Suppressive Effects of Compost Tea on Phytopathogens 261McSorley, R. and Gallaher, R.N. (1995) Effectof yard waste compost on <strong>plant</strong> parasiticnematode densities <strong>in</strong> vegetable crops.Journal of Nematology 27, 545–549.Milner, J.L., Silo-Suh, L.A., Lee, J.C., He, H.,Clardy, J., Handelsman, J. (1996) Productionof kanosam<strong>in</strong>e by Bacillus cereusUW85. Applied and Environmental Microbiology62, 3061–3065.Nakashita, H., Yasuda, M., Nitta, T., Asami, T.,Fujioka, S., Arai, Y., Sekimata, K., Takatsuto,S., Yamaguchi, I. and Yoshida, S. (2003)Brass<strong>in</strong>o steroid functions <strong>in</strong> a broad rangeof disease resistance <strong>in</strong> tobacco and rice.The Plant Journal 33, 887–898.Neilands, J.B. (1981) Microbial iron compounds.Annual Review of Biochemistry 50, 715–731.Nelson, E.B. and Hoit<strong>in</strong>k, H.A.J. (1983) Therole of microorganisms <strong>in</strong> the suppressionof Rhizoctonia solani <strong>in</strong> conta<strong>in</strong>er mediaamended with composted hardwoodbark. Phytopathology 73, 274–278.Oka, Y., Yermiyahu, U. (2002) Nematodesuppressiveeffects of composts aga<strong>in</strong>stMeloidogyne javanica on tomato. Proceed<strong>in</strong>gsof Fourth International Congressof Nematology, 8–13 June, Tenerife, Spa<strong>in</strong>,p. 448.Pera, J. and Calvet, C. (1989) Suppression ofFusarium wilt of carnation <strong>in</strong> a compostedp<strong>in</strong>e bark and a composted olivepumice. Plant Disease 73, 699–700.Pharand, B., Carisse, O., Benhamou, N. (2002)Cytological aspects of compost-mediated<strong>in</strong>duced resistance aga<strong>in</strong>st Fusariumcrown and root rot <strong>in</strong> tomato. Phythopathology92, 424–438.Pieterse, C.M.J. and Van Loon, L.C. (1999)Salicylic acid-<strong>in</strong>dependent <strong>plant</strong> defensepathways. Trends <strong>in</strong> Plant Science 4, 52–58.Pieterse, C.M.J., Van Wees, S.C.M., Hoffland,E., Van Pelt, J. and Van Loon, L.C. (1996)Systemic resistance <strong>in</strong> Arabidopsis <strong>in</strong>ducedby biocontrol bacteria is <strong>in</strong>dependentof salicylic acid accumulation andpathogenesis-related gene expression.The Plant Cell 8, 1225–1237.Raaijmakers, J.M., Vander, S. I., Koster, M.,Bakker, P.A.H.M., Welsbeek, P.J. andSchlppers, B. (1995) Utilization of heterologoussiderophores and rhizospherecompetence of fluorescent Pseudomonasspp. Canadian Journal of Microbiology 41,126–135.Regulation (EC) No 1493/1999 on the CommonOrganisation of the Market <strong>in</strong> w<strong>in</strong>e,17 May 1999.Roe, N.E., Stoffella, P.J. and Bryan, H.H. (1993)Utilization of composts and other organicmulches on commercial vegetable crops.Compost Science and Utilization 1, 73–84.Santos M., Diánez F., González del Valle, M.and Tello, J.C. (2008) Grape marc compost:microbial studies and supression ofsoilborne mycosis <strong>in</strong> vegetable seedl<strong>in</strong>gs.World Journal Microbiology and Biotechnology24, 1493–1505.Scheuerell, S., Mahaffee, W.F. (2002a) Composttea: pr<strong>in</strong>ciples and prospects for<strong>plant</strong> disease control. Compost Science andUtilization 10, 313–338.Scheuerell, S. and Mahaffee, W.F. (2002b)Compost Tea as a conta<strong>in</strong>er mediumdrench for suppress<strong>in</strong>g seedl<strong>in</strong>g damp<strong>in</strong>goffcaused by Pythium ultimum. Phytopathology94, 1156–1163.Silo-Suh, L.A., Lethbridge, B.J., Raffel, S.J.,He, H., Clardy, J. and Handelsman, J.(1994) Biological activities of two fungistaticantibiotics produced by Bacillus cereusUW85. Applied and EnvironmentalMicrobiology 60, 2023–2030.Sivasithamparan, K. (1981) Some effects of extractsfrom tree barks and sawdust onPhytophthora c<strong>in</strong>namomi Rand. AustralianPlant Pathology 10, 18–20.Slattery, M., Rajbhandari, I., Wesson, K. (2001)Competition-mediated antibiotic <strong>in</strong>duction<strong>in</strong> the mar<strong>in</strong>e bacterium Streptomycestenjimariensis. Microbial Ecology 41, 90–96.Spencer. S. and Benson, D.M. (1981) Root rot ofAucuba japonica caused by Phytophthora c<strong>in</strong>namomiand P. citricola and suppressed withbark media. Plant Disease 65, 918–921.Spencer, S. and Benson, D.M. (1982) P<strong>in</strong>e bark,hardwood bark compost, and peatamendment effects on development ofPhytophthora spp. and lup<strong>in</strong>e root rot.Phytopathology 72, 346–351.Stephens, C.T., Herr, L.J., Hoit<strong>in</strong>k, H.A.J.,Schmitthenner, A.F. (1981) Suppressionof Rhizoctonia damp<strong>in</strong>g-off by composted
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NATURAL PRODUCTS IN PLANT PESTMANAG
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CABI is a trading name of CAB Inter
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viContents7. Potency of Plant Produ
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viiiContributorsJ.C. Pretorius, Dep
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xPrefaceantimicrobials owing to var
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1 Global Scenario on theApplication
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Global Scenario and Natural Product
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Global Scenario and Natural Product
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Global Scenario and Natural Product
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Global Scenario and Natural Product
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Global Scenario and Natural Product
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2 Plant Products in the Control ofM
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Control of Mycotoxins and Mycotoxig
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Control of Mycotoxins and Mycotoxig
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Control of Mycotoxins and Mycotoxig
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Natural Products from Plants 43an e
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Natural Products from Plants 493.3
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HOCH 2Compound 3Natural Products fr
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Natural Products from Plants 87McFa
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Antimicrobials to Prevent Biodeteri
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Proteinaceous and Polyketide Compou
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Allelochemicals in Pest Management
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7 Potency of Plant Productsin Contr
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Control of Virus Diseases of Plants
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Control of Virus Diseases of Plants
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Control of Virus Diseases of Plants
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8 Phytochemicals as NaturalFumigant
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Phytochemicals as Natural Fumigants
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9 Prospects of Large-scaleUse of Na
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10 Current Status of NaturalProduct
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Natural Products as Alternatives to
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Natural Products as Alternatives to
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