Influence of soil agro-techniques and rootstock on management of apple replant diseases
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Malus × domestica Borkh, biocontrol, PGPR, rootstocks, soil biological activitiesIssue
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The replant problem has shown symptoms of declining productivity and longevity of apple orchards in several apple-growing areas of Himachal Pradesh. Due to limited land and choice of crops for smaller microclimatic niches and incomparable economic equivalence of other fruits with apples, orchardists are compelled to replant old apple orchard sites with apples only. Therefore, standardization of suitable agrotechniques to combat the replant problem in apples for better field survival rate and productivity under replant conditions for the sustainability of the apple industry in the state and another part of the country is necessary. The present investigation was carried out using 20 soil agro-techniques combinations, comprising of four apple rootstocks viz., seedling, Merton 793, MM.111, and M.7, and five different soil agro-techniques namely soil fumigation, PGPR, biocontrol, combined (Soil fumigation + PGPR + Biocontrol) and control with three replications. The data revealed that Merton 793 rootstock improved the plant growth and vigour parameters, soil enzymatic activities, and microbial counts. Among the soil agro-techniques, similar results were recorded in the case of combined soil agro-technique. Furthermore, the interaction between rootstocks and soil agrotechniques revealed that combinations of Merton 793 × combined technique excelled with respect for growth and vigour traits, soil enzymatic activities, and bacterial, fungal, and actinomycetes counts over other combinations under replant situation.Abstract
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Aslantas, R., Cakmakc, R., and Sahin, F. 2007. Effect of plant growth promoting rhizobacteria on young apple tree growth and fruit yield under orchard conditions. Scie. Horti. 111: 371-377. Casida, L., Klein, D. and Santoro, T. 1996. Soil Dehydrogenase Activity. Soil Sci. 98:371-6. Gu, Y.H. and Mazzola, M. 2003. Modification of fluorescent pseudomonad community and control of apple replant disease induced in a wheat cultivar-specific manner. App. Soil Eco. :57-72. Marschner, P., Yang, C.H., Lieberei, R. and Crowley, D.E. 2001. Soil and plant specific effects on bacterial community composition in the rhizosphere. Soil Bio. Bio. 33:1437-45. Peterson, A.B. and Hinman, R.H. 1994. The economics of replanting apple orchards in Washington state. Acta Hortic. 363:19-23. Rumberger, A., Yao, S., Merwin, I.A., Nelson, E.B. and Thies, J.E. 2004. Rootstock genotype and orchard replant position rather than soil fumigation or compost amendment determine tree growth and rhizosphere bacterial community composition in an apple replant soil. Pla. Soi. :246–60. Shengrui, Y., Ian, A.M., George, S., Abawib and Janice, E.T. 2006. Soil fumigation and compost amendment alter soil microbial community composition but do not improve tree growth or yield in an apple replant site. Soil Biol. Biochem. :587–99. Singh, N. and Sharma, D.P. 2017. Soil treatments and rootstocks against apple replant problem. Int. J. Chem. Stud. 5:2164-70. Singh, N., Sharma, D.P. and Thakur, K.K. 2018. Effect of rootstocks and soil management on growth and physiological parameters in new plantations of apple under replant conditions. Indian. J. Hortic. 75:392-98. Singh, N., Sharma, D.P., Kaushal, R., Sharma, N., Sharma, I.M. and Sharma S.S. 2020. Isolation and identification of fungi and nematodes in the rhizosphere soil of old declining apple orchards in Himachal Pradesh, India. Allelo. J. 50: -52. Tabatabai, M.A. and Bremner, J.M. 1996. Use of p-nitrophenyl phosphate for assay of soil phosphatase activity. Soil Biol. Biochem. 1: -17. Thakur, K.K. 2017. Studies on replant problem in peach. PhD thesis, Dr. Y.S Parmar University of Horticulture and Forestry Solan Himachal Pradesh, India. Tuyler, G. 1974. Heavy metal pollution and soil enzymatic activity. Plant Soil 41:303–11. Westwood M.N. 1978. Plant efficiency; growth and yield mesurments. In: Temperate Zone Pomology, W H Freeman and company. San Fran. 119-20. Wollum, A.G. 1982. Cultural methods for soil microorganisms. In: Methods of Soil Analysis, Part II, Chemical and Microbiological properties. Ame. Soc. Agro. 781-802. Zhao, M., Li, M. and Liu, R.J. 2010. Effects of arbuscular mycorrhizae on microbial population and enzyme activity in replant soil used for watermelon production, International Journal of Engineering. Sci. Tech. 2:17-22. Zhou, L. 1995. Activities of soil enzymes and heavy metal pollution in soil. J. Env. Sci. 5: -84.
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