Evaluation of Potassium Phosphite and Myclobutanil Combinations for Pear Scab (Venturia pirina) Suppression

LITERATURE CITED

1. ↵
   1. Agostini, J.P.,
   2. P.M. Bushong, and
   3. L.W. Timmer

   . 2003. Glasshouse evaluation of products that induce host resistance for control of scab, melanose, and Alternaria brown spot of citrus. Plant Disease 87(1):69–75.

   OpenUrl
2. ↵
   1. Agrios, G.N.

   2004. Plant Pathology. 5th ed. San Diego, Academic Press.
3. ↵
   1. Akbudak N.,
   2. H. Tezcan,
   3. B. Akbudak, and
   4. V. Seniz

   . 2006. Effect of harpin protein on plant growth parameters, leaf chlorophyll, leaf colour and percentage rotten fruit of pepper plants inoculated with Botrytis cinerea. Scientia Horticulturae 109(2):107–112.

   OpenUrl
4. ↵
   1. Anonymous

   , 2009. The UK Pesticide Guide. British Crop Protection Council, Cabi Publishing, Oxon, UK.
5. ↵
   1. Bécot, S.,
   2. E. Pajot,
   3. D. Le Corre,
   4. C. Monot, and
   5. C. Silué

   . 2000. Phytogard (K₂HPO₃) induces localized resistance in cauliflower to downy mildew of crucifers. Crop Protection 19:417–425.

   OpenUrl
6. ↵
   1. Bevan, J., and
   2. S. Knight

   . 2001. Organic Apple Production. 1st ed. HDRA, Emmerson Press. Kenilworth, UK.
7. ↵
   1. Blanke, M.M.

   , 2007. Regulatory mechanisms in source sink relationships in plants – A review. ISHS Acta Horticulturae 835: International Symposium on Source-Sink Relationships in Plants.
8. ↵
   1. Butt, D.J.,
   2. A.A.J. Swait, and
   3. J.D. Robinson

   . 1990. Evaluation of fungicides against apple powdery mildew and scab. Tests of Agrochemicals and Cultivars 11. Annals Applied Biology (supp) 116:34–35.

   OpenUrl
9. ↵
   1. Fobert, P.R., and
   2. C. Després

   . 2005. Redox control of systemic acquired resistance. Current Opinion Plant Biology 8:378–382.

   OpenUrl
10. ↵
    1. Garbelotto, M.,
    2. D.J. Schmidt, and
    3. T.Y. Harnik

    . 2007. Phosphite injections and bark application of phosphite and pentra-bark control sudden oak death in coast live oak. Arboriculture & Urban Forestry 33:309–317.

    OpenUrl
11. ↵
    1. Gozzo, F.

    , 2003. Systemic Acquired Resistance in Crop Protection: From Nature to a Chemical Approach. Journal Agricultural Food Chemistry 51:4487–4503.

    OpenUrl
12. ↵
    1. Guest, D., and
    2. B. Grant

    . 1991. The complex action of phosphonates as antifungal agents. Biological Reviews 66:159–187.

    OpenUrlCrossRefWeb of Science
13. ↵
    1. Ilhan, K.,
    2. U. Arslan, and
    3. O.A. Karabulut

    . 2006. The effect of sodium bicarbonate alone or in combination with a reduced dose of tebuconazole on the control of apple scab. Crop Protection 25:963–967.

    OpenUrl
14. ↵
    1. Ippolito, A.,
    2. L. Schena,
    3. I. Pentimone, and
    4. F. Nigro

    . 2005. Control of postharvest rots of sweet cherries by pre-and postharvest applications of Aureobasidium pullulans in combination with calcium chloride or sodium bicarbonate. Postharvest Biology and Technology 36:245–252.

    OpenUrl
15. ↵
    1. Jackson, T.J.,
    2. T. Burgess,
    3. I. Colquhoun, and
    4. G.E. St J. Hardy

    . 2000. Action of the fungicide phosphite on Eucalyptus marginata inoculated with Phytophthora cinnamomi. Plant Pathology 49:147–154.

    OpenUrl
16. ↵
    1. Krokene, P.,
    2. N.E. Nagy, and
    3. H. Solheim

    . 2008. Methyl jasmonate and oxalic acid treatment of Norway spruce: anatomically based defense responses and increased resistance against fungal infection. Tree Physiology 28:29–35.

    OpenUrlCrossRefPubMedWeb of Science
17. ↵
    1. Kupka, I.

    2007. Growth reaction of young wild cherry (Prunus avium L.) trees to pruning. Jounal of Forest Science 53:555–560.

    OpenUrl
18. ↵
    1. Lorito, M.,
    2. A. Di Pietro,
    3. C.K. Hayes,
    4. S.L. Woo, and
    5. G.E. Harman

    . 1993. Antifungal, synergistic interactions between chitinolytic enzymes from Trichoderma harzianum and Enterobacter cloacae. Phytopathology 83:721–728.

    OpenUrlCrossRefWeb of Science
19. ↵
    1. MacHardy, W.E., and
    2. M.J. Jeger

    . 1983. Integrating control measures for the management of primary apple scab. Protection Ecology 5:103–125.

    OpenUrl
20. ↵
    1. Miller, J.S.,
    2. N. Olson,
    3. L. Woodell,
    4. L.D. Porter, and
    5. S. Clayson

    . 2006. Post-harvest applications of zoxamide and phosphite for control of potato tuber rots caused by oomycetes at harvest. American Journal of Potato Research 83:269–278.

    OpenUrl
21. ↵
    1. Moragrega, C.,
    2. Manceau, and
    3. E. Montesinos

    . 1998. Evaluation of soil drench treatments with phosphonate derivatives against Pseudomonas syringae pv. syringae on pear under controlled environmental conditions. European Journal of Plant Pathology 104:171–180.

    OpenUrl
22. ↵
    1. Ouimette, D.G., and
    2. M.D. Coffey

    . 1989. Quantitative analysis of organic phosphomates, phosphonate and other inorganic anions in plant and soil using performance ion chromatography. Phytopathology 78:1150–1155.

    OpenUrl
23. ↵
    1. Percival, G.C.,
    2. I.P. Keary, and
    3. K. Marshall

    . 2006. The use of film forming polymers to control Guignardia leaf blotch and powdery mildew on Aesculus hippocastanum L. and Quercus robur L. Arboriculture & Urban Forestry 32(3):100–108.

    OpenUrl
24. ↵
    1. Percival, G.C., and
    2. I. Haynes

    . 2008. The influence of systemic inducing resistance chemicals for the control of oak powdery mildew (Microsphaera alphitoides) applied as a theraputic treatment. Arboriculture & Urban Forestry 34:191–200.

    OpenUrl
25. ↵
    1. Percival, G.C.,
    2. K. Noviss, and
    3. I. Haynes

    . 2009. Field evaluation of systemic inducing resistance chemicals at different growth stages for the control of apple (Venturia inaequalis) and pear (V. pirina) scab. Crop Protection 28:629–633.

    OpenUrl
26. ↵
    1. Richer, D.L.

    1987. Synergism: a patent view. Pesticide Science 19:309–315.

    OpenUrl
27. ↵
    1. Rolshausen, P.E., and
    2. W.D. Gubler

    . 2005. Use of boron for the control of Eutypa dieback of grapevines. Plant Disease 89:734–738
28. ↵
    1. Sutherland, F., and
    2. D.R. Walters

    . 2002. Effect of film forming polymers on infection of barley with the powdery mildew fungus, Bulmeria graminis f. sp. hordei. European Journal of Plant Pathology 108:385–389.

    OpenUrl
29. ↵
    1. Swait, A.A.J., and
    2. D.J. Butt

    . 1990. Fungicides as antisporulants against apple powdery mildew and scab. Tests of Agrochemicals and Cultivars 11. Annals Applied Biology (supplement) 116:36–37.

    OpenUrl
30. ↵
    1. Van Loon, L.C.,
    2. P.J. Bart,
    3. G. Huub, and
    4. J.M. Linthorst

    . 2002. Ethylene as a modulator of disease resistance in plants. Trends in Plant Science. 11:184–191.

    OpenUrl
31. ↵
    1. Villalta, O.N.,
    2. W.S. Washington, and
    3. G. McGregor

    . 2004. Susceptibility of European and Asian pears to pear scab. Plant Protection Quarterly 19:2–4.

    OpenUrl
32. 1. Washington, W.S.,
    2. O. Villalta, and
    3. M. Appleby

    . 1998. Control of pear scab with hydrated lime alone or in schedules with other fungicide sprays. Crop Protection 17:569–580.

    OpenUrl
33. ↵
    1. Wilkinson, C.J.,
    2. B.L. Shearer,
    3. T.J. Jackson, and
    4. G.E. St J. Hardy

    . 2001. Variation in sensitivity of Western Australian isolates of Phytophthora cinnamomi to phosphite in vitro. Plant Pathology 50:83–89.

    OpenUrl