Auld BA (1993a). Mass production of fungi for biopesticides. Plant Prot Q 8:7-19.

Auld BA (1993b). Vegetable oil suspension emulsions reduce dew dependence of a mycoherbicide. Crop Prot 12:477-479.

Auld BA and Morin L (1995). Constraints in the development of bioherbicides. Weed Technol 9:638-652.

Avis TJ, Hamelin RC, and Belanger RR (2001). Approaches to molecular characterization of fungal biocontrol agents: some case studies. Can J Plant Pathol 23:8-12.

Bailey KL, Boyetchko SM, Derby J, Hall W, Sawchyn K, Nelson T, and Johnson DR (2000). Evaluation of fungal and bacterial agents for biological control of Canada thistle. In: Spencer NR ed. Proceeding of the X International Symposium on Biological Control of Weeds, July 4-14, 1999. Bozeman, MT: Montana State University. pp 203-208.

Bateman R (1999). Delivery systems and protocols for biopesticides. In: Hall R, Menn JJ eds. Methods in Biotechnology, Vol. 5: Biopesticides: Use and Delivery. Totowa, NJ: Humana Press. pp 509-528.

Bateman PR and Alves RT (2000). Delivery systems for mycoinsecticides using oil-based formulations. Asp Appl Biol (Pestic Appl) 57:163-170.

Bothast RJ, Schisler DA, Jackson MA, VanCauwenberge JE, and Slininger PJ (1993). Use of pregelatinized starch and other polysaccharides for improved storage and efficacy of biocontrol agents. In: Berger PD, Devisetty BN, Hall FR eds. Pesticides Formulation and Application Systems. Vol. 12. Philadelphia: ASTM. pp 45-56.

Boyetchko SM (1999). Innovative applications of microbial agents for biological weed control. In: Mukerji KG, Chamola BP, Upadhyay K eds. Biotechnological Approaches in Biocontrol of Plant Pathogens. London: Kluwer Academic/Plenum Publishers. pp 73 -97.

Boyetchko S, Pedersen E, Punja Z, and Reddy M (1999). Formulations of biopesticides. In: Hall FR, Menn JJ eds. Methods in Biotechnology, Vol. 5: Biopesticides: Use and Delivery. Totowa, NJ: Humana Press. pp 487-508.

Boyetchko SM, Rosskopf EN, Caesar AJ, and Charudattan R (2002). Biological weed control with pathogens: search for candidates to applications. In: Khachatourians GG, Arora DK eds. Applied Mycology and Biotechnology, Vol. 2. Agriculture and Food Production. The Netherlands: Elsevier Science B.V. pp 239-274.

Boyette DC (1994). Unrefined corn oil improved the mycoherbi-cidal activity of Collectotrichum truncatum for hemp sesbania (Sesbania exaltata) control. Weed Technol 8:526-529.

Boyette CD and Walker HL (1986). Evaluation of Fusarium lateritium as a biological herbicide for controlling velvetleaf (Abutilon theophrasti), and prickly sida (Sida spinosa). Weed Sci 34:106-109.

Boyette DC, Quimby PC, Jr, Connick WJ, Jr, Daigle DJ, and Fulgham FE (1991). Progress in the production, formulation and application of mycoherbicides. In: TeBeest DO ed. Microbial Control of Weeds. New York: Chapman & Hall, Inc. pp 209 -222.

Boyette DC, Quimby PC, Jr, Bryson CT, Egley GH, and Fulgham FE (1993). Biological control of hemp sesbania (Sesbania exaltata) under field conditions with Colletotrichum truncatum formulated in an invert emulsion. Weed Sci 41:497-500.

Charudattan R (1991). The mycoherbicide approach with plant pathogens. In: TeBeest DO ed. Microbial Control of Weeds. New York: Chapman & Hall, Inc. pp 24-57.

Charudattan R (2001). Biological control of weeds by means of plant pathogens: significance for integrated weed management in modern agro-ecology. BioControl 46:229 -260.

Churchill BW (1982). Mass production of microorganisms for biological control. In: Charudattan R, Walker HL eds. Biological Control of Weeds with Plant Pathogens. New York: Wiley. pp 209-222.

Connick WJ, Jr, Lewis JA, and Quimby PC, Jr (1990). Formulation of biocontrol agents for use in plant pathology. In: Baker RR, Dunn PE eds. New Directions in Biological Control: Alternatives for Suppressing Agricultural Pests and Diseases. New York: Alan R. Liss Inc. pp 345-372.

Connick WJ, Jr, Boyette CD, and McAlpine JR (1991a). Formulation of mycoherbicides using a pasta-like process. Biol Control 1(1991):281 -287.

Connick WJ, Jr, Daigle DJ, and Quimby PC, Jr (1991b). An improved invert emulsion with high water retention for mycoherbicide delivery. Weed Technol 5:442-444.

Connick WJ, Jr, Daigle DJ, Pepperman AB, Hebbar KP, Lumsden RD, Anderson TW, and Sands DC (1998). Preparation of stable, granular formulations containing Fusarium oxysporum pathogenic to narcotic plants. Biol Control 13:79-84.

Daigle DJ and Cotty PJ (1992). Production of conidia of Altemaria cassiae with alginate pellets. Biol Control 2:278-281.

Daigle DJ, Connick WJ Jr, Quimby PC Jr, Evans J, Trask-Morrell B, and Fulgham FE (1990). Invert emulsions: Carrier water source for the mycoherbicide, Alternaria cassiae. Weed Technol 4:327-331.

De Jong MD, Aylor DE, and Bourdot GW (1999). A methodology for risk analysis of plurivorous fungi in biological weed control: Sclerotinia sclerotiorum as a model. BioControl 43:397-419.

Egley GH and Boyette CD (1995). Water-corn oil emulsion enhances conidia germination and mycoherbicidal activity of Colletotrichum truncatum. Weed Sci 43:312-317.

Frantzen J, Paul ND, and Müller-Scharer H (2001). The system management approach of biological weed control: some theoretical considerations and aspects of application. BioControl 46:139-155.

Graeme-Cook KA and Faull JL (1991). Effect of ultraviolet-induced mutants of Trichoderma harzianum with altered antibiotic production on selected pathogens in vitro. Can J Microbiol 37:664-759.

Greaves MP and MacQueen MD (1992). Bioherbicides: their role in tomorrow's agriculture. In: Resistance: Achievements and Developments in Combating Pesticide Resistance. Science Symposium, Harpenden, England.

Greaves MP, Holloway PJ, and Auld BA (1998). Formulation of microbial herbicides. In: Burges HD ed. Formulation of Microbial Biopesticides: Beneficial Microorganisms, Nematodes, and Seed Treatments. Dordrecht: Kluwer Academic Publishers. pp 203-233.

Greaves MP, Dutton L, and Lawrie J (2000). Formulation of microbial herbicides. Asp Appl Biol 57:171-178.

Green S and Bailey KL (2000a). Effects of leaf maturity, infection site, and application rate of Alternaria cirsinoxia conidia on infection of Canada thistle (Cirsium arvense). Biol Control 19:167-174.

Green S and Bailey KL (2000b). Influence of moisture and temperature on infection of Canada thistle by Alternaria cirsinoxia. Plant Dis 84:1126-1132.

Green S, Stewart-Wade SM, Boland GJ, Teshler MP, and Liu SH (1998). Formulating microorganisms for biological control of weeds. In: Boland GJ, Kuykendall LD eds. Plant-Microbe Interactions and Biological Control. New York: Marcel Dekker, Inc. pp 249 -281.

Hasan S and Wapshere AJ (1973). The biology of Puccinia chondrillina a potential biological control agent of skeletonweed. Ann Appl Biol 74:325-332.

Hoagland RE (1996). Chemical interactions with bioherbicides to improve efficacy. Weed Technol 10:651-674.

Horak MJ, Holt JS, and Ellstand NC (1987). Genetic variation in yellow nutsedge (Cyperus esculentus). Weed Sci 35:506-512.

Jackson MA and Bothast RJ (1990). Carbon concentration and carbon to nitrogen ratio influence submerged-culture conidiation by the potential bioherbicide Collectotrichum truncatum. Appl Environ Microbiol 56:3435-3438.

Jackson MA, Schisler DA, Slininger PJ, Boyette CD, Silman RW, and Bothast RJ (1996). Fermentation strategies for improving the fitness of a bioherbicide. Weed Technol 10:645-650.

Jones KA (1998). Spray application criteria. In: Burges HD ed. Formulation of Microbial Biopesticides. London: Academic Press. pp 367-375.

Jones KA and Burges HD (1998). Technology of formulation and application. In: Burges HD ed. Formulation of Microbial Biopesticides. London: Academic Press. pp 7-30.

Klein TA, Auld BA, and Fang W (1995). Evaluation of oil suspension emulsions of Colletotrichum orbiculare as a mycoherbicide in field trials. Crop Prot 14:193-196.

Knoche M (1994). Effect of droplet size and carrier volume on performance of foliage-applied herbicides. Crop Prot 13:163-178.

Kwanmin JJ (1989). Scale-down techniques for fermentation. Biopharm 2:30-39.

Lawrie J, Greaves MP, Western NM, and Down V (1999). Application and formulation: forgotten factors in the development of microbial herbicides. In: Proceedings of the 1999 Brighton Conference—Weeds, Brighton, UK, pp 289-296.

Lawrie J, Sown VM, and Greaves MP (2000). Factors influencing the efficacy of the potential microbial herbicide Alternaria alternata (Fr.) Kerssler on Amaranthus retroflexus (L.). Biocontrol Sci Technol 10:81-87.

Makowski RMD (1997). Foliar pathogens in weed biocontrol: ecological and regulatory constraints. In: Andow DA, Ragsdale DW, Nyvall RF eds. Ecological Interactions and Biological Control. Boulder, CO: Westview Press. pp 87-103.

Matthews GA (1992). Pesticide Application Methods, 2nd ed. Harlow, UK: Longman Scientific and Technical.

McRae CF and Auld BA (1988). The influence of environmental factors on anthracnose of Xanthium spinosum. Phytopathology 78:1182-1186.

Miller RV, Ford EJ, and Sands DC (1989). A nonsclerotial pathogenic mutant of Sclerotinia sclerotiorum. Can J Microbiol 35:517-520.

Morin L, Watson AK, and Reeleder RD (1990a). Effect of dew, inoculum density, and spray additives on infection of field bindweed by Phomopsis convolvulus. Can J Plant Pathol 12:48-56.

Morin L, Watson AK, and Reeleder RD (1990b). Production of conidia by Phomopsis convolvulus. Can J Microbiol 36:86-91.

Mortensen K (1998). Biological control of weeds using microorganisms. In: Boland GJ, Kuykendall LD eds. Plant-Microbe Interactions and Biological Control. New York: Marcel Dekker Inc. pp 223-248.

Nordbo E, Kristensen K, and Kirknel E (1993). Effects of wind direction, wind speed and travel speed on spray deposition. Pestic Sci 38:33-41.

Okoli CAN, Shilling DG, Smith RL, and Bewick TA (1997). Genetic diversity in purple nutsedge (Cyperus rotundus L.)

and yellow nutsedge (C. esculentus L.). Biol Control 8:111-118.

Palani PV and Lalithakumari D (1999). Antagonism of Trichoderma longibrachiatum strains to fungicide-sensitive and resistant strains of Venturia inaequalis. Z Pflanzenkr Pflanzenschutz 106:581-589.

Peng G, Bailey KL, and Byer KN (2000). Potential for control of Matricaria perforata with fungal pathogens plus registered herbicides. Proc. 5th International Bioherbicide Workshop (abstr.), Iguassu Falls, Brazil, p 12.

Peng G, Wolf TM, Byer KN, and Caldwell B (2001). Spray retention on green foxtail (Setaria viridis) using airbrush and broadcast sprayers and its impact on the efficacy of a mycoherbicide agent. In: Ni HW and You ZG, eds. Proceedings of 18th Asian-Pacific Weed Science Conference, May 28-June 2, 2001, Beijing, China, pp 699-706.

Pfirter HA, Guntli D, Ruess M, and Defago G (1999). Preservation, mass production and storage of Stagonospora convolvuli, a bioherbicide candidate for field bindweed (Convolvulus arvensis). BioControl 44:437-447.

Reichard DL (1988). Drop formation and impaction of the plant. Weed Technol 2:82-87.

Rhodes DJ (1993). Formulation of biological control agents. In: Jones DG ed. Exploitation of Microorganisms. London: Chapman & Hall. pp 411-439.

Richardson RG (1987). Effect of drop trajectory on spray deposits on crop and weeds. Plant Prot Q 2:108-111.

Rosskopf EN, Charudattan R, and Kadir JB (1999). Use of plant pathogens in weed control. In: Bellows TS, Fisher TW eds. Handbook of Biological Control. New York: Academic Press. pp 891-918.

Sands DC, Ford EJ, Miller RV, Sally BK, McCarthy MK, Anderson TW, Weaver MB, Morgan CT, and Pilgeram AL (1997). Characterization of a vascular wilt of Erythroxylum coca caused by Fusarium oxysporum f. sp. erythroxyli forma specialis nova. Plant Dis 81:501-504.

Schisler DA, Jackson MA, McGuire MR, and Bothast RJ (1995). Use of pregelatinized starch and casamino acids to improve the efficacy of Colletotrichum truncatum conidia produced in differing nutritional environments. In: Delfosse ES, Scott RR eds. Proceedings of the VIII International Symposium on Biological Control of Weeds, Lincoln University, Canterbury, New Zealand. Melbourne: DSIR/CSIRO. pp 659-664.

Shabana YM (1997). Vegetable oil suspension emulsions for formulating the weed pathogens (Alternaria eichhorniae) to bypass dew. Z Pflanzenkr Pflanzenschutz 104:239-245.

Shabana YM, Charudattan R, DeValerio JT, and Elwakil MA (1997). An evaluation of hydrophilic polymers for formulating the bioherbicide agents Alternaria cassiae and A. eichhorniae. Weed Technol 11:212-220.

Sharon A, Amsellem Z, and Gressel J (1992). Glyphosate suppression of an elicited defense response. Plant Physiol 98:654-659.

Slininger PJ, Van Cauwenberge JE, Shee-Wilbur MA, and Bothast RJ (1998). Impact of liquid culture physiology, environment, and metabolites on biocontrol agent qualities. In: Boland GJ, Kuykenddl LD eds. Plant-Microbe Interactions and Biological Control. New York: Marcel Dekker Inc. pp 329-353.

Smith DB and Bouse LF (1981). Machinery and factors that affect the application of pathogens. In: Burges HD ed. Microbial

Control of Pest and Plant Diseases, 1970-1980. New York: Academic Press. pp 635-653.

Spillman JJ (1984). Spray impaction, retention and adhesion: an introduction to basic characteristics. Pestic Sci 15:97-106.

Stanbury PF, Whitaker A, and Hall SJ (1995). Principles of Fermentation Technology. Oxford, UK: Pergamon.

Stowell IJ (1991). Submerged fermentation of biological herbicides. In: TeBeest DO ed. Microbial Control of Weeds. New York: Chapman & Hall, Inc. pp 225-261.

Takano Y, Kubo Y, Kuroda I, and Furusawa I (1997). The temporal transcriptional pattern of three melanin biosysnthesis genes PKSI, SCDI and THRI in appressor-ium-differentiating and nondifferentiating conidia of Colletotrichum lagenarium. Appl Environ Microbiol 63: 351-354.

TeBeest DO (1991). Ecology and epidemiology of fungal plant pathogens studied as biological control agents of weeds. In: TeBeest DO ed. Microbial Control of Weeds. New York: Chapman & Hall, Inc. pp 97-114.

TeBeest DO, Yang XB, and Cisar CR (1992). The status of biological control of weeds with fungal pathogens. Annu Rev Phytopathol 30:637-657.

Templeton GE, TeBeest DO, and Smith RJ, Jr (1984). Biological weed control in rice with a strain of Colletotrichum gloeosporioides (Penz.) Sacc. used as a mycoherbicide. Crop Prot 3:409-422.

Tessmann DJ, Charudattan R, Kistler HC, and Rosskopf EN (2001). A molecular characterization of Cercospora species pathogenic to water hyacinth and emendation of C. piaropi. Mycologia 99:1108-1112.

Walker HL (1980). Alternaria macrospora as a Potential Biocontrol Agent for Spurred Anoda: Production of Spores for Field Studies. Adv. Agric. Technol. AA-S-12, New Orleans, LA: USDA-SEA-AR.

Walker HL and Connick WJ, Jr (1983). Sodium alginate for production and formulation of mycoherbicides. Weed Sci 31:333-338.

Walker HL and Riley JA (1982). Evaluation of Alternaria cassiae for the biocontrol of sicklepod (Cassia obtusifolia). Weed Sci 30:651-654.

Wapshere AJ (1990). Biological control of grass weeds in Australia: an appraisal. Plant Prot Q 5:62-75.

Weidemann GJ (1988). Effects of nutritional amendments on conidial production of Fusarium solani f. sp. cucurbitae on sodium alginate granules and on control of Texas gourd. Plant Dis 72:757-759.

Weidemann GJ and TeBeest DO (1990). Genetic variability of fungal pathogens and their weed hosts. In: Hoagland RE ed. Microbes and Microbial Products as Herbicides. Washington, DC: ACS Symp Ser—Am. Chem. Soc. pp 176-183.

Weidemann GJ and Templeton GE (1988). Control of Texas gourd, Cucurbita texana, with Fusarium solani f. sp. cucurbitae. Weed Technol 2:271-274.

Wibowo Y, Wibowo J, and Farley PC (1999). Isolation and characterization of auxotrophic mutants of Rhizopus oryzae. Cytobios 100:95-99.

Womack JG and Burge MN (1993). Mycoherbicide formulation and the potential for bracken control. Pestic Sci 37:337-341.

Womack JG, Eccleston GM, and Burge MN (1996). A vegetable oil-based invert emulsion for mycoherbicide delivery. Biol Control 6:23-28.

Wymore LA, Watson AK, and Gotlieb AR (1987). Interaction between Colletotrichum coccodes and thidiazuron for control of velve-leaf (Abutilon theophrasti). Weed Sci 35:377-383.

Yang SM and Jong SC (1995). Host range determination of Myrothecium verrucaria isolated from leafy spurge. Plant Dis 79:994-997.

Yang XB and TeBeest DO (1992). The stability of host-pathogen interactions of plant diseases in relation to biological weed control. Biol Control 2:266-271.

Yang XB and TeBeest DO (1993). Epidemiological mechanisms of mycoherbicide effectiveness. Phytopathology 83: 891 -893.

Yang XB and TeBeest DO (1995). Competitiveness of mutant and wild-type isolates of Colletotrichum gloeosporioides f. sp. aeschynomene on northern jointvetch. Phytopathology 85:705-710.

Zhang WM and Watson AW (1997). Effect of dew period and temperature on the ability of Exserohilum monceras to cause seedling mortality of Echinochloa species. Plant Dis 81:629-634.

Ziogas BN, Gomolis G, and Kalamarakis A (1995). Study of terbinafine action and the emergence of resistant strains in Nectria haematococca var. cucurbiae. Phytopathol Mediterr 34:157-166.

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