|
Udvikling af et biologisk bejdsemiddel til frø
Litteraturliste
12 Litteraturliste
Ahmad, J.S. & Baker, R. (1987). Rhizosphere competence of
Trichoderma harzianum. Phytopathology 77, 182-189.
Baker, R.(1991). Induction of rhizosphere competence in the biocontrol
fungus Trichoderma. In: The Rhizosphere and Plant Growth. Eds.
D.L. Keister & P.B. Cregan. Kluwer Academic Publishers, Dordrecht, pp.
212-221.
Barnett, H.L. & Lilly, V.G.(1962). A destructive mycoparasite, Gliocladium
roseum. Mycologia 54, 72-77.
Boyette, C.D., Quimby, Jr., P.C., Connick, Jr., W.J., Daigle, D.J. &
Fulgham, F.E. (1991). Progress in the production, formulation, and application
of mycoherbicides. In: Microbial Control of Weeds. Ed. D.O. TeBrest.
Chapman and Hall, New York. Side 209-222.
Burgess, D.R. & Hepworth, G. (1996). Biocontrol of sclerotinia stem rot
(Sclerotinia minor) in sunflower by seed treatment with Gliocladium
virens. Plant Pathology 45, 583-592.
Burgess, D.R., Bretag, T. & Keane, P.J. (1997). Biocontrol of seedborne
Botrytis cinerea in chickpea with Gliocladium roseum. Plant
Pathology 46, 298-305.
Burgess, D.R. & Keane, P.J. (1997). Biological control of Botrytis
cinerea on chickpea seed with Trichoderma spp. and Gliocladium
roseum: indigenous versus non-indigenous isolates. Plant Pathology
46, 910-918.
Buxton, E.W.(1957). Differential rhizosphere effects of three pea cultivars
on physiological races of Fusarium oxysporum f. pisi. Trans.
Br. mycol. Soc., 40, 305-317.
Castejón-Muñoz & Oyazun, P.J. (1995). Soil receptivity to
Fusarium solani f.sp. pisi and biological control of root rot
of pea. European Journal of Plant Pathology, 101, 35-49.
Cliquet, S. & Scheffer, R.J. (1996). Biological control of damping-off
caused by Pythium ultimum and Rhizoctonia solani using Trichoderma
spp. applied as industrial film coatings on seeds. European Journal of Plant
Pathology 102, 247-255.
Cliquet, S. & Scheffer, R.J. (1997). Influence of culture conditions on
growth and survival of conidia of Trichoderma spp. coated on seeds.Biological
Science and Technology 7, 171-181.
Connick,W.J.,Jr, Daigle, D.J., Boyette, C.D., Williams, K.S., Vinyard, B.T.,
Quimby, P.C., Jr. (1996). Water activity and other factors that affect viability
of Colletotrichum truncatum conidia in wheat flour-kaolin granules (´Pesta´).
Biocontrol Science and Technology 6, 277-284.
Dandurand, L.M. & Knudsen, G.R. (1993). Influence of Pseudomonas
fluorescens on hyphal growth and biocontrol activity of Trichoderma
harzianum in the spermosphere and rhizosphere of pea. Phytopathology, 83,
265-270.
Dix, N.J. (1964). Colonization and decay of bean roots. Trans. Br.
mycol. Soc. 47, 285-292.
Domsch, K.H., Gams, W. & Anderson, T.H. (1980). Compendium of soil
fungi. Vol 1-2. Academic Press, London.
Duczek, L.J. (1994). Relationship between a greenhouse and field assay for
control of common root of spring wheat and barley. Canadian Plant Disease
survey 74, 135-140.
Elad, Y., Chet, I & Henis, Y. (1981). A selective medium for improving
quantitative isolation of Trichoderma spp. from soil. Phytoparasitica
9, 59-67.
Fravel, D.R., Marois, J.J., Lumsden, R.D. & Connick, Jr. W.J. (1985).
Encapsulation of potential biocontrol agents in an alginate-clay matrix.
Phytopathology, 75, 774-777.
Green, H. (1996). Ecology of Trichoderma spp. in relation to
biocontrol of plant diseases caused by Pythium ultimum. Ph.D. thesis.
Den Kgl. Veterinær- og Landbohøjskole.
Hansen, V.Æ. (1997). Biologisk frøbejdsning med Gliocladium
roseum. Institut for Plantebiologi, Den Kgl. Veterinær- og Landbohøjskole.
Bacheloropgave i plantepatolgi 55 sider.
Harman, G.E. (1991). Seed treatments for biological control of plant
disease. Crop protection, 10, 166-171.
Harman, G.E. (1992). Development and benefits of rhizosphere competent fungi
for biological control of plant pathogens. Journal of Plant Nutrition
15, 835-843.
Harman, G.E., Chet, I. & Baker, R. (1981). Factors affecting Trichoderma
hamatum applied to seeds as a biocontrol agent. Phytopathology 71,
569-572.
Harman, G.E. & Nelson, E.B. (1994). Mechanisms of protection of seeds
and seedlings by biological seed treatments: implications for practical disease
control. In: Seed Treatment, Progress and Prospects. Ed. R. Maude. British
Crop Protection Council. p.383-392.
Harman, G.E. & Taylor, A.G. (1988). Improved seedling performance by
integration of biological control agents at favorable pH levels with solid
matrix priming. Phytopathology 78, 520-525.
Harman, G.E., Taylor, A.G. & Stasz, T.E. (1989). Combining effective
strains of Trichoderma harzianum and solid matrix priming to improve
biological seed treatments. Plant Disease 73, 631-637.
Harman, G.E., Jin, X., Stasz, T.E., Peruzzotti, G., Leopold, A.C. &
Taylor, A.G. (1991). Production of conidial biomass of Trichoderma harzianum
for biological control. Biological control, 1, 23-28.
James, T.D.W & Sutton, J.C. (1996). Biological control of botrytis leaf
blight of onion by Gliocladium roseum applied as sprays and with fabric
applicators. European Journal of Plant Pathology 102, 265-275.
Jensen, B (1998). Mikrobiologiske bekæmpelsesmidler og toksiske
metabolitter. Miljø- og Energiministeriet Miljøstyrelsen. Miljøprojekt
nr. 436. (In Press)
Jin, X., Harman, G.E. & Taylor, A.G. (1991). Conidial biomass and
disiccation tolerance of Trichoderma harzianum produced at different
medium water potentials. Biological control 1, 237-243.
Jin, X., Taylor, A.G. & Harman, G.E. (1996). Development of media and
automated liquid fermentation methods to produce desiccation-tolerant propagules
of Trichoderma harzianum. Biological Control 7, 267-274.
Keinath, A.P., Fravel, D.R. & Papavizas, G.C. (1991). Potential of Glio-
cladium roseum for biocontrol of Verticillium dahliae. Phytopathology
81, 644-648.
Knudsen, I.M.B. (1994). Biological control of seedborne diseases in cereals.
Den Kgl. & Veterinær- og Landbohøjskole. Ph.D. Thesis, 131
sider.
Knudsen, I.M.B., Hockenhull, J. & Jensen, D.F. (1995). Biocontrol of
seedling diseases of barley and wheat caused by Fusarium culmorum and
Bipolaris sorokiniana: effects of selected fungal antagonists on growth
and yield components. Plant Pathology 44, 467-477.
Knudsen, I.M.B., Hockenhull, J., Jensen D.F., Gerhardson, B., Hökeberg,
M., Tahvonen, R., Teperi, E., Sundheim, L. & Henriksen, B. (1997). Selection
of biological control agents for controlling soil and seed-borne diseases in the
field. European Journal of Plant Pathology 103, 775-784.
Kortemaa, H., Rita, H., Haahtela, K. & Smolander, A. (1994).
Root-colonization ability of antagonistic Streptomyces griseoviridis.
Plant and Soil 163, 77-83.
Larsen, K.M. (1996). Screening af markjorder for hæmning af Pythium-rodbrand.
Institut for Plantebiologi, Sektion for Plantepatolgi, KVL, DK. M.Sc. opgave, 78
sider
Lewis, J.A. (1991). Formulation and delivery systems of biocontrol agents
with emphasis on fungi. In The rhizosphere and plant growth. Eds. D.L.
Keister & P.B. Cregan. pp 297-287. Kluwer Academic Publishers, Netherlands.
Lifshitz, R., Windham, M.T. & Baker, R., 1986. Mechanism of biological
control of preemergence damping-off of pea by seed treatment with Trichoderma
spp. Phytopathology 76, 720-725.
Lumsden, R.D. & Locke, J.C., 1989. Biological control of damping-off
caused by Pythium ultimum and Rhizoctonia solani with Gliocladium
virens in soilless mix. Phytopathology 79, 361-366.
Lübeck, M. (1994). Toksiske metabolitter fra udvalgte mikroorganismer.
Miljøministeriet, Miljøstyrelsen. Arbejdsrapport fra Miljøstyrelsen.
Nr. 18, 108 sider.
Lynch, J.M. & Ebben, M.H. (1986) The use of microorganisms to control
plant disease, Journal of applied Bacteriology Symposium Supplement 1986,
115S-126S.
Lynch, J.M. & Pryn, S.J. (1987). Interaction between a soil fungus and
barley seed. Journal of general Microbiology, 103, 193-196.
Malalasekera, R.A.P., Sanderson, F.R. & Colhoun, (1973). Fusarium
diseases of cereals. IX. Penetration and invasion of wheat seedlings by Fusarium
culmorum and F. nivale. Trans. Br. Myco,. Soc. 60,
453-462.
Mathre, D.E. (1982). Compendium of Barley Diseases. The American
Phytopathological Society, Montana US.
McIntyre, J.L. & Press, L.S. (1991). Formulation, delivery systems and
marketing of biocontrol agents and plant growth promoting rhizobacteria. In:The
rhizosphere and plant growth. Eds. Keister, D.L. & P.B. Cregan,
Klüwer Academic Publishers, Netherlands. 289-295.
McQuilken, M.P., Whipps, J.M. & Cooke, R.C. (1990). Control of
damping-off in cress and sugar-beet by commercial seed-coating with Pythium
oligandrum. Plant Pathology 39, 452-462.
Merriman, P. & Russell, K. (1990). Screening strategies for biological
control. In: Biological Control of Soilborne Plant Pathogens (D. Hornby,
ed). CAB International, Wallingford. 171-190.
Miljøstyrelsen (1993). Mikrobiologiske plantebeskyttelsesmidler. Miljøministeriet
Miljøstyrelsen. Vejledning fra Miljøstyrelsen Nr. 8 1993. 50
sider.
Moore, D., Bateman, R.P., Carey, M. & Prior, C. (1995). Long-term
storage of Metathizium flavoviride conidia in oil formulations for
control of locusts and grashoppers. Biocontrol Science and Technology
5, 193-199.
Moore, D., Douro-Kpindou, O.K., Jenkins, N.E. & Lomer, C.J. (1996).
Effects of moisture and temperature on storage of Metathizium flavoviride
conidia. Biocontrol Science and Technology 5, 193-199.
Mueller, J.D. & Sinclair, J.B. (1986). Occurrence and role of Gliocladium
roseum in field-grown soybeans in Illinois. Trans. Br. mycol. Soc., 86,
677-680.
Muñoz, G.A., Cotoras, M., San Martin, R. & Volpe, M.D. (1995).
Comparison of aerial and submerged spore properties for Trichoderma
harzianum. FEMS Microbiology Letters 125, 63-70.
Neergaard, P. (1977). Response of pathogen to test conditions. In:
Seed Pathology Volume I. The MacMillan Press Ltd., p. 759-763.
Nelson, E.B., Harman, G.E. & Nash, G.T. (1988). Enhancement of Trichoderma-induced
biological control of Pythium seed rot and pre-emergence damping-off of peas.
Soil Biology and Biochemistry 20, 145-150.
Nigam, P. & Singh, D. (1994). Solid-state (substrate) fermentation
systems and their application in biotechnology. J. Basic Microbiol. 34,
405-423.
Peng, G., & Sutton, J.C. (1991). Evaluation of microorganisms for
biocontrol of Botrytis cinerea in strawberry. Can. J. Plant Pathol.,
13, 247-257.
Peng, G., Sutton, J.C. & Kevan, P.G. (1992). Effectiveness of honey bees
for applying the biocontrol agent Gliocladium roseum to strawberry
flowers to suppress Botrytis cinerea. Can. J. Plant Pathol., 14,
117-129.
Powell, K.A. (1993). The commercial exploitation of microorganisms in
agriculture. In: "Exploitation of Microorganisms". ( D.G.
Jones ed.). Chapman & Hall, London. 441-459.
Powell, K.A. & Jutsum, A.R. (1993). Technical and commercial aspects of
biocontrol products. Pestic. Sci. 37, 315-321.
Pugh, G.J.F. & Dickinson, C.H. (1965). Studies on fungi in coastal
soils. VI. Gliocladium roseum Bainer. Trans. Br. mycol. Soc., 48,
279-285.
Renwick, A, Campbell, R. & Coe, S. (1991). Assesment of in vivo
screening systems for potential biocontrol agents of Gaeumannomyces graminis.
Plant Pathology 40, 524-532.
Rhodes, D.J. & Powell, K.A. (1994). Biological seed treatment - The
development proces. In: Seed Treatment: Progress and Prospects. BCPC
Monograph No 57. Ed. T. Martin. Side 303-310.
Shah-Smith, D.A. & Burns, R.G. (1996). Biological control of damping-off
of sugar beet by Pseudomonas putida applied to seed pellets. Plant
Pathology 45, 572-582.
Sivan, A. & Harman, G.E. (1991). Improved rhizosphere competence in a
protoplast fusion progeny of Trichoderma harzianum. J. Gen.
Microbiol. 137, 23-29.
Stanbury, P.F., Whitaker, A. & Hall, S.J. (1995). The isolation,
preservation and improvement of industrially important micro-organisms. In:
Principles of fermentation technology. Pergamon. 35-49.
Stenton, H. (1958). Colonization of roots of Pisum sativum L. by fungi. Trans.
Br. mycol. Soc., 41, 74-80.
Stowell, L.J. (1991). Submerged fermentation of biological herbicides. In:
Microbial Control of Weeds. Ed. D.O. TeBrest. Chapman and Hall, New York.
Side 225-261.
Sutton, J.C. & Peng, D.L. (1993). Biocontrol of Botrytis cinerea
in strawberry leaves. Phytopathology 83, 615-621.
Sutton, J.C., Peng, D.L., Yu, H., Zhang, P & Valdebenito-Sanhueza.
(1997). Gliocladium roseum a versatile adversary of Botrytis cinerea
in crops. Plant Disease 81, 316-328.
Taylor, A.G. & Harman, G.E. (1990). Concepts and technology of selected
seed treatments. Annu. Rev. Phytopathol. 28, 321-339.
Taylor, A.G., Min, T.-G., Harman, G.E. & Jin, X. (1991). Liquid coating
formulation for the application of biological seed treatment of Trichoderma
harzianum. Biological control, 1, 16-22.
Thirup, C. (1996). Et biologisk bejdsemiddel til vårbyg baseret på
Gliocladium roseum. Institut for Plantebiologi, Den Kgl Veternær-
og Landbohøjskole. Bachelorprojekt, 53 sider.
Tyner, L.E. & McKinnon, B.A. (1964). Fungi of barley seeds and their
associative effects. Phytopathology 54, 506-508.
Vakiili, N.G. (1992) Biological seed treatment of corn with mycopathogenic
fungi. J. Phytopathology, 134, 313-323.
Walter, J.F. & Lumsden, R.D. (1997). Gliocladium and biological
control of damping-off complex. In: Ecology Interactions and Biological
Control. Eds. D.A. Andow, D.W. Ragsdale & F. Nyvall. WestviewPress 1997.
side 254-267.
Wu, W. (1982). Seed treatment by applying Trichoderma spp. to
increase the emergence of soybeans.Seed Sci. & Technology 10,
557-563.
|