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  • Arneson PA, Durbin RD, 1968. Studies on the mode of action of tomatine as a fungitoxic agent. Plant Physiology 43, 6836.
  • Bailey JA, 1974. The relationship between symptom expression and phytoalexin concentration in hypocotyls of Phaseolus vulgaris infected with Colletotrichum lindemuthianum. Physiological Plant Pathology 4, 47788.
  • Bailey JA, Carter GA, Skipp RA, 1976. The use and interpretation of bioassays for fungitoxicity of phytoalexins in agar media. Physiological Plant Pathology 8, 18994.
  • Bailey JA, Deverall BJ, 1971. Formation and activity of phaseollin in the interaction between bean hypocotyls (Phaseolus vulgaris) and physiological races of Colletotrichum lindemuthianum. Physiological Plant Pathology 1, 43549.
  • Bailey JA, Skipp RA, 1978. Toxicity of phytoalexins. Annals of Applied Biology 89, 3548.
  • Barker BTP, Gimingham CT, Wiltshire SP, 1920. Sulphur as a fungicide. Annual Research Report. Long Ashton, Bristol: Agricultural Horticulture Research Station, 5775.
  • Barker BTP, Wallace T, 1921. A new method of sulphur fumigation. Annual Research Report. Long Ashton, Bristol: Agricultural Horticulture Research Station, 1224.
  • Beffa T, 1993a. Inhibitory action of elemental sulphur (S0) on fungal spores. Canadian Journal of Microbiology 39, 7315.
  • Beffa T, 1993b. Metabolism of elemental sulphur (S0) during fungal spore germination. Canadian Journal of Microbiology 39, 73541.
  • Beffa T, Pezet R, Turian G, 1987. Multiple-site inhibition by colloidal elemental sulfur (S0) of respiration by mitochondria from young dormant α spores of Phomopsis viticola. Physiologia Plantarum 69, 44350.
  • Bircher U, Hohl HR, 1997. Surface glycoproteins associated with appressorium formation and adhesion in Phytophthora palmivora. Mycological Research 101, 76975.
  • Bones AM, Rossiter JT, 1996. The myrosinase-glucosinolate system, its organisation and biochemistry. Physiologia Plantarum 97, 194208.
  • Boucher CA, Barberis PA, Trigalet AP, Demery DA, 1985. Transposon mutagenesis of Pseudomonas solanacearum: isolation of Tn5-induced avirulent mutants. Journal of General Microbiology 131, 244957.
  • Brantner A, Pfeiffer KP, Brantner H, 1994. Applicability of diffusion methods required by the pharmacopeoias for testing antibacterial activity of natural compounds. Pharmazie 49, 5126.
  • Brune DC, 1995. Isolation and characterization of sulfur globule proteins from Chromatium vinosum and Thiocapsa roseopersicina. Archives of Microbiology 163, 3919.
  • Burandt P, Papenbrock J, Schmidt A, Bloem E, Haneklaus S, Schnug E, 2001. Genotypical differences in total sulfur contents and cysteine desulfhydrase activities in Brassica napus L. Phyton 41, 7586.
  • Carver TLW, Ingerson SM, 1987. Responses of Erysiphe graminis to contact with artificial and host surfaces. Physiological and Molecular Plant Pathology 30, 35972.
  • Cole MD, 1994. Key antifungal, antibacterial and anti-insect assays – a critical review. Biochemical Systematics and Ecology 22, 83756.
  • Cooper RM, Resende MLV, Flood J, Rowan MG, Beale MH, Potter U, 1996. Detection and cellular localization of elemental sulphur in disease resistant genotypes of Theobroma cacao. Nature 379, 15962.
  • Cruickshank IAM, Perrin DR, 1961. Studies on phytoalexins III. The isolation assay and general properties of a phytoalexin from Pisum sativum L. Australian Journal of Biology Sciences 14, 33648.
  • Cruickshank IAM, Perrin DR, 1971. Studies on phytoalexins. XI. The induction, antimicrobial spectrum and chemical assay of phaseollin. Phytopathologische Zeitschrift 70, 20929.
  • Defago G, Kern H, Sedlar L, 1983. Genetic analysis of tomatine insensitivity, sterol content and pathogenicity for green tomato fruits in mutants of Fusarium solani. Physiological Plant Pathology 22, 3943.
  • Diwan N, Fluhr R, Eshed Y, Zamir D, Tanksley SD, 1999. Mapping of Ve in tomato: a gene conferring resistance to the broad-spectrum pathogen Verticillium dahliae race 1. Theoretical and Applied Genetics 98, 3159.
  • Doran WL, 1917. Controlling snapdragon rust. Value of copper and sulphur. Florist's Exchange 43, 501.
  • Doran WL, 1922. Laboratory studies of the toxicity of some sulphur fungicides. New Hampshire State Agricultural Experiment Station Technical Bulletin 19, 311.
  • Essenberg M, Pierce ML, Cover EC, Hamilton B, Richardson PE, Scholes VE, 1992. A method for determining phytoalexin concentrations in fluorescent, hypersensitively necrotic cells in cotton leaves. Physiological and Molecular Plant Pathology 41, 1019.
  • Eyre JV, Salmon ES, 1916. The fungicidal properties of certain spray-fluids. Journal of Agricultural Science 7, 473507.
  • Falisse A, Bodson B, 1987. Use of elemental sulphur in cereal crops. In: Syndicat Français du Soufre, ed. Proceedings of the International Symposium for Elemental Sulphur in Agriculture. Nice, France: Syndicat Français du Soufre, 42732.
  • Finney DJ, 1964. Probit Analysis. Cambridge, UK: Cambridge University Press.
  • Foo HL, Grønning LM, Goodenough L, Bones AM, Danielsen BE, Whiting DA, Rossiter JT, 2000. Purification and characterisation of epithiospecifier protein from Brassica napus: enzymic intramolecular sulphur addition within alkenyl thiohydroximates derived from alkenyl glucosinolate hydrolysis. FEBS Letters 468, 2436.
  • Foreman FW, 1910. The fungicidal properties of liver of sulphur. Journal of Agricultural Science 3, 40016.
  • Forsyth W, 1802. A Treatise on the Culture and Management of Fruit Trees. London: Nichols and Son.
  • Galet P, 1996. Grape Diseases. Chaintre, France: Oneo Plurimedia Publishers.
  • Garcia-Perez MD, Egea C, Candela ME, 1998. Defence response of pepper (Capsicum annuum) suspension cells to Phytophthora capsici. Physiologia Plantarum 103, 52733.
  • Grant BR, Irving HR, Radda M, 1985. The effect of pectin and related compounds on encystment and germination of Phytophthora palmivora zoospores. Journal of General Microbiology 131, 66976.
  • Greenwood NU, Earnshaw A, 1997. Chemistry of the Elements. Oxford, UK: Butterworth-Heinemann.
  • Harris JE, Dennis C, 1977. The effect of post-infectional potato tuber metabolites and surfactants on zoospores of Oomycetes. Physiological Plant Pathology 9, 15565.
  • Hassall KA, 1982. The Chemistry of Pesticides: their Metabolism, Mode of Action and Uses in Crop Protection. London, UK: Macmillan Press Ltd.
  • Hassall KA, 1990. The Biochemistry and Uses of Pesticides. Basingstoke, UK: Macmillan Press.
  • Hawkesford MJ, 2000. Plant responses to sulphur deficiency and the genetic manipulation of sulphate transporters to improve S-utilization efficiency. Journal of Experimental Botany 51, 1318.
  • Hazeu W, Batenburg-Van der Vegte WH, Bos P, Van der Pas RK, Kuenen JG, 1988. The production and utilization of intermediary elemental sulfur during the oxidation of reduced sulfur compounds by Thiobacillus ferrooxidans. Archives of Microbiology 150, 5749.
  • Heale JB, 1988. Verticillium spp., the cause of vascular wilts in many species. Advances in Plant Pathology 6, 291312.
  • Heale JB, 2000. Diversification and speciation in Verticillium– an overview. In: TjamosE, RoweR, HealeJ, FravelD, eds. Advances in Verticillium Research and Disease Management. St Paul, MN: APS Press, 114.
  • Heath MC, 2000. Multigenic disease resistance and the basis of host genotype specificity. Physiological and Molecular Plant Pathology 57, 18990.
  • Hell R, 1997. Molecular physiology of plant sulfur metabolism. Planta 202, 13848.
  • Hewitt HG, Caseley LG, Copping BT, Grayson D, Tyson D, eds 1994. Comparing glasshouse to field transfer of pesticide performance II. British Crop Protection Conference Monograph 59. Farnham, Surrey, UK: BCPC.
  • Hislop EC, Clifford DR, 1975. Bio-assay of agricultural and horticultural fungicides. In: BoardR, LovelockD, eds. Some Methods for Microbiological Assay. London, UK: Academic Press, 16989.
  • Horsfall JG, 1956. Principles of Fungicidal Action. Waltham, Massachusetts: Chronica Botanica Company.
  • Ikawa M, Thomas TV, JrBuckley LJ, Uebel JJ, 1973. Sulfur and the toxicity of the red alga Ceramium rubrum to Bacillus subtilis. Journal of Phycology 9, 3024.
  • Isaac I, 1967. Speciation in Verticillium. Annual Review of Phytopathology 5, 20122.
  • Izac RR, Stierle DB, Sims JJ, 1982. Sulfur and N-methylformamide from the marine red alga Erythrophyllum delesserioides. Phytochemistry 21, 229.
  • Jolivet P, 1993. Elemental sulfur in agriculture. In: De KokL, StulenI, RennenbergH, BrunoldC, RauserW, eds. Sulfur Nutrition and Assimilation in Higher Plants. The Hague: SPB Academic Publishing, 193206.
  • Jolivet P, Bergeron E, Kien P, 1992. Oxidation of elemental sulfur and sulfite by wheat chloroplasts. Phyton 32, 5962.
  • Jones HP, 1934. Control of barley diseases. 1. Closed smut. Bulletin of the Ministry of Agriculture, Egypt, 119.
  • Joyard J, Fores E, Blée E, Douce R, 1988. Characterisation of elemental sulfur in isolated intact spinach chloroplasts. Plant Physiology 88, 9614.
  • Keen NT, Kennedy BW, 1974. Hydroxyphaseollin and related isoflavonoids in the hypersensitive resistance reaction of soybeans to Pseudomonas glycinea. Physiological Plant Pathology 4, 17385.
  • Koller W, Scheinpflug H, 1987. Fungal resistance to sterol biosynthesis inhibitors: a new challenge. Plant Disease 71, 106674.
  • Korolev N, Gindin G, 1999. Vegetative compatibility in the entomopathogen Verticillium lecanii. Mycological Research 103, 83340.
  • Kraus F, Schäfer W, Schmidt A, 1984. Formation of elemental sulfur by Chlorella fusca during growth on 1-cysteine ethylester. Plant Physiology 74, 17682.
  • Kuhn PJ, Hargreaves JA, 1987. Antifungal substances from herbaceous plants. In: PeggGF, AyresPG, eds. Fungal Infection of Plants. Cambridge, UK: Cambridge University Press, 193218.
  • Kylin H, Atuma S, Hovander L, Jensen S, 1994. Elemental sulphur (S8) in higher plants – biogenic or anthropogenic origin? Experientia 50, 805.
  • Lyon GD, Bayliss CE, 1975. The effect of rishitin on Erwinia carotovora var. atroseptica and other bacteria. Physiological Plant Pathology 6, 17786.
  • Mach E, 1879. Weinlaube Berlin 2, 113. (cited in Tweedy, 1981).
  • Madigan MT, Martinko JM, Parker J, 1997. Brock-Biology of Microorganisms. Upper Saddle River, NJ: Prentice Hall.
  • Mangini, 1871. Weinlaube Berlin 3, 18. (cited in Tweedy, 1981).
  • Markosyan ZK, 1970. Effect of pesticides on trees under hot-house conditions. Chemical Abstracts 73, Part 6, sec 2, no. 130138u, 297–8.
  • Marsh RW, 1929. Investigations on the fungicidal action of sulphur. III. Studies on the toxicity of sulphuretted hydrogen and on the interaction of sulphur with fungi. Journal of Horticultural Science 7, 23750.
  • Martin H, 1930. The hydrolysis of sulphur in relation to its fungicidal activity. Journal of Agricultural Science 20, 3244.
  • Martin H, Salmon ES, 1932. The fungicidal properties of certain spray-fluids, IX. The fungicidal properties of the products of hydrolysis of sulphur. Journal of Agricultural Science 22, 595616.
  • McCallan SEA, Wilcoxon F, 1931. The fungicidal action of sulphur. II. The production of hydrogen sulphide by sulphured leaves and spores and its toxicity to spores. Contributions from Boyce Thompson Institute 3, 1338.
  • McGrath MT, 1996. Increased resistance to triadimefon and to benomyl in Sphaerotheca fuliginea populations following fungicide usage over one season. Plant Disease 80, 6339.
  • McGrath SP, Johnston AE, 1986. Sulphur – crop nutrient and fungicide. Span 29, 579.
  • Mes JJ, Van Doorn AA, Wijbrandi J, Simons G, Cornelissen BJC, Haring MA, 2000. Expression of the Fusarium resistance gene I-2 colocalizes with the site of fungal containment. Plant Journal 23, 18393.
  • Miller LP, McCallan SEA, Weed RM, 1953. Quantitative studies on the role of hydrogen sulfide formation in the toxic action of sulfur to fungus spores. Contributions from Boyce Thompson Institute 17, 15171.
  • Morrissey JP, Osbourn AE, 1999. Fungal resistance to plant antibiotics as a mechanism of pathogenesis. Microbiology and Molecular Biology Reviews 63, 70824.
  • Newton AC, Caten CE, 1988. Auxotrophic mutants of Septoria nodorum isolated by direct screening and by selection for resistance to chlorate. Transactions of the British Mycological Society 90, 199207.
  • Orth AB, Gustafson GD, 1996. Molecular genetic methods for elucidation of fungicide mode of action. In: LyrH, RussellPE, SislerHD, eds. Modern Fungicides and Antifungal Compounds. Andover, UK: Intercept Ltd, 4352.
  • Owens RG, 1960. Effects of elemental sulfur, dithiocarbamates, and related fungicides on organic acid metabolism of fungus spores. Developments in Industrial Microbiology 1, 187205.
  • Papavinasasundaram KG, Kasbekar DP, 1993. Pisatin resistance in Dictyostelium discoideum and Neurospora crassa: comparison of mutant phenotypes. Journal of General Microbiology 139, 303541.
  • Pattaragulwanit K, Brune DC, Trüper HG, Dahl C, 1998. Molecular genetic evidence for extracytoplasmic localization of sulfur globules in Chromatium vinosum. Archives of Microbiology 169, 43444.
  • Paul X, Rossignol Y, 1982. Sulphur as a fungicide. Sulphur in Agriculture 6, 124.
  • Pegg GF, 1974. Verticillium diseases. Review of Plant Pathology 53, 15782.
  • Pezet R, Pont V, 1977. Elemental sulfur: accumulation in different species of fungi. Science 196, 4289.
  • Pierce NB, 1900. Peach leaf curl: its nature and treatment. US Department of Agriculture Division of Vegetable Physiology and Pathology Bulletin 20, 1194.
  • Pierce MI, Cover EC, Richardson PE, Scholes VE, Essenberg M, 1996. Adequacy of cellular phytoalexin concentrations in hypersensitively responding cotton leaves. Physiological and Molecular Plant Pathology 48, 30524.
  • Prange A, Arzberger I, Engemann C, Modrow H, Schumann O, Trüper HG, Steudel R, Dahl C, Hormes J, 1999. In situ analysis of sulfur in the sulfur globules of phototrophic sulfur bacteria by X-ray absorption near edge spectroscopy. Biochimica et Biophysica Acta 1428, 44654.
  • Reinartz M, Tschäpe J, Brüser T, Trüper HG, Dahl C, 1998. Sulfide oxidation in the phototrophic sulfur bacterium Chromatium vinosum. Archives of Microbiology 170, 5968.
  • Resende MLV, Flood J, Ramsden JD, Rowan MG, Beale MH, Cooper RM, 1996. Novel phytoalexins including elemental sulphur in the resistance of cocoa (Theobroma cacao L.) to Verticillium wilt (Verticillium dahliae Kleb.). Physiological and Molecular Plant Pathology 48, 34759.
  • Reuveni M, 2001. Improved control of powdery mildew (Sphaerotheca pannosa) of nectarines in Israel using strobilurin and polyoxin B fungicides; mixtures with sulfur; and early bloom applications. Crop Protection 20, 6638.
  • Riley NG, Zhao FJ, McGrath SP, 2000. Availability of different forms of sulphur fertilisers to wheat and oilseed rape. Plant and Soil 222, 13947.
  • Robertson J, 1824. On the mildew and some diseases incident to fruit trees. Transactions of the Horticultural Society of London 5, 175.
  • Robson G, 1999. Hyphal cell biology. In: OliverR, SchweizerM, eds. Molecular Fungal Biology. Cambridge, UK: Cambridge University Press, 16484.
  • Rossotti H, 1998. Diverse Atoms, Profiles of the Chemical Elements. Oxford, UK: Oxford University Press.
  • Russell AD, Hugo WB, Ayliffe GAJ, 1992. Disinfection, Preservation and Sterilization. London: Blackwell Scientific Publications.
  • Sbaghi M, Jeandet P, Bessis R, Leroux P, 1996. Degradation of stilbene-type phytoalexins in relation to the pathogenicity of Botrytis cinerea to grapevines. Plant Pathology 45, 13944.
  • Schaible L, Cannon OS, Waddoups V, 1951. Inheritance of resistance to Verticillium wilt in a tomato cross. Phytopathology 41, 98690.
  • Schmidt TM, Arieli B, Cohen Y, Padan E, Strohl WR, 1987. Sulfur metabolism in Beggiatoa alba. Journal of Bacteriology 169, 546672.
  • Schnug E, Haneklaus S, 1998. Diagnosis of sulfur nutrition. In: SchnugE, ed. Sulfur in Agroecosystems. Dordrecht: Kluwer Academic, 138.
  • Sharvelle EG, 1961. The Nature and Uses of Modern Fungicides. Minneapolis, MN, USA: Burgess.
  • Skipp RA, Bailey JA, 1976. The effect of phaseollin on the growth of Colletotrichum lindemuthianum in bioassays designed to measure fungitoxicity. Physiological Plant Pathology 9, 25363.
  • Smith DA, 1982. Toxicity of phytoalexins. In: BaileyJ, MansfieldJ, eds. Phytoalexins. Glasgow, UK: Blackie, 21852.
  • Smith FW, Ealing PM, Hawkesford MJ, Clarkson DT, 1995b. Plant members of a family of sulfate transporters reveal functional subtypes. Proceedings of the National Academy of Sciences, USA. 92, 93737.
  • Smith DN, King WJ, Topper CP, Boma F, Cooper JF, 1995a. Alternative techniques for the application of sulphur dust to cashew trees for the control of powdery mildew caused by the fungus Oidium anacardii in Tanzania. Crop Protection 14, 55560.
  • Steudel R, 1989. On the nature of the elemental sulfur produced by sulfur-oxidizing bacteria. In: SchlegelH, BowienB, eds. Biology of Autotrophic Bacteria. Madison, WI, USA: Science Technology Publications, 289303.
  • Steudel R, 1996. Mechanism for the formation of elemental sulfur from aqueous sulfide in chemical and microbiological desulfurization processes. Industrial and Engineering Chemistry Research 35, 141723.
  • Steudel R, Holdt G, Visscher PT, Van Gemerden H, 1990. Search for polythionates in cultures of Chromatium vinosum after sulfide incubation. Archives of Microbiology 153, 4327.
  • Suleman P, Tohamy AM, Saleh AA, Madkour MA, Straney DC, 1996. Variation in sensitivity to tomatine and rishitin among isolates of Fusarium oxysporum f. sp. lycopersici and strains not pathogenic on tomato. Physiological and Molecular Plant Pathology 48, 13144.
  • Takahashi H, Watanabe-Takahashi A, Smith FW, Blake-Kalff M, Hawkesford MJ, Saito K, 2000. The roles of three functional sulphate transporters involved in uptake and translocation of sulphate in Arabidopsis thaliana. Plant Journal 23, 17182.
  • Takahashi H, Yamazaki M, Sasakura N, Watanabe A, Leustek T, De Almeida Engler J, Engler G, Van Montagu M, Saito K, 1997. Regulation of sulfur assimilation in higher plants: a sulfate transporter induced in sulfate-starved roots plays a central role in Arabidopsis thaliana. Proceedings of the National Academy of Sciences, USA. 94, 111027.
  • Thatcher RW, Streeter LR, 1925. The adherence to foliage of sulfur in fungicidal dusts and sprays. New York State Agricultural Experiment Station, Geneva, New York, USA. Technical Bulletin, 116, 318.
  • Thoquet P, Olivier J, Sperisen C, Rogowsky P, Prior P, Anaïs G, Mangin B, Bazin B, Nazer R, Grimsley N, 1996. Polygenic resistance of tomato plants to bacterial wilt in the French West Indies. Molecular Plant–Microbe Interactions 9, 83742.
  • Tu JC, 1985. An improved Mathur's medium for growth, sporulation and germination of spores of Colletotrichum lindemuthianum. Microbios 44, 8793.
  • Turner P, Barber C, Daniels M, 1984. Behaviour of the transposons Tn5 and Tn7 in Xanthomonas campestris pv. campestris. Molecular and General Genetics 195, 1017.
  • Tweedy BG, 1969. Elemental sulfur. In: TorgesonDC, ed. Fungicides. An Advanced Treatise, Vol. II. Chemistry and Physiology. London, UK: Academic Press, 11945.
  • Tweedy BG, 1981. Inorganic sulfur as a fungicide. Residue Reviews 78, 4368.
  • Tweedy BG, Turner N, 1966. The mechanism of sulfur reduction by conidia of Monilinia fructicola. Contributions from Boyce Thompson Institute 23, 25565.
  • Uppal BN, Malelu JS, 1928. A preliminary report on experiments in the control of grain smut of jowar (Andropogon sorghum). Agricultural Journal of India 23, 4712.
  • VanEtten H, Temporini E, Wasmann C, 2001. Phytoalexin (and phytoanticipin) tolerance as a virulence trait: why is it not required by all pathogens? Physiological and Molecular Plant Pathology 59, 8393.
  • Visser JM, Robertson LA, Van Verseveld HW, Gijs Kuenen J, 1997. Sulfur production by obligately chemolithoautotrophic Thiobacillus species. Applied and Environmental Microbiology 63, 23005.
  • Waldi D, 1965. Spray reagents for thin-layer chromatography. In: StahlE, ed. Thin Layer Chromatography, a Laboratory Handbook. London: Springer-Verlag, 493.
  • Warkentin TD, Rashid KY, Xue AG, 1996. Fungicidal control of powdery mildew in field pea. Canadian Journal of Plant Science 76, 9335.
  • Weltring KM, Loser K, Weimer J, 1998. Genetic instability of rishitin metabolism and tolerance and virulence on potato tubers of a strain of Gibberella pulicaris. Journal of Phytopathology 146, 3938.
  • Wilcoxon F, McCallan SEA, 1930. The fungicidal action of sulfur. I. The alleged role of pentathionic acid. Phytopathology 20, 391417.
  • Wilcoxon F, McCallan SEA, 1931. The fungicidal action of sulphur. III. Physical factors affecting the efficiency of dusts. Contributions from Boyce Thompson Institute 3, 50928.
  • Williams JS, Cooper RM, 2003. Elemental sulphur is produced by diverse plant families as a component of defence against fungal and bacterial pathogens. Physiological and Molecular Plant Pathology 63, 316.
  • Williams JS, Hall SA, Hawkesford MJ, Beale MH, Cooper RM, 2002. Elemental sulfur and thiol accumulation in tomato and defense against a fungal vascular pathogen. Plant Physiology 128, 1509.
  • Yoshikawa M, Yamauchi K, Masago H, 1978. Glyceollin: its role in restricting fungal growth in resistant soybean hypocotyls infected with Phytophthora megasperma var. sojae. Physiological Plant Pathology 12, 7382.
  • Young HC, 1922. The toxic property of sulphur. Annals of the Missouri Botanical Garden 9, 40335.
  • Ypema HL, Ypema M, Gubler WD, 1997. Sensitivity of Uncinula necator to benomyl, triadimefon, myclobutanil, and fenarimol in California. Plant Disease 81, 2937.