242 Hailey and Percival: Comparative Assessment of Phosphite Formulations for Apple Scab Elmer, P.A.G., T.M. Spiers, and P.N. Wood. 2006. Effects of pre- harvest foliar calcium sprays on fruit calcium levels and brown rot of peaches. Crop Protection 26(1):11–18. Epstein, E. 1999. Silicon. Annual Review of Plant Physiology and Plant Molecular Biology 50:641–664. Epstein, E. 2001. Chapter 1 Silicon in plants: Facts vs. concepts. Studies in Plant Science 8:1–15. Fauteux, F., F. Chain, F. Belzile, J.G. Menzies, and R.R. Bélanger. 2006. The protective role of silicon in the Arabidopsis–powdery mildew pathosystem. Proceedings of the National Academy of Sciences of the United States of America 103(46):17554–17559. Fobert, P.R., and C. Després. 2005. Redox control of systemic ac- quired resistance. Current Opinion in Plant Biology 8:378–382. Garbelotto, M., D.J. Schmidt, and T.Y. Harnik. 2007. Phosphite in- jections and bark application of phosphite + pentrabark™ control sudden oak death. Arboriculture & Urban Forestry 33:309–316. Gent, D.H., and H.F. Schwartz. 2005. Management of Xanthomonas leaf blight of onion with a plant activator, biological control agents, and copper bactericides. Plant Disease 89(6):631–639. Glenn, D.M., G.J. Puterka, S.R. Drake, T.R. Unruh, A.L. Knight, P. Baherle, E. Prado, and T. Baugher. 2001. Particle film application influences apple leaf physiology, fruit yield, and fruit quality. Journal of the American Society of Horticultural Science 126:175–181. Gozzo, F. 2003. Systemic acquired resistance in crop protection: From nature to a chemical approach. Journal of Agriculture and Food Chemistry 51(16):4487–4503. Gu, H-H., H. Qiu, T. Tian, S-S. Zhan, T-H-B. Deng, R.L. Chaney, S-Z. Wang, Y-T. Tang, J-L. Morel, and R-L. Qiu. 2011. Mitigation effects of silicon rich amendments on heavy metal accumulation in rice (Oryza sativa L.) planted on multi-metal contaminated acidic soil. Chemosphere 83(9):1234-1240. Guest, D., and B. Grant. 1991. The complex action of phosphonates as antifungal agents. Biological Reviews 66:159–187. He, L., Y. Liu, A. Mustapha, and M. Lin. 2011. Antifungal activity of zinc oxide nanoparticles against Botrytis cinerea and Penicillium expansum. Microbiological Research 166(3):207–215. Ilhan, K., U. Arslan, and 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. Ippolito, A., L. Schena, I. Pentimone, and 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. Jackson, T.J., T. Burgess, I. Colquhoun, G.E. St J. Hardy. 2000. Action of the fungicide phosphite on Eucalyptus marginata inoculated with Phytophthora cinnamomi. Plant Pathology 49:147–154. Jamar, L., B. Lefrancq, C. Fassotte, and M. Lateur. 2008. A during- infection spray strategy using sulphur compounds, copper, silicon, and a new formulation of potassium bicarbonate for primary scab control in organic apple production. European Journal of Plant Pathology 122(4):481–493. Jaros-Su, J., E. Groden, and J. Zhang. 1999. Effects of selected fungicides and the timing of fungicide application on Beauve- ria bassiana-induced mortality of the Colorado potato beetle (Coleoptera: Chrysomelidae). Biological Control 15(3):259–26. Johnson, G.F. 1935. The early history of copper fungicides. Agricul- tural History 9(2):67–79. ©2014 International Society of Arboriculture Kenyon, D.M., G.R. Dixon, and S. Helfer. 1997. The repression and stimulation of growth of Erysiphe sp. on Rhododendron by fungicidal compounds. Plant Pathology 46:425–431. Korunic, Z. 1998. Diatomaceous earths, a group of natural insecti- cides. Journal of Stored Products Research 34:87–97. Kurnik, V., V. Gaberšek, and M. Lešnik. 2010. Influence of copper fungicide/fertilizer formulations applied during the blooming period on a fruit set of apples. Agricultura 7:23–30. Liang, Y., J.W. Wong, and L. Wei. 2005. Silicon-mediated enhance- ment of cadmium tolerance in maize (Zea mays L.) grown in cadmium contaminated soil. Chemosphere 58(4):475–83. Lichtenthaler, H.K., and A.R. Wellburn. 1983. Determinations of total carotenoids and chlorophylls a and b of leaf extracts in dif- ferent solvents. Biochemical Society Transactions 11:591–593. Lobato, M.C., F.P. Olivieri, E.A. González Altamiranda, E.A. Wolski, G.R. Daleo, D.O. Caldiz, and A.B. Andreu. 2008. Phosphite compounds reduce disease severity in potato seed tubers and foliage. European Journal of Plant Pathology 122:349–358. Marschner, P. (Ed.). 2012. Marschner’s Mineral Nutrition of Higher Plants. Third Edition. Academic Press, London, England. Miceli, A., A. Ippolito, V. Linsalata, and F. Nigro. 1999. Effect of pre- harvest calcium treatments on decay and biochemical changes in table grape during storage. Phytopathology Mediterranea 38:47–53. Miller, J.S., N. Olson, L. Woodell, L.D. Porter, and 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(3):269–278. Nägeli, K.W. 1893. Über oligodynamische Erscheinungen in lebenden Zellen. Neue Denk-schriſten der schweizerischen naturforschenden Gesellschaſt 33–34:1–5. Olsson, K. 1988. Resistance to gangrene (Phoma exigua var. foveata) and dry rot (Fusarium solani var. coeruleum) in potato tubers. 1. The influence of pectin-bound magnesium and calcium. Potato Research 31:413–422. Ortiz, A., J. Graell, and I. Lara. 2011. Preharvest calcium sprays im- prove volatile emission at commercial harvest of ‘Fuji Kiku-8’ ap- ples. Journal of Agricultural and Food Chemistry 59(1):335–341. Percival G.C., J. Banks, and I. Keary. 2012. Evaluation of organic, synthetic, and physical insecticides for the control of horse chestnut leaf miner (Cameraria ohridella). Urban Forests & Urban Greening 11:426–431. Percival, G.C., and K. Noviss. 2010. Potassium phosphite and myclobutanil for pear scab (Venturia pirina) suppression. Arboriculture & Urban Forestry 36(2):86–92. Percival, G.C., K. Noviss, and I. Haynes. 2009. Field evaluation of systemic inducing resistance chemicals at different growth stages for the control of apple (Venturia inaequalis) and pear (Venturia pirina) scab. Crop Protection 28(8):629–633. Perdichizzi, S., M. Grazia Mascolo, P. Silingardi, E. Morandi, F. Rotondo, A. Guerrini, L. Prete, M. Vaccari, and A. Colacci. 2014. Cancer-related genes transcriptionally induced by the fungicide penconazole. Toxicology in Vitro 28(1):125–130. Reeder, N.L., J. Xu, R.S. Youngquist, J.R. Schwartz, R.C. Rust, and C.W. Saunders. 2011. The antifungal mechanism of action of zinc pyrithione. British Journal of Dermatology 165:9–12. Savi, G.D., A.J. Bortoluzzi, and V.M. Scussel. 2013. Antifungal properties of zinc-compounds against toxigenic fungi and mycotoxin. International Journal of Food Science & Technology 48:1834–1840.
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