

Shepherd, T., Robertson, G.W., Griffiths, D.W and Birch, A.N.E.1999. Epicuticular wax ester and triacyloglycerol compositionin relation to aphid infestation and resistance in red raspberry (Rubus idaeus L.). Phytochemistry.52: 1255-1267.

Wang, E., Hall, J.T and Wagner, G.J. 2004. Transgenic Nicotiana tabacum L. with enhanced trichome exudates cembratrieneols has reduced aphid infestation in the field. Mol. Breed. 13: 49-57

Wojcicka, A. 2015. Surface waxes as a plant defense barrier towards grain aphid. Acta Biologica Cracoviensia Series Botanica.57(1): 95-103.

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Published

31-12-2019

Issue

Section

Research Papers

How to Cite

Vincent, L., K, S., & K S, S. (2019). Correlation of Leaf Parameters with Incidence of Papaya Ring Spot Virus in Cultivated Papaya and its Wild Relatives. Journal of Horticultural Sciences, 14(2), 130-136. https://doi.org/10.24154/jhs.v14i2.796

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