Andreu, A.B., Guevara, M.G., Wolski, E.A.,Daleo, G.
R. and Caldiz, D.O. (2006).
Enhancement of natural disease resistancein potatoes by chemicals. Pest Manag. Sci. 62: 162-170.Campbell, C.L. and Madden, L.V.
(1990):Introduction to plant disease epidemiology. John Wiley & Sons, NewYorkCity. 532 pp.
Dufour, M.C. and Corio-Costet, M.F.
(2013).Variability in the sensitivity of biotrophic grapevine pathogens (Erysiphenecator and Plasmopara viticola) to acibenzolar-S methyl and twophosphonates. Eur. J. Plant Pathol. 136: 247-259.· Dharani,D.B.
, Oliver, B., Pete, H., Jenny, M., Svante, R.
, Fredrik, L., Erland, L.,Erik, A. and Erik, A. (2014). Phosphite-induced changes of the transcriptomeand secretome in Solanum tuberosum leading to resistance against Phytophthorainfestans. BMC Plant Biol. 14: 254.
· FRACPathogen Risk List. Online. FRAC (2014). Available: http://www.frac.info 1 February 2015.· Horsfall,J.
G. and Barratt, R.W. (1986). An improved grading system for measuring plantdisease. Phytopathology 35: 655.· ICAR-NationalResearch Centre for Grapes. (2013).
Annexure 5. List of chemicals with CIB& RC label claim for use in grapes. Available from http://nrcgrapes.nic.in/ zipfiles/Annexure% 205.pdf.· Johnson,D.
A., Inglis, D.A. and Miller, J.
S. (2004). Control of potato tuber rots causedby oomycetes with foliar applications of phosphorous acid. Plant Dis. 88:1153- 1159.
· Magarey,P.A., Wachtel, M.F. and Newton, M.R. (1990).
Evaluation of phosphonic(phosphorous) acid, phosethyl- Al and several phenylamide fungicides forpost-infectioncontrol of grapevine downy mildew caused by Plasmoparaviticola. Australas. Plant Path. 20: 34-40.· Massoud,K., Barchietto, T., Le Rudulier, T.
, Pallandre, L., Didierlaurent, L., Garnier,M., Ambard- Bretteville, F., Seng, J.M. and Saindrenan, P. (2012).
Dissectingthe phosphite-induced priming in arabidopsis infected with Hyalopreonosporaarabidopsidis. Plant Physiol. 159: 286-298.
· McKinney,H.H. (1923). A new system of grading plant diseases. J. Agric. Res.
26:195-218.· Reuveni,M. and Reuveni, R. (1995). Efficacy of foliar sprays of phosphates incontrolling powdery mildews in fieldgrown nectarine, mango trees andgrapevines.
Crop Prot.14: 4311-4314.· Saleh,M.M.
S., Ashour, N.E, Sheikh, M.H. and EI-Naggar, M.A.A. (2007).
Foliar spraysof potassium dihydrogen phoshate and their impact on yield, fruit quality andcontrolling powdery mildew disease of Thomsan Seedless grapevines. American-EurasianJ. Agric.
Environ. Sci. 2: 133-140.· Sawant,S.
D., Ghule, M.R. and Sawant, I.S. (2016). First report of QoI resistance in Plasmoparaviticola from vineyards of Maharashtra, India. Plant Dis.
100: 229.· Sawant,S.D., Ghute M.R. and Sawant, I.S.
(2017). Occurence and detection of CAAfungicide resistence in Plasmopam viticolo in vineyards of Sangli,India, Plant Dis. 101:1.
· Siegrist,J., Glenewinkel, D., Kolle, C. and Schmidtke, M. (1997). Chemically inducedresistance in green bean against bacterial and fungal pathogens.
J. PlantDis. Prot. 104: 599-610.· Wicks,T., Magarey, P., Wachtel, M.
and Smith, A. B. (1991). Effect of post infectionapplication of phosphorous (phosphonic) acid on the incidence and sporulationof Plasmopara viticola on grapevine. Plant Dis.
75: 40-43.· AzizA., Trotel-Aziz, P.
, Dhuicq, L., Jeandet, P., Couderchet, M. and Vernet, G.
2006. Chitosan oligomers and copper sulfate induce grapevine defense reactionsand resistance to gray mold and downy mildew. Phytopathology, 96: 1188-1194. · Hadrami,A.E.
, Adam, L.R., Hadrami, I.E. and Fouad, D. 2010. Chitosan in plantprotection.
Marine Drugs, 8: 968-987.· Naik,S. and Singh, H.B. 2017. The effect of microbial treatments on total phenolicsand growth promotion of pigeon pea. Journal of Eco-friendly Agriculture, 12(2):74-80.· Ramamoorthy,V.
, Viswanathan, R., Raghuchander, T., Prakasam, V.
and Samiyappan, R. 2001.Induction of systemic resistance by plant growth promoting rhizobacteria incrop plants against pests and diseases. CropProtection, 20:1-11.
· Romanazzi, G., Nigro, F., Ippolito, A.
, DiVenere, D. andSalerno, M. 2002. Effects of Pre- and Postharvest Chitosan Treatments toControl Storage Grey Mold of Table Grapes. Journalof Food Science, 67: 1862-1867.
· SawantI.S., Sawant, S.
D., Upadhyay, A., Sharma, J., Upadhyay, A.K., Shetty, D. andBhirangi, R.
2010. Crop loss in grapes due to downy mildew infection onclusters at pre- and post bloom stages under non-epiphytotic conditions. IndianJournal of Horticulture,67: 425-432.· Sawant,I. S. and S.D.
Sawant. 2012. Diseases of Grapes. In.
Diseases of Fruit Crops. Eds.Mishra, A.K., Chowdappa, P.
, Sharma, P., Khetarpal, R.K. IndianPhytopathological Society, New Delhi, 113-147p.· Sawant,S.D.
, Ghule, M.R., Savardekar, R.M., Sawant I.S., Saha, S. 2016b.
Effective useof activated potassium salt of long chain phosphorous (96%) for the control offungicide resistant Plasmopara viticola causing downy mildew in grapes. Indian Phytopathology, 69 (4s): 338-344.· Sawant,S.D., Savardekar, R.
M., Ghule, M.R., Sawant I.S., Saha, S. 2016c.
Evaluation ofamisulbrom 20% SC against Plasmoparaviticola of grapes under in vitro and in vivo conditions. Indian Phytopathology. 69(4s): 621-624.· VanLoon, L.C. and Bakker, P. A. H.
M. 2005. Induced systemic resistance as amechanism of disease suppression by rhizobacteria. In: PGPR: Biocontrol andbiofertilization, ed by Z.
A. Siddiqui, pp. 39-66. Springer, Dordrecht, theNetherlands.· VanLoon, L.C., Bakker, P.
A.H.M. and Pieterse, C.M.
J. 1998. Systemic resistanceinduced by rhizosphere bacteria. AnnualReview of Phytopatholology, 36: 453-483.