Screening wild and cultivated cucurbits against root knot nematode to exploit as rootstocks for grafting in cucumber

Authors

  • C Thangamani Author
  • L Pugalendhi Author
  • V Punithaveni Author

DOI:

https://doi.org/10.24154/jhs.v13i1.28

Keywords:

Meloidogyne incognita, Root Knot Nematode Index, Phenols, Peroxidase, PPO

Abstract

Yield of mono-cropped cucumber (Cucumis sativus L.) is reduced by root knot nematode (Meloidogyne incognita Kofoid and White). Use of resistant rootstocks in grafting may overcome the problem. Cucurbitaceous species were screened against root knot nematode to evaluate their use as rootstocks in grafting. Inoculation was with nematodes @ 2 J2·g-1 (J2 = second stage juvenile) of soil in pot culture at the 1 to 2 true leaf stage, 45 days after inoculation, plants were uprooted and observations made to calculate Root Knot Nematode Index (RKI). Cucurbita moschata, Cucumis metuliferus, Citrullus colocynthis and Cucumis callosus were resistant having a RKI-2. Cucurbita ficifolia, Cucurbita maxima, Cucumis melo sub sp. agrestis were moderately resistant with a RKI-3. Total phenols content in roots indicates plant resistance to M. incognita. Cucumis metuliferus had the highest mean total phenols content (16.98 mg·g- 1 of root) followed by Citrullus colocynthis (16.08 mg·g-1 of root) and Cucurbita moschata (15.37mg·g-1 of root). Resistant rootstocks possessed higher peroxidase and PPO activity than susceptible ones. Cucumis metuliferus had the highest value of peroxidase and PPO activity (3.83 OD·min-1·g-1 of root and 3.67 OD·min-1·g-1 of root) followed by Citrullus colocynthis (3.26 and 3.63 OD·min-1·g-1 of root), Cucumis callosus (3.02 and 2.98 OD·min-1·g-1 of root) and Cucurbita moschata (2.93 and 2.94 OD·min-1·g-1 of root). Cucumber scions, ‘Green Long’ and ‘NS 408’ had lower peroxidase and PPO activity of 0.64 and 1.42 OD·min-1·g-1 and 0.57 and 1.31 OD·min- 1·g-1 of root, respectively. Resistant and moderately resistant cucurbitaceous species may be used for further studies possibly leading to improved yield.

References

Amin, A.W., A. Wanis, M. Tomader, and G. Abdel Rahman. 2012. Evaluation of some cucurbitaceous rootstocks. 1 - For resistance/ susceptibility to root-knot nematode and fusarium wilt under screenhouse conditions. Egyptian J. Agric. Res. 90(4):1561-1577.

Anwar, S.A. and M.V. McKenry, 2012. Incidence and population density of plant-parasitic nematodes infecting vegetable crops and associated yield losses. Pakistan J. Zool. 44:327-333.

Balasubramanian, M. and D. Purushothaman. 1972. Phenolic contents of root knot affected tissues. Indian J. Nematol. 2:77-94.

Barons, K.C. 1939. Studies of the nature of root knot resistance. J. Agric. Res. 58:263-271.

Bray, H.G. and W.V. Thrope. 1954. Analysis of phenolic compounds of interest in metabolism. Meth. Biochem. Anal. 1:27-52.

Cobb, N.A. 1918. Estimating the nematode population of soil. Technology Circular 1, U.S. Department of Agriculture, Washington, D.C.

Davis, E.L., R.S. Hussey, T.J. Baum, J. Bakker, A. Schots, M.N. Rosso and P. Abad. 2000. Nematode parasitism genes. Ann. Rev. Phytopath. 38:365-396.

Hadisoeganda, W.W. and J.N. Sasser. 1982. Resistance of tomato, bean, southern pea and garden pea cultivars to root knot nematodes based on host suitability. Plant Dis. 66:145-150.

Heald, C.M., B.D. Bruton and R.M. Davis. 1989. Influence of Glomus intradices and soil phosphor us on M. inco gnita infecting Cucumis melo. J. Nematol. 21:69-73.

Ibrahim, K.S. 1991. Peroxidase isoenzymes from Meloidogyne cultured on different hosts. Rev. Nematol. 14:335-344.

Krishnaveni, M. and S. Subramanian. 2002. Root- knot nematodes of cucurbits and their management. National symposium on biodiversity and management of nematodes in cropping systems for su stainable agriculture. Department of Nematology, Agricultu ral Research Station, 11-13 November 2002, Durgapura, Jaipur, India

Panse, V.G. and P.V. Sukhatme. 1957. Statistical methods for agricultural workers. Indian Council of Agricultural Research, New Delhi.

Ploeg, A.T. and M.S. Phillips. 2001. Damage to melon (Cucumis melo L.) cv. Durango by Meloidogyne incognita in Sou thern California. Nematology 3:151-158.

Roberts, P.A. and D. May. 1986. Meloidogyne incognita resistance characteristics in tomato genotypes developed for processing. J. Nematol., 18: 173-178.

Sasser, J.N., H.R. Powers and G.B. Lucas. 1957. Effect of root knot nematodes on the expression of black shank resistance in tobacco. Physiopathology 43:483-89.

Siguenza, C., M. Schochow, T. Turini, and A. Ploeg.2005. Use of Cucumis metuliferus as a rootst ock for melon t o manage Meloidogyne incognita. J. Nematol. 37:276-280.

Schindler, A.F. 1961. A simple substitute for a Baermann funnel. Plant Dis. Rptr. 45:747-748.

Srivastava, S.K. 1987. Peroxidase and polyphenol oxidase in Brassica juncea plants infected with Macrophomina phaseolina (Tassi.) Goid and t heir implication in disease resistance. J. Phytopath. 120:249-254.

Tamilselvi, N.A.T. 2013. Grafting studies in bitter gourd (Momordica charantia L.). PhD (Horticulture) T hesis, Depa rtment of Vegetable Crops, Tamil Nadu Agricultural University, Coimbatore.

Trudgill, D.L. 1995. Origins of root-knot nematodes (Meloidogyne spp.) in relation to their cultural control. Phytoparasitica 23:191-194.

Williamson, V.M. 1999. Plant nematode resistance genes. Curr. Plant Biol. 2:327-331.

Williamson, V.M. and A. Kumar. 2006. Nematode resistance in plants: The battle underground. Trends Genet. 22:396-403.

Williamson, V.M. and R.S. Hussey. 1996. Nematode pathogenesis and resistance in plants. Plant Cell, 8:1735-1745.

Zacheo, G. and T.B. Zacheo. 1995. Plant-nematode interactions: Histological, physiological and biochemical interactions, pp. 321-353, In: K. Kohmoto, U.M., Singh, and R.P. Singh (eds.). Pathogenesis and host specificity in plant diseases. Elsevier Science, Oxford, UK.

Downloads

Published

30-06-2018

Issue

Section

Research Papers

How to Cite

Thangamani, C., Pugalendhi, L., & Punithaveni, V. (2018). Screening wild and cultivated cucurbits against root knot nematode to exploit as rootstocks for grafting in cucumber. Journal of Horticultural Sciences, 13(1), 32-41. https://doi.org/10.24154/jhs.v13i1.28

Similar Articles

91-100 of 142

You may also start an advanced similarity search for this article.