Registro:

Referencias:

• Alippi, A., Perelló, A., Sisterna, M., Greco, N., Cordo, C., Potential of spore-forming bacteria as biocontrol agents of wheat foliar diseases under laboratory and greenhouse conditions (2000) Journal of Plant Diseases and Protection, 107, pp. 155-169
• Annone, J., Calzalori, O., Polidoro, H., Conta, H., (1991) Efecto de la mancha de la hoja causada por Septoria tritici sobre el rendimiento. INTA EEA Pergamino, (122), p. 4. , Informe
• Annone, J., Conta, O., Polidoro, A., Calzalori, A., (1993) Información adicional sobre el efecto de 'mancha de la hoja' causada por Septoria tritici sobre los rendimientos. INTA EEA Pergamino, (146), p. 5. , Informe
• Barnett, H., Lilly, V., A destructive mycoparasite, Gliocladium roseum (1962) Mycologia, 54, pp. 72-77
• Biles, C., Hill, J., The effect of Trichoderma hamatum on the sporulation capacity of Cochliobolus sativus lesions excised from winter wheat seedlings leaves (1983) Phytopathology, 31, pp. 53-80
• Bowles, D.J., Defense-related proteins in higher plants (1990) Annul Review of Biochemistry, 59, pp. 873-907
• Carmona M, Reis E, Cortesse P. 1999. Manchas foliares del trigo. Diagnóstico, epidemiología y nuevos criterios para el manejo. BASF Argentina S.A. p 32Dal Bello, G., Mónaco, C., Simón, M., Biological control of seedling blight of wheat caused Fusarium graminearum with beneficial rhizosphere microorganisms (2002) World Journal of Microbiology & Biotechnology, 18, pp. 627-636
• Dal Bello, G., Sisterna, M., Mónaco, C., Antagonistic effect of soil rhizosphere microorganisms on Bipolaris sorokiniana, the causal agent of wheat seedling blight (2003) International Journal of Pest Management, 49, pp. 313-317
• De Meyer, G., Bigirimana, J., Elad, Y., Hofe, M., Induced systemic resistance in Trichoderma harzianum T39 biocontrol of Botrytis cinerea (1998) European Journal of Plant and Pathology, 104, pp. 279-286
• de Witt, P., Hofman, A., Velthuis, G., Kuc, J., Isolation and characterization of an elicitor of necrosis isolated from intercellular fluids of compatible interactions of Cladosporium fulvum (syn. Fulvia fulva) and tomato (1985) Plant Physiology, 77, pp. 642-647
• Elad, Y., Kirschner, B., Survival in the phylloplane of an introduced biocontrol agent (Trichoderma harzianum) and population of the plant pathogen Botrytis cinerea in modified by abiotic conditions (1993) Phytoparasitica, 21, pp. 303-313
• Eyal, Z., Integrated control of Septoria disease of wheat (1981) Plant Disease, 65, pp. 763-768
• Eyal, Z., Scharen, A., Prescott, J., Global insights into virulence frequencies of Mycosphaerella graminicola (1985) Phytopathology, 75, pp. 1456-1462
• Eyal, Z., Schare, A., Prescott, J., van Ginkel, M., The Septoria diseases of wheat (1987) Concepts and methods of disease management, , CIMMYT, Mexico
• Fokkema, N., Meulen, F., Antagonism of yeast like phyllosphore fungi against Septoria nodorum on wheat leaves (1976) Netherlands Journal of Plant Pathology, 82, pp. 13-16. , Wageningen
• Fokkema, N., Houter, J., Kosterman, Y., Nelis, A., Manipulation of yeasts on fieldgrown wheat leaves and their antagonistic effect on Cochliobolus sativus and Septoria nodorum (1979) Transactions of the British Mycological Society, 72, pp. 19-29. , London
• Gough, F., Ghazanfari, J., Biological antagonists of Phyrenophora tritici-repentis (1982) Tan Spot of wheat and related diseases workshop, pp. 36-39. , Hosford RM Jr, editor, Fargo, ND: North Dakota State University. pp
• Hammond-Kosack, K.E., Jones, J.D.G., Resistance gene-dependent plant defense responses (1996) Plant Cell, 8, pp. 1773-1791
• Hanson, L., Howell, C., Elicitors of plant defense responses from biocontrol strains of Trichoderma virens (2004) Phytopathology, 94, pp. 171-216
• Harman, G., Myths and dogmas of biocontrol. Changes in perceptions derived from research on Trichoderma harzianum T-22 (2000) Plant Disease, 84, pp. 377-393
• Hoitink, H., Madden, L., Dorrance, A.E., Systemic resistance induced by Trichoderma spp.: Interactions between the host, the pathogen, the biocontrol agent, and soil organic matter quality (2006) Phytopathology, 96, pp. 186-189
• Howell, C.R., Understanding the mechanisms employed by Trichoderma virens to effect biological control of cotton diseases (2006) Phytopathology, 96, pp. 178-180
• Howel, C.R., Hanson, L.E., Stipanovic, R.D., Puckhaber, L.S., Wheeler, M., Induction of terpenoid synthesis in cotton roots and control of Rhizoctonia solani by seed treatment with Trichoderma virens (2000) Phytopathology, 90, pp. 248-252
• Jordá, L., Vera, P., Local and systemic induction of two defense-related subtilisin-like protease promoters in transgenic arabidopsis plants. Luciferin induction of PR gene expression (2000) Plant Physiology, 124, pp. 1049-1058
• Kim, D., Cook, R., Weller, D., Bacillus sp L324-92 for biological control of three root diseases of wheat grown with reduced tillage (1997) Phytopathology, 87, pp. 551-558
• Koike, N., Hykumachi, M., Kageyama, K., Tsuyumu, S., Doke, N., Induction of resistance in cucumber against several diseases by plant growth promoting fungi: Lignification and superoxide generation (2001) European Journal of Plant Pathology, 107, pp. 523-533
• Li, B., Sutton, J., Evaluation of leaf associated microorganisms for biocontrol of tan spot in wheat foliage (1995) Fitopatologia Brasileira, 20, pp. 545-552
• Linhares, A., Matsumura, A., Luz, W., Avaliacao da amplitude de acao antagonistica de microorganismos epifitas do trigo sobre o crescimento radial de Drechslera tritici-repentis (1995) Revista Brasileira De Agrociencia, 1, pp. 119-126
• Luz, W.D., Controle biológico das manchas foliares do trigo a traves de microorganismos da filosfera. (1982) Fitopatologia Brasileira, 7, pp. 530-531
• Luz, W.D., Controle biológico das doencas foliares do trigo in controle biologico de doencas de plantas (1991) Bettiol W, 26, pp. 383-388. , editor. EMBRAPA, Brasilia, Cap
• Melo Y. 1991. Potencialidades de utilizao de Trichoderma spp. no controle biológico de doencas de plantas. In: Controle biológico de doencas de plantas. EMBRAPA, Brasilia, DF pp. 388, Cap. 9:135-156Michereff, N., Da Silveira, S., Reis, A., Mariano, R., Greenhouse screening of Trichoderma isolates for control of Curvularia leaf spot of yam (1995) Mycopathology, 130, pp. 103-108
• Mittler, R., Abiotic stress, the field environment and stress combination (2006) Trends in Plant Science, 11, pp. 15-19
• Mónaco, C., Sisterna, M., Perelló, A., Dal Bello, G., Preliminary studies on biological control of the blackpoint complex of wheat in Argentina (2004) World Journal of Microbiology & Biotechnology, 20, pp. 285-290
• Monte, E., Understanding Trichoderma: Between biotechnology and microbial ecology (2001) International Microbiology, 4, pp. 1-4
• Nikonorova A. 1998. Phytosanitary effect of the combined application of green manure and antagonistic bacterium Bacillus subtilis on Bipolaris sorokiniana. In: Duveiller E, Dubin J, Papavizas GC, editors. 1985. Trichoderma and Gliocladium : biology, ecology and potential for biocontrol. Annual Review of Phytopathology 23:23-54Pechan, T., Cohen, A., Williams, P., Luthe, D., Insect feeding mobilizes a unique plant defense protease that disrupts the peritrophic matrix of caterpillars (2002) Proceedings of the National Academy of Sciences of the United States of America, 99, pp. 13319-13323
• Perelló, A., Mónaco, C., Cordo, C., Evaluation of Trichoderma harzianum and Gliocladium roseum in controlling leaf blotch of wheat (Septoria tritici) Ander in vitro and greenhouse conditions (1997) Zeitschrift fur Pflanzenkrankheiten und Pflanzenschutz, 104, pp. 588-598
• Perelló, A., Simón, M., Arambarri, A., Cordo, C., Greenhouse screening of the saprophytic resident microflora for control of leaf spots of wheat (Triticum aestivum L.) (2001) Phytoparasitica, 29, pp. 341-351
• Perelló A, Simo0n M, Sisterna M, Cordo C, Arambarri A. 2001b. Microflora of wheat (Triticum aestivum L.) in Buenos Aires Province (Argentina) and its possible significance in biological control of foliar pathogens. Zeitschrift fur Pflanzenkrankheiten und Pflanzenschutz 108:459-471Perelló, A., Simon, M., Arambarri, A., Interactions between foliar pathogens and the saprophytic microflora of the wheat (Triticum aestivum L) (2002) Journal of Phytopathology, 150, pp. 232-243
• Perelló, A., Mónaco, C., Sisterna, M., Dal Bello, G., Biocontrol efficacy of Trichoderma isolates for Tan Spot of wheat in Argentina (2003) Crop Protection, 22, pp. 1099-1106
• Perelló, A., Mónaco, C., Moreno, V., Cordo, C., Simón, M.R., The effect of Trichoderma harzianum and T. koningii on the control of tan spot (Pyrenophora tritici-repentis) and leaf blotch (Mycosphaerella graminicola) of wheat under field conditions in Argentina (2006) Biocontrol Science and Technology, 16, pp. 803-813
• Pfender, W.F., Suppression of ascocarp formation in Pyrenophora tritici-repentis by Lymonomyces roseipellis a basidiomycete from reduce-tillage wheat straw (1988) Phytopathology, 78, pp. 1254-1258
• Pfender, W.F., Zhang, W., Nus, A., Field performance under greenhouse assay of fungi for biocontrol of residue borne Pyrenophora tritici-repentis (Abstr.) (1989) Phytopathology, 79, p. 1152
• Pfender, W.F., Sharma, U., Zhang, W., Effect of water potential on microbial antagonism to Pyrenophora tritici-repentis in wheat residue (1991) Mycological Research, 95, pp. 308-314
• Pinedo, M., Segarra, C., Conde, R., Occurrence of two endoproteinaces in wheat leaf intercellular washing fluid (1993) Physiology Plant, 88, pp. 287-293
• Rai, B., Singh, D., Antagonistic activity of some leaf surface microfungi against Alternaria brassicae and Dreschlera graminea (1980) Transactions of the British Mycological Society, 75, pp. 363-369
• Rodrigo, I., Vera, P., Conejero, V., Degradation of tomato pathogenesis-related proteins by an endogenous 37 kDa aspartyl endoproteinase (1989) European Journal of Biochemistry, 184, pp. 663-669
• Schaller, A., Ryan, C., Molecular cloning of a tomato leaf cDNA encoding an aspartic protease, a systemic wound response protein (1996) Plant Molecular Biology, 19, pp. 1073-1077
• Scharen, A., Bryan, D., A possible control agent for net blotch of barley (1981) Phytopathology, 71, pp. 902-903
• Segarra, C., Casalongué, C., Pinedo, M., Cordo, C., Conde, R., Changes in wheat leaf extracellular proteolytic activity after infection with Septoria tritici (2002) Journal of Phytopatology, 150, pp. 105-111
• Segarra, C., Casalongué, C., Pinedo, M., Ronchi, V., Conde, R., A germin-like protein of wheat leaf apoplast inhibits serine proteases (2003) Journal of Experimental Botany, 54, pp. 1335-1341
• Simón MR, Perelló A, Cordo C, Arriaga H. 1996. Influencia de la infección tardía de Septoria tritici Rob. Ex Desm. sobre el peso de mil granos y algunos parámetros de calidad en Triticum aestivum L. Investigación Agraria 11:161-171Tornero, P., Conejero, V., Vera, P., Primary structure and expression of a pathogen induced protease (PR-P69) in tomato plants: Similarity of functional domains to subtisilin-like endoproteases (1996) Proceedings of the National Academy of Sciences of the United States of America, 93, pp. 6332-6337
• Tronsmo A. 1986. Use of Trichoderma spp. in biological control of necrotrophic pathogens. In: Fokkema N, der Heuvel J, editors. Microbiology of the phyllosphere. Cambridge: Cambridge University PressUdenfriend S, Stein S, Pohlen P, Dairman W, Leimgruber W, Weigele M. 1972. Fluorescamine: a reagent for assay of amino acids, peptides, proteins, and primary amines in the picomole range. Science 178:871-872Vera, P., Conejero, V., Pathogenesis-related proteins in tomato. P-69 as an alkaline endoproteinase (1988) Plant Physiology, 87, pp. 58-63
• Viterbo, A., Ramot, O., Chernin, L., Chet, I., Significance of lytic enzymes from Trichoderma spp. in the biocontrol of fungal plant pathogens (2002) Journal of Antonie van Leeuwenhoek, 81, pp. 549-556

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------