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Controlling of Mango Powdery Mildew by some Salts, Growth Regulators and the Biofungicide AQ10 Compared with Punch Fungicide in Egypt

Received: 24 December 2014     Accepted: 28 December 2014     Published: 10 January 2015
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Abstract

Two experiments on 10 years old mango trees, Saddeka cv. (high susceptible cultivar) were conducted under field condition during 2012 and 2013 growing seasons for management of powdery mildew at El Adleia district, Belbees county, El-Sharkia governorate. In these trials, mango trees were sprayed with two potassium phosphate salts , calcium chloride ,three commercial growth regulators ,i.e. Agrotone (NAA), Cultar (paclobutrazol) , and Berelex (GA3), the bio-fungicide AQ10 (Ampelomyces quisqualis) , the commercial systemic fungicide Punch (flusilazole) and an alternate among Cultar ( paclobutrazol ), monobasic phosphate and the fungicide Punch. The aforementioned treatments were applied at 14 days intervals during both growing seasons starting at bud flower burst stage till full bloom stage in order to evaluate their efficiency on management mango powdery mildew disease. The obtained results showed that spraying of mango trees ( Saddeka cv.) during 2012 and 2013 growing seasons with any of the tested treatments significantly reduced the severity of powdery mildew with significant increase to the produced fruit yield compared with control treatment.In addition, results of both seasons revealed that alternation spray among Cultar ( paclobutrazol ), mono basic potassium phosphate and the fungicide Punch was the most superior treatment in reducing severity of the disease and producing the highest fruit yield followed by spraying of the fungicide Punch then spraying of mono basic potassium phosphate . Meanwhile, Brelex was of the lowest efficiency treatment in this regard followed by spraying of Agrotone . The other treatments recorded intermediate figures. Control treatment recorded 44.3 % disease severity and produced poor fruit yield.

Published in American Journal of Life Sciences (Volume 2, Issue 6-2)

This article belongs to the Special Issue Role of Combination Between Bioagents and Solarization on Management of Crown-and Stem-Rot of Egyptian Clover

DOI 10.11648/j.ajls.s.2014020602.15
Page(s) 33-38
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2015. Published by Science Publishing Group

Keywords

Disease Management, Growth Regulators, Mango, Potassium Phosphate, The Bio-Fungicide (“AQ10”) and The Fungicide Punch

References
[1] Abada K. A. ; Abdel- AlimA. I.; Abd-ElbackiA. M. and Ashour A. M. A. (2009). Management of pea powdery mildew disease using some resistance inducing chemicals and systemic fungicides . Egypt .J . Phytopathol. , 37(2): 95-104.
[2] Abdel-Kader M.M.;.El-Mougy,Nehal S. and Embaby E.I. (2012). Resistance inducers treatment against downy and powdery mildew of cucumber under commercial plastic houses conditions. Australian Journal of Basic and Applied Sciences, 6(5):249-259.
[3] Abou-Rawash, M.; El-Masry, H.; Shaltout, A. and Ebeed,Sanaa(1992). Effect of some growth regulators sprays on chemical constituents of leaves, shoots and buds of Pairi & Ewais mango. Ann. Agric. Sci., Moshtohor, 30 (1): 509-523.
[4] Agapov V.; Reuveni,M. and Reuveni, R.(1993) Eradication of cucumber powdery mildew by phosphate and potassium salts. Abstracts of Papers.6th Int. Cong. Plant Pathol. (Montreal, Canada). P214.
[5] Anonymous (2013). Annual Report of Agric. Statistical Dept. Egyptian Min. of Agric. and Land Reclamation . A.R.E. (in Arabic).
[6] Bowen P.; Menzies, J.; Ehret, D. ; Samuels, L. and Glass, A.D.M. (1992). Soluble silicon sprays inhibit powdery mildew development on grape leaves. J. Am. Soc. Hort. Sci. 117. 906 - 912
[7] Buchenauer H. and Rohner, E.(1981). Effect of triadimefon and triadimenol on growth of various plant species as well as on gibberellins content and sterol metabolism in shoots of barley seedlings .Pesticide Biochemistry and Physiology, 56-70
[8] Dekker, J. (1987) Build- up and persistence of fungicide resistance. In National Pesticide Use. (Ed. by E. J. Brend and E.K. Atkin) pp 153-168. Cambridge University Press. Cambridge. U.K.
[9] Droby S. ; WisniewiskiM.E. ; Cohen L.;Weiss B.; Touitou D.; Eilam Y. and Chlutz E.(1997). Influence of CaCl2 on Penicillium digitatum grape fruit peel tissue and biocontrol activity of Pichia guilhermondii . Plant Dis., 87:310 – 315.
[10] Duncan D.B. (1955). Multiple range and multiple F-tests. Biometrics, 11:1-42
[11] Haggag, Wafaa M. (2010). Mango diseases in Egypt. Agric. Biol. J. N. Am., 1(3): 285-289.
[12] Homma Y.; Arimoto Y. and Misato T. (1981). Studies on the control of plant diseases by sodium bicarbonate formulation. 2. Effect of sodium bicarbonate on each growth stage of cucumber powdery mildew fungus (Sphaerotheca fuliginea) in its life cycle. J. Pesticide Sci., 6: 201-209.
[13] Kaushik C. D. and Mishra B. P. (1997). Flusilazole (Punch), a potential fungicide for the control of different powdery mildews.Annals of Agric. Bio. Res.,2(1):15-19.
[14] Kiss L.; Russell J. C., Szentivanyi, Xu O. and Jeffries X..P. (2004). Biology and biocontrol potential of Ampelomyces mycoparsites , natural antagonistis of powdery mildew fungus. Biocontrol Science and Technology, 14 ,635-646
[15] Mahrous H.A.H. (2001). Biological control of grape vine powdery mildew by Ampelomyces quiqualis Congr. Proc. of 11th Congress of the Mediterranean Phytopathological Union, Evora, Portugal, 17-20 September.
[16] Mahrous H.A.H. (2003). Effectiveness of foliar spraying with phosphates salts fertilizer, sodium bicarbonate and a fungicide in controlling powdery mildew disease of grape vine. J. Agric. Sci. Mansoura Univ., 28 (9) : 7043 – 7049.
[17] Mahrous H. A. H.,(2004). Effect of spraying some chemical substances on a floral malformation disease in mango .Acta Horticulture, No.645, ISHS.
[18] Majumder P. K. and Sharma D. K. (1990). Mango . In :Fruits – Tropical and Subtropical .T.K. Bose and S.K.Mitra.pp:1-62 Naya Prokash,Calcutta .
[19] Maouni A. ; Lamarti A.; Aidoun A.; Khaddor M. and Badoc A. (2007). Effect of benzimidazole fungicide and calcium chloride on Alternaria alternata and Penicillium expansum rot during storage of pears. Afr.J. Biotech.,6:1289-1292 .
[20] Marboutie G.; Hugueney, Viret C.; Combe F. and Deference H. (1993). Some results of preliminary studies with Ampelomyces quisqualis used to control powdery mildew on peach leaves. Bulletin, OILB- SROB., 4, 53 - 56.
[21] Marboutie, G.; Combe F.; Boyer E.; Berne A. and Cravedi P. (1995). Work on Ampelomyces quisqualis (1993-1994). Proceedings of the Meeting on Integrated Plant Protection in Stone Fruit; Nimes France, 6-8 Sep., Bulletin, OILB, SROP. 18 : 2, 75-78.
[22] Marboutie G.; Combe F.; Cravedi P.; Hartfield C. and Mazzni E. (1997). Taxonomy of Ampelomyces quisqualis on Sphaerotheca pannosa on Var. Bailey and contribution to the study of its use in the control of powdery mildew of pear in mid-Rhane valley. Proceedings of the Meeting at Zaragoza, Spain, 24-26 Gotheran September. Bulletin, OILB.SROP, 20 : 6, 79-83.
[23] Menzies J.; Bowen, P.; Ehret D. and Glass A.D.M. (1992) Foliar applications of potassium silicate reduce severity of powdery mildew on cucumber, muskmelon. and zucchini squash. J. Am. Soc. Hort. Sci. 117. 902 – 905
[24] Mc Grath M.T. (1991) Reduced effectiveness of traidimefon of controlling cucurbit powdery mildew associated with fungicide resistance in Sphaerotheca fuliginea. Phytopathology, 81. 1191 (Abstract).
[25] Nasira M.; Mughalb S.M.; Mukhtarb T. and Muhammad Zaman A. M.Z. (2014). Powdery mildew of mango: A review of ecology, biology, epidemiology and management. Crop Protection,24: 19–26
[26] Napier D. R. and Ooshyse S. A. (2000). Use of mono potassium phosphate in the integrated control of powdery mildew. Rivista di Fruttiicoltura e di Ortofloricoltura, 62(6):57,60..
[27] Nofal M.A., and Haggag, Waffa M. (2006). Integrated management of powdery mildew of mango in Egypt. Crop Protection , 25: 480–486.
[28] Oosthuyse S.A.( 2000). Cost reduction of powdery mildew control in mango with mono potassium phosphate. Acta Horticulture, 509:719-723.
[29] Ram S.(1992). Naturally occurring hormones of mango and their role in growth and drop of fruit. Acta Hort., 321:400-11
[30] Rawash M.A. ; El-HammadyA. ; El-Nabawy S.; Khalifa A. S. and El-Masry H. (1983). Regulation of flowering and fruiting in mango trees by using some growth regulators . Ann. Agric. Sci., 28:227-240.
[31] Reuveni M.; Agapov V. and Reuveni R. (1993). In systemic resistance to powdery mildew and growth cucumber by phosphates. Biol. Agric. Hort., 9: 305-315.
[32] Reuveni M. and Reuveni R. (1995). Efficacy of foliar sprays of phosphates in controlling powdery mildew in field-grown nectarine, mango trees and grape vines . Crop Protection, 14:311-314
[33] Reuveni M.; Harpaz M. and Reuveni R. (1998) :Integrated control of powdery mildew on field-grown mango trees by foliar sprays of mono-potassium phosphate fertilizer, sterol inhibitor fungicides and the strobilurin kresoximmethyl. Europ. J. of Plant Pathol.,104 :853-860.
[34] Schepers H.T.A.A: (1983) Decreased sensitivity of Funliginea to fungicides which inhibit ergosterol biosynthesis. Plant Pathol., 89. 185-187.
[35] Schroeder, W.T. and Prowidenti, R. (1969) Resistance in powdery mildew of cucurbits. Plant Dis. Rept., 53: 27 .
[36] Sharma T.R.; Niar P.K. and Nema M.K. (1990). Effect of foliar spray of urea, KNO3 and NAA on fruiting behaviour of mango Cv. Langra. Orissa J. Hort., 18:42-7.
[37] Snedcor G.W. (1980). Statistical Methods. 5th ed Ames, Iowa, The Iowa State Univ. Press.
[38] Singh I.P.; Singh B.P. and Singh S.P. (1986). Effect of 2 , 4 – D and GA3 on fruit drop and fruit quality of mango ( Mangifera indica L.) Cv. Samar Bahisht chausa. Haryana J. Hort. Sci., 15:29-32.
[39] Singh R.S. and Ram S. (1983). Studies on the use of plant growth substances for fruit retention in mango cv. Dashehari .Indian J. Hort.,40:188-94
[40] Steva, H. and Cherjeau. M. (1990) Cross resistance biosynthesis inhibitor Meded. Fac.L. Rijks Univ. Cent., 55: 983-988
[41] Wisniewiski M.E.; .Droby S.; Chqlutz E. and Eilam Y. (1995). Effect of Ca2+ and Mg2+ on Botrytis cinerea and Penicillium expansum in vitro and on the biocontrol activity of Candida oleophila .Plant Pathol., 44:1016 -1024
[42] Ziv sO. and Zitter T. A. (1992). Effect of bicarbonates and film-forming polymers on cucurbit foliar diseases. Plant Dis., 76: 513-517.
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    Azza M. K. Azmy. (2015). Controlling of Mango Powdery Mildew by some Salts, Growth Regulators and the Biofungicide AQ10 Compared with Punch Fungicide in Egypt. American Journal of Life Sciences, 2(6-2), 33-38. https://doi.org/10.11648/j.ajls.s.2014020602.15

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    ACS Style

    Azza M. K. Azmy. Controlling of Mango Powdery Mildew by some Salts, Growth Regulators and the Biofungicide AQ10 Compared with Punch Fungicide in Egypt. Am. J. Life Sci. 2015, 2(6-2), 33-38. doi: 10.11648/j.ajls.s.2014020602.15

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    AMA Style

    Azza M. K. Azmy. Controlling of Mango Powdery Mildew by some Salts, Growth Regulators and the Biofungicide AQ10 Compared with Punch Fungicide in Egypt. Am J Life Sci. 2015;2(6-2):33-38. doi: 10.11648/j.ajls.s.2014020602.15

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  • @article{10.11648/j.ajls.s.2014020602.15,
      author = {Azza M. K. Azmy},
      title = {Controlling of Mango Powdery Mildew by some Salts, Growth Regulators and the Biofungicide AQ10 Compared with Punch Fungicide in Egypt},
      journal = {American Journal of Life Sciences},
      volume = {2},
      number = {6-2},
      pages = {33-38},
      doi = {10.11648/j.ajls.s.2014020602.15},
      url = {https://doi.org/10.11648/j.ajls.s.2014020602.15},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ajls.s.2014020602.15},
      abstract = {Two experiments on 10 years old mango trees, Saddeka cv. (high susceptible cultivar) were conducted under field condition during 2012 and 2013 growing seasons for management of powdery mildew at El Adleia district, Belbees county, El-Sharkia governorate. In these trials, mango trees were sprayed with two potassium phosphate salts , calcium chloride ,three commercial growth regulators ,i.e. Agrotone (NAA), Cultar (paclobutrazol) , and Berelex (GA3), the bio-fungicide AQ10 (Ampelomyces quisqualis) , the commercial systemic fungicide Punch (flusilazole) and an alternate among Cultar ( paclobutrazol ), monobasic phosphate and the fungicide Punch. The aforementioned treatments were applied at 14 days intervals during both growing seasons starting at bud flower burst stage till full bloom stage in order to evaluate their efficiency on management mango powdery mildew disease. The obtained results showed that spraying of mango trees ( Saddeka cv.) during 2012 and 2013 growing seasons with any of the tested treatments significantly reduced the severity of powdery mildew with significant increase to the produced fruit yield compared with control treatment.In addition, results of both seasons revealed that alternation spray among Cultar ( paclobutrazol ), mono basic potassium phosphate and the fungicide Punch was the most superior treatment in reducing severity of the disease and producing the highest fruit yield followed by spraying of the fungicide Punch then spraying of mono basic potassium phosphate . Meanwhile, Brelex was of the lowest efficiency treatment in this regard followed by spraying of Agrotone . The other treatments recorded intermediate figures. Control treatment recorded 44.3 % disease severity and produced poor fruit yield.},
     year = {2015}
    }
    

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  • TY  - JOUR
    T1  - Controlling of Mango Powdery Mildew by some Salts, Growth Regulators and the Biofungicide AQ10 Compared with Punch Fungicide in Egypt
    AU  - Azza M. K. Azmy
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    PY  - 2015
    N1  - https://doi.org/10.11648/j.ajls.s.2014020602.15
    DO  - 10.11648/j.ajls.s.2014020602.15
    T2  - American Journal of Life Sciences
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    AB  - Two experiments on 10 years old mango trees, Saddeka cv. (high susceptible cultivar) were conducted under field condition during 2012 and 2013 growing seasons for management of powdery mildew at El Adleia district, Belbees county, El-Sharkia governorate. In these trials, mango trees were sprayed with two potassium phosphate salts , calcium chloride ,three commercial growth regulators ,i.e. Agrotone (NAA), Cultar (paclobutrazol) , and Berelex (GA3), the bio-fungicide AQ10 (Ampelomyces quisqualis) , the commercial systemic fungicide Punch (flusilazole) and an alternate among Cultar ( paclobutrazol ), monobasic phosphate and the fungicide Punch. The aforementioned treatments were applied at 14 days intervals during both growing seasons starting at bud flower burst stage till full bloom stage in order to evaluate their efficiency on management mango powdery mildew disease. The obtained results showed that spraying of mango trees ( Saddeka cv.) during 2012 and 2013 growing seasons with any of the tested treatments significantly reduced the severity of powdery mildew with significant increase to the produced fruit yield compared with control treatment.In addition, results of both seasons revealed that alternation spray among Cultar ( paclobutrazol ), mono basic potassium phosphate and the fungicide Punch was the most superior treatment in reducing severity of the disease and producing the highest fruit yield followed by spraying of the fungicide Punch then spraying of mono basic potassium phosphate . Meanwhile, Brelex was of the lowest efficiency treatment in this regard followed by spraying of Agrotone . The other treatments recorded intermediate figures. Control treatment recorded 44.3 % disease severity and produced poor fruit yield.
    VL  - 2
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Author Information
  • Plant Pathol. Res. Instit., Agric. Res. Center, Giza, Egypt

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