Advantages and limitations in bioherbicides use
Advantages and limitations in bioherbicides use - Zvonko ... - Izbis Advantages and limitations in bioherbicides use - Zvonko ... - Izbis
BAILEY, K.L., DERBY, J., FALK, S. (2003): Evaluation of Phoma macrostoma for control of broadleaf weeds in turgrass. VI international Bioherbicide Group Workshop, Canberra, Australia. BARTON, J. (2005): Bioherbicides: All in a day’s work ... for a superhero. Online. Pages 4-6 in: What’s New in Biological Control of Weeds? Manaaki Whenua, Landcare Res., New Zealand Ltd. BAYER, K.N., WOLF, T.M., CALDWELL, B.C., BAIELY, K.L. (1999): Assays for predicting mycoherbicide formulation compatibility. In: Spencer N., Noweierski R., eds. Abstracts of the 10th International Symposium on Biological Control of Weeds (Bozeman, MT, USA, 4–9 July 1999). Montana State University, Bozeman, MT, USA, 65. BOWERS, R.C. (1986): Commercialization of Collego® – an industrialist’ view. Weed Sci., 34: 24–25. BOYETCHKO, S.M. (1999): Innovative applications of microbial agents for biological weed control. Pages 73-97 in: Biotechnological Approaches in Biocontrol of Plant Pathogens. K. G. Mukerji, ed. Plenum Publishers, New York. BOYETCHKO, S.M.., ROSSKOPF, E.N., CAESAR, A.J., CHARUDATTAN, R. (2002): Biological weed control with pathogens: search for candidates to applications. In: Applied Mycology and Biotechnology, Vol. 2 (ed. by Khachatourians G.G. and Arora D.K.). Elsevier, Amsterdam, 239–274. BOYETCHKO, S.M. and PENG, G. (2004): Challenges and strategies for development of mycoherbicides. In: Fungal Biotechnology in Agricultural, Food, and Environmental Applications (ed. by Arora D.K.). Marcel Dekker, NewYork, 11–121. BOYETTE, C.D. and WALKER, H.L. (1985): Factors influencing biocontrol of velvetleaf (Abutilont heophrasti) and prickly sida (Sida spinosa) with Fusarium lateritium. Weed Sci., 33: 209-211. BOYETTE, C.D., QUIMBY, P.C. Jr., CONNICK, W.J. Jr., DAIGLE, D.J., FULGHAM, F.E. (1991): Progress in the production, formulation and application of mycoherbicides. p. 209-224 in D.O. TeBeest, ed. Microbial Control of Weeds. Chapman and Hall Inc., New York. BOYETTE, C.D. (1991): Host range and virulence of Colletotrichum truncatum, a potential mycoherbicide for hemp sesbania (Sesbania exaltata). Plant Dis., 75: 62–64. BOYETTE, C.D.., QUIMBY, P.C. Jr., BRYSON, C.T., EGLEY, G.H., FULGHAM, F.E. (1993): Biological control of hemp sesbania (Sesbania exaltata) under field conditions with Colletotrichum truncatum formulated in an invert emulsion.Weed Sci., 41: 497–500. BOYETTE, C.D. (1994): Unrefined corn oil improves the mycoherbicidal activity of Colletotrichum truncatum for hemp sesbania (Sesbania exaltata) control. Weed Technology, 8: 526-529. BOYETTE, C.D., JACKSON, M.A., QUIMBY, P.C. Jr., CONNICK, W.J. Jr., ZIDAK, N.K., ABBAS, H.K. (1999): Biological control of the weed hemp sesbania with Colletotrichum truncatum. In: Spencer N., Noweierski R., eds. Abstracts of the 10th International Symposium on Biological Control of Weeds (Bozeman, MT, USA, 4–9 July 1999). Montana State University, Bozeman, MT, USA, 64. BOYETTE, C.D. (2000): The bioherbicide approach: using phytopathogens to control weeds. In: Herbicides and their Mechanisms of Action (ed. by Cobb A.H. and Kirkwood R.C.). Sheffield Academic Press, Sheffield, UK, 134–152..
BOYETTE, C.D., REDDY, K.N., HOAGLAND, R.E. (2006): Glyphosate and bioherbicide interaction for controlling Kudzu (Pueraria lobata), Redvine (Brunnichia ovata), and Trumpetcreeper (Campsis radicans). Biocontrol Science and Technology, 6(10): 1067-1077. BOYETTE, C.D., HOAGLAND, R.E., ABBAS, H.K. (2007): Evaluation of the bioherbicide Myrothecium verrucaria for weed control in tomato (Lycopersicon esculentum). Biocotrol Science and Technology, 17(2): 171-178. BOYETTE, C.D., HOAGLAND, R.E., WEAVER, M.A. (2008): Interaction of a bioherbicide and glyphosate for controlling hemp sesbania in glyphosate-resistant soybean. Weed Biology and Management, 8: 18–24. BOYETTE, C.D., HOAGLAND, R.E., WEAVER, M.A., REDDY, K.N. (2008): Redvine (Brunnichia ovata) and trumpetcreeper (Campsis radicans) controlled under field conditions by a synergistic interaction of the bioherbicide, Myrothecium verrucaria, with glyphosate. Weed Biology and Management, 8: 39–45. BURDON, J. J. (1987): Diseases and Plant Population Biology. Cambridge University Press, Cambridge. 208 p. CAULDER, J.D. and STOWELL, L. (1988a): Synergistic herbicidal compositions comprising Colletotrichum truncatum and chemical herbicides. US patent 4,775,405. 6 Jan. 1987. CAULDER, J.D. and STOWELL, L. (1988b): Synergistic herbicidal compositions comprising Alternaria cassiae and chemical herbicides. US patent 4,776,873. 27 Jan. 1987. CHARUDATTAN, R., DEVALERIO, J.T., PRANGE, V.J. (1990): Special problems associated with aquatic weed control. p. 287- 303 in R. R. Baker and P. E. Dunn, eds. New Directions in Biological Control: Alternatives for Suppressing Agricultural Pests and Diseases. Alan R. Liss Inc., New York. 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. CHARUDATTAN, R., ELLIOT, M., DEVALERIO, J.T., HIEBERT, E., PETTERSEN, M.E. (2003): Tobacco mild green mosaic virus: a virus-based bioherbicide. VI international Bioherbicide Group Workshop, Canberra, Australia. CHARUDATTAN, R. (2005): Use of plant pathogens as bioherbicides to manage weeds in horticultural crops. Proc. fla. state hort. soc., 118: 208-214. CHARUDATTAN, R. (2005): Ecological, practical, and political inputs into selection of weed targets: what makes a good biological control target? Biol. Control, 35: 183–196. CHITTICK, A.T. and AULD, B.A. (2001): Polymers in bioherbicide formulation: Xanthium spinosum and Colletotrichum as a model system. Biocontrol. Sci. Technol., 11: 691–702. CHITTICK, A.T., ASH, G.J., KENNEDY, R.A., HARPER, J.D.I. (2003): Microencapsulation: an answer to the formulation quandary? VI international Bioherbicide Group Workshop, Canberra, Australia. CHRISTY, A.L., HERBST, K.A., KOSTKA, S.J., MULLEN, J.P., CARLSON, S.J. (1993): Synergizing weed biocontrol agents with chemical herbicides. In: Pest Control with Enhanced Environmental Safety (ed. by Duke S.O., Menn J.J. and Plimmer J.R.). American Chemical Society, Washington, DC, 87–100.
- Page 1 and 2: Advantages and limitations in biohe
- Page 3 and 4: Successful stories about bioherbici
- Page 5 and 6: Myrothecium verrucaria (IMI 361690)
- Page 7 and 8: Microsphaeropsis amaranthi Phomopsi
- Page 9 and 10: Synergism between bioherbicides and
- Page 11 and 12: Glyphosate Synergism Myrothecium ve
- Page 13 and 14: Different limitations about bioherb
- Page 15 and 16: Biological limitations It is desira
- Page 17 and 18: spray drying process Phomopsis sp.
- Page 19: References ABBAS, H.K. and BOYETTE,
- Page 23 and 24: HEINY, D.K. (1994): Field survival
- Page 25 and 26: PATZOLDT, W.L., TRANEL, P.J., ALEXA
- Page 27: YANG, S. M., JOHNSON, D. R., DOWLER
BOYETTE, C.D., REDDY, K.N., HOAGLAND, R.E. (2006): Glyphosate <strong>and</strong> bioherbicide <strong>in</strong>teraction for controll<strong>in</strong>g Kudzu<br />
(Pueraria lobata), Redv<strong>in</strong>e (Brunnichia ovata), <strong>and</strong> Trumpetcreeper (Campsis radicans). Biocontrol Science <strong>and</strong> Technology,<br />
6(10): 1067-1077.<br />
BOYETTE, C.D., HOAGLAND, R.E., ABBAS, H.K. (2007): Evaluation of the bioherbicide Myrothecium verrucaria for weed<br />
control <strong>in</strong> tomato (Lycopersicon esculentum). Biocotrol Science <strong>and</strong> Technology, 17(2): 171-178.<br />
BOYETTE, C.D., HOAGLAND, R.E., WEAVER, M.A. (2008): Interaction of a bioherbicide <strong>and</strong> glyphosate for controll<strong>in</strong>g hemp<br />
sesbania <strong>in</strong> glyphosate-resistant soybean. Weed Biology <strong>and</strong> Management, 8: 18–24.<br />
BOYETTE, C.D., HOAGLAND, R.E., WEAVER, M.A., REDDY, K.N. (2008): Redv<strong>in</strong>e (Brunnichia ovata) <strong>and</strong> trumpetcreeper<br />
(Campsis radicans) controlled under field conditions by a synergistic <strong>in</strong>teraction of the bioherbicide, Myrothecium verrucaria,<br />
with glyphosate. Weed Biology <strong>and</strong> Management, 8: 39–45.<br />
BURDON, J. J. (1987): Diseases <strong>and</strong> Plant Population Biology. Cambridge University Press, Cambridge. 208 p.<br />
CAULDER, J.D. <strong>and</strong> STOWELL, L. (1988a): Synergistic herbicidal compositions compris<strong>in</strong>g Colletotrichum truncatum <strong>and</strong><br />
chemical herbicides. US patent 4,775,405. 6 Jan. 1987.<br />
CAULDER, J.D. <strong>and</strong> STOWELL, L. (1988b): Synergistic herbicidal compositions compris<strong>in</strong>g Alternaria cassiae <strong>and</strong> chemical<br />
herbicides. US patent 4,776,873. 27 Jan. 1987.<br />
CHARUDATTAN, R., DEVALERIO, J.T., PRANGE, V.J. (1990): Special problems associated with aquatic weed control. p. 287-<br />
303 <strong>in</strong> R. R. Baker <strong>and</strong> P. E. Dunn, eds. New Directions <strong>in</strong> Biological Control: Alternatives for Suppress<strong>in</strong>g Agricultural Pests <strong>and</strong><br />
Diseases. Alan R. Liss Inc., New York.<br />
CHARUDATTAN, R. (2001): Biological control of weeds by means of plant pathogens: significance for <strong>in</strong>tegrated weed<br />
management <strong>in</strong> modern agro-ecology. BioControl, 46: 229-260.<br />
CHARUDATTAN, R., ELLIOT, M., DEVALERIO, J.T., HIEBERT, E., PETTERSEN, M.E. (2003): Tobacco mild green mosaic<br />
virus: a virus-based bioherbicide. VI <strong>in</strong>ternational Bioherbicide Group Workshop, Canberra, Australia.<br />
CHARUDATTAN, R. (2005): Use of plant pathogens as <strong>bioherbicides</strong> to manage weeds <strong>in</strong> horticultural crops. Proc. fla. state<br />
hort. soc., 118: 208-214.<br />
CHARUDATTAN, R. (2005): Ecological, practical, <strong>and</strong> political <strong>in</strong>puts <strong>in</strong>to selection of weed targets: what makes a good<br />
biological control target? Biol. Control, 35: 183–196.<br />
CHITTICK, A.T. <strong>and</strong> AULD, B.A. (2001): Polymers <strong>in</strong> bioherbicide formulation: Xanthium sp<strong>in</strong>osum <strong>and</strong> Colletotrichum as a<br />
model system. Biocontrol. Sci. Technol., 11: 691–702.<br />
CHITTICK, A.T., ASH, G.J., KENNEDY, R.A., HARPER, J.D.I. (2003): Microencapsulation: an answer to the formulation<br />
qu<strong>and</strong>ary? VI <strong>in</strong>ternational Bioherbicide Group Workshop, Canberra, Australia.<br />
CHRISTY, A.L., HERBST, K.A., KOSTKA, S.J., MULLEN, J.P., CARLSON, S.J. (1993): Synergiz<strong>in</strong>g weed biocontrol agents<br />
with chemical herbicides. In: Pest Control with Enhanced Environmental Safety (ed. by Duke S.O., Menn J.J. <strong>and</strong> Plimmer J.R.).<br />
American Chemical Society, Wash<strong>in</strong>gton, DC, 87–100.
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