Classical and augmentative biological control against ... - IOBC-WPRS

More documents

Recommendations

Info

Nicot et al. (Appendix for Chapter 1) Köhl, J., and Fokkema, N. J. (1998). Biological control of Botrytis cinerea by suppression of sporulation. In "Brighton Crop Protection Conference: Pests & Diseases - 1998: Volume 2: Proceedings of an International Conference, Brighton, UK, 16-19 November 1998." pp. 681-692. Köhl, J., and Gerlagh, M. (1999). Biological control of Botrytis cinerea in roses by the antagonist Ulocladium atrum. Mededelingen - Faculteit Landbouwkundige en Toegepaste Biologische Wetenschappen, Universiteit Gent 64, 441-445. Köhl, J., Gerlagh, M., and Grit, G. (2000). Biocontrol of Botrytis cinerea by Ulocladium atrum in different production systems of cyclamen. Plant Disease 84, 569-573. Köhl, J., Gerlagh, M., Haas, B. H. d., and Krijger, M. C. (1998). Biological control of Botrytis cinerea in cyclamen with Ulocladium atrum and Gliocladium roseum under commercial growing conditions. Phytopathology 88, 568-575. Köhl, J., Kessel, G. J. T., Boff, P., Kraker, J. d., and Werf, W. v. d. (2001). Epidemiology of Botrytis spp. in different crops determines success of biocontrol by competitive substrate exclusion by Ulocladium atrum. Bulletin OILB/SROP 24, 171-174. Köhl, J., and Molhoek, W. M. L. (2001). Effect of water potential on conidial germination and antagonism of Ulocladium atrum against Botrytis cinerea. Phytopathology 91, 485-491. Köhl, J., Molhoek, W. W. L., Goossen-van de Geijn, H. M., and Lombaers-van der Plas, C. H. (2003). Potential of Ulocladium atrum for biocontrol of onion leaf spot through suppression of sporulation of Botrytis spp. BioControl 48, 349-359. Köhl, J., Plas, C. H. L. v. d., Molhoek, W. M. L., Kessel, G. J. T., and Geijn, H. M. G. v. d. (1999). Competitive ability of the antagonists Ulocladium atrum and Gliocladium roseum at temperatures favourable for Botrytis spp. development. BioControl 44, 329-346. Koike, M., Higashio, T., Komori, A., Akiyama, K., Kishimoto, N., Masuda, E., Sasaki, M., Yoshida, S., Tani, M., Kuramoti, K., Sugimoto, M., and Nagao, H. (2004). Verticillium lecanii (Lecanicillium spp.) as epiphyte and its application to biological control of arthropod pests and diseases. Bulletin OILB/SROP 27, 41-44. Konstantinidou-Doltsinis, S., Markellou, E., Petsikos-Panayotarou, N., Siranidou, E., Kalamarakis, A. E., Schmitt, A., Ernst, A., Seddon, B., Belanger, R. R., and Dik, A. J. (2002). Combinations of biocontrol agents and Milsana(R) against powdery mildew and grey mould in cucumber in Greece and the Netherlands. Bulletin OILB/SROP 25, 171-174. Kornilov, A. V., Sitnikov, A. V., and Smirnov, Y. V. (2007). Bakflor on tomatoes. Kartofel' i Ovoshchi, 24. Korolev, N., and Elad, Y. (2004). Systemic resistance in Arabidopsis thaliana induced by biocontrol agent Trichoderma harzianum. Bulletin OILB/SROP 27, 363-366. Kovach, J., Petzoldt, R., and Harman, G. E. (2000). Use of honey bees and bumble bees to disseminate Trichoderma harzianum 1295-22 to strawberries for Botrytis control. Biological Control 18, 235-242. Krol, E. (1998). Epiphytic bacteria isolated from grape leaves and its effect on Botrytis cinerea pers. Phytopathologia Polonica, 53-61. Kulakiotu, E., and Sfakiotakis, E. (2003a). Influence of inoculation time after wounding on the action of Isabella volatiles against Botrytis cinerea. Bulletin OILB/SROP 26, 71-74. Kulakiotu, E. K., and Sfakiotakis, E. M. (2003b). Influence of grape volatiles of Vitis labrusca 'Isabella' on growth of Botrytis cinerea on 'Hayward' kiwifruit. Acta Horticulturae, 445-446. Kulakiotu, E. K., Thanassoulopoulos, C. C., and Sfakiotakis, E. M. (2004a). Biological control of Botrytis cinerea by volatiles of 'Isabella' grapes. Phytopathology 94, 924-931. Kulakiotu, E. K., Thanassoulopoulos, C. C., and Sfakiotakis, E. M. (2004b). Postharvest biological control of Botrytis cinerea on kiwifruit by volatiles of "Isabella" grapes. Phytopathology 94, 1280-1285. Kumar, R. S., Ayyadurai, N., Pandiaraja, P., Reddy, A. V., Venkateswarlu, Y., Prakash, O., and Sakthivel, N. (2005). Characterization of antifungal metabolite produced by a new strain Pseudomonas aeruginosa PUPa3 that exhibits broad-spectrum antifungal activity and biofertilizing traits. Journal of Applied Microbiology 98, 145-154. Kuptsov, V., Kolomiets, E., and Sverchkova, N. (2004). Evaluation of antifungal activity of bacteria-antagonists towards lupin pathogens. In "Wild and cultivated lupins from the Tropics to the Poles. Proceedings of the 10th International Lupin Conference, Laugarvatn, Iceland, 19-24 June 2002", pp. 258-260. Kurtzman, C. P., and Droby, S. (2001). Metschnikowia fructicola, a new ascosporic yeast with potential for biocontrol of postharvest fruit rots. Systematic and Applied Microbiology 24, 395-399. Lahdenpera, M. L., and Korteniemi, M. (2008). Application methods for commercial biofungicides in greenhouses. Bulletin OILB/SROP 32, 111-114. Lahlali, R., Friel, D., and Jijakli, M. H. (2007). Comparative study of the ecological niche of Penicillum expansum Link., Botrytis cinerea Pers. and their antagonistic yeasts Candida oleophila strain O and Pichia anomala strain K. Bulletin OILB/SROP 30, 235-239. Lee, J., Bae, D., Park, S., Shim, C., Kwak, Y., and Kim, H. (2001). Occurrence and biological control of postharvest decay in onion caused by fungi. Plant Pathology Journal 17, 141-148. Lee, J., Lee, S., Kim, C., Son, J., Song, J., Lee, K., Kim, H., Jung, S., and Moon, B. (2006). Evaluation of formulations of Bacillus licheniformis for the biological control of tomato gray mold caused by Botrytis cinerea. Biological Control 37, 329-337. Leibinger, W., Breuker, B., Hahn, M., and Mendgen, K. (1997). Control of postharvest pathogens and colonization of the apple surface by antagonistic microorganisms in the field. Phytopathology 87, 1103- 1110. Lennartz, B., Schoene, P., and Oerke, E. C. (1998). Biocontrol of Botrytis cinerea on grapevine and Septoria spp. on wheat. Mededelingen - Faculteit Landbouwkundige en Toegepaste Biologische Wetenschappen, Universiteit Gent 63, 963-970. Levy, N. O., Elad, Y., and Katan, J. (2004a). Integration of Trichoderma and soil solarization for disease management. Bulletin OILB/SROP 27, 65-70. Levy, N. O., Elad, Y., Katan, J., Baker, S. C., and Faull, J. L. (2006). Trichoderma and soil solarization induced microbial changes on plant surfaces. Bulletin OILB/SROP 29, 21-26. Levy, N. O., Elad, Y., Korolev, N., and Katan, J. (2004b). Resistance induced by soil biocontrol application and soil solarization for the control of foliar pathogens. Bulletin OILB/SROP 27, 171-176. 92
Appendix 1 Li, G. Q., Huang, H. C., Acharya, S. N., and Erickson, R. S. (2004a). Biological control of blossom blight of alfalfa caused by Botrytis cinerea under environmentally controlled and field conditions. Plant Disease 88, 1246-1251. Li, G. Q., Huang, H. C., Kokko, E. G., and Acharya, S. N. (2002). Ultrastructural study of mycoparasitism of Gliocladium roseum on Botrytis cinerea. Botanical Bulletin of Academia Sinica 43, 211-218. Li, H., White, D., Lamza, K. A., Berger, F., and Leifert, C. (1998). Biological control of Botrytis, Phytophthora and Pythium by Bacillus subtilis Cot1 and CL27 of micropropagated plants in high-humidity fogging glasshouses. Plant Cell, Tissue and Organ Culture 52, 109-112. Li, Y., Liu, S., Li, M., Zhao, J., Li, J., and Wen, M. (2008). Separation and identification of oligomycins A and C from Streptomyces luteogriseus ECO 00001 and their bioactive properties. Acta Phytophylacica Sinica 35, 47-50. Li, Z., He, Y., and Xia, X. (2004b). Inhibitory spectrum and partial biological traits of five Trichoderma isolates. Journal of Yunnan Agricultural University 19, 267-271. Li, Z., Xiang, J., Chen, J., Ge, C., and Ge, S. (2007). Isolation and identification of actinomycete against Fusarium graminearum Schw. Journal of Triticeae Crops 27, 149-152. Lian, C., Li, S., Chao, C., Ma, P., Jiang, J., and Lu, X. (2007). Selection, identification and characterization of antagonistic and phytohormone producing bacterial strain CX-5-2. Acta Phytopathologica Sinica 37, 197-203. Liang, Y., Zong, Z., and Ma, Q. (2007). Inhibiting and promoting effect on plants of six strains endophytic actinomycetes isolated from wild plants. Journal of Northwest A & F University - Natural Science Edition 35, 131-136. Lima, G., Arru, S., Curtis, F. d., and Arras, G. (1999). Influence of antagonist, host fruit and pathogen on the biological control of postharvest fungal diseases by yeasts. Journal of Industrial Microbiology & Biotechnology 23, 223-229. Lima, G., Castoria, R., Spina, A. M., Curtis, F. d., and Caputo, L. (2005). Improvement of biocontrol yeast activity against postharvest pathogens: recent experiences. Acta Horticulturae, 2035-2040. Lima, G., Curtis, F. d., Castoria, R., and Cicco, V. d. (1998). Activity of the yeasts Cryptococcus laurentii and Rhodotorula glutinis against post-harvest rots on different fruits. Biocontrol Science and Technology 8, 257-267. Lima, G., Curtis, F. d., Castoria, R., and Cicco, V. d. (2003). Integrated control of apple postharvest pathogens and survival of biocontrol yeasts in semi-commercial conditions. European Journal of Plant Pathology 109, 341-349. Lima, G., Curtis, F. d., Piedimonte, D., Spina, A. M., and Cicco, V. d. (2006). Integration of biological control yeast and thiabendazole protects stored apples from fungicide sensitive and resistant isolates of Botrytis cinerea. Postharvest Biology and Technology 40, 301-307. Lima, G., Ippolito, A., Nigro, F., and Salerno, M. (1997). Biological control of grey mould of stored table grapes by pre-harvest applications of Aureobasidium pullulans and Candida oleophila. Difesa delle Piante 20, 21-28. Limon, M. C., Chacon, M. R., Mejias, R., Delgado-Jarana, J., Rincon, A. M., Codon, A. C., and Benitez, T. (2004). Increased antifungal and chitinase specific activities of Trichoderma harzianum CECT 2413 by addition of a cellulose binding domain. Applied Microbiology and Biotechnology 64, 675-685. Lisboa, B. B., Bochese, C. C., Vargas, L. K., Silveira, J. R. P., Radin, B., and Oliveira, A. M. R. d. (2007). Efficiency of Trichoderma harzianum and Gliocladium viride in decreasing the incidence of Botrytis cinerea in tomato cultivated in protected environment. Ciencia Rural 37, 1255-1260. Liu, B., Peng, H., and Chen, S. (2007a). Screening of Trichoderma antagonistic strains to Tomato Botrytis cinerea and its evaluation of the control effect. Southwest China Journal of Agricultural Sciences 20, 650-653. Liu, C. H., Chen, X., Liu, T. T., Lian, B., Gu, Y., Caer, V., Xue, Y. R., and Wang, B. T. (2007b). Study of the antifungal activity of Acinetobacter baumannii LCH001 in vitro and identification of its antifungal components. Applied Microbiology and Biotechnology 76, 459-466. Liu, Q., Yu, J., and Fang, S. (2004). Antagonism appraisement of strain MY02 against plant pathogenic fungus. Journal of Jilin Agricultural University 26, 499-502. Liu, X., Li, Q., Wang, Y., Xu, X., and Zhang, X. (2006). The antifungal activity of secondary metabolic products from Xenorhabdus nematophilus YL001. Acta Phytophylacica Sinica 33, 277-281. Liu, Y., Chen, Z., Ng, T. B., Zhang, J., Zhou, M., Song, F., Lu, F., and Liu, Y. (2007c). Bacisubin, an antifungal protein with ribonuclease and hemagglutinating activities from Bacillus subtilis strain B-916. Peptides 28, 553-559. Liu, Y., Huang, C., and Chen, C. (2008). Evidence of induced systemic resistance against Botrytis elliptica in lily. Phytopathology 98, 830-836. Lolas, M., Donoso, E., Gonzalez, V., and Carrasco, G. (2005). Use of a Chilean native strain 'Sherwood' of Trichoderma virens on the biocontrol of Botrytis cinerea in lettuces grown by a float system. Acta Horticulturae, 437-440. Long, J., Hu, Z., Liu, J., and Wu, W. (2005). Fungicidal activity of fermentation products of Streptomyces isolated from Qinling mountain area. Chinese Journal of Biological Control 21, 187-191. Ma, Y., Liu, X., Gao, K., Qin, N., Pang, Y., and Shi, C. (2007). Preliminary study on biocontrol potential of rhizobacterium Serratia plymuthica HRO-C48. Journal of Yunnan Agricultural University 22, 49- 53. Maccagnani, B., Mocioni, M., Gullino, M. L., and Ladurner, E. (1999). Application of Trichoderma harzianum by using Apis mellifera as a vector for the control of grey mould of strawberry: first results. Bulletin OILB/SROP 22, 161-164. 93
Page 1 and 2:
IOBC OILB WPRS SROP In te rn atio n
Page 3 and 4:
Preface One of the Research Activit
Page 5 and 6:
LORITO Matteo UNINA, Dip. Arboricol
Page 7 and 8:
List of Tables (continued) Table 17
Page 9 and 10:
Contents Chapter 1 Potential of bio
Page 11 and 12:
Chapter 1 Potential of biological c
Page 13 and 14:
Chapter 1 To allow for the analysis
Page 15 and 16:
Chapter 1 Table 4: Microbial specie
Page 17 and 18:
Chapter 1 Table 4 (continued) T. lo
Page 19 and 20:
Chapter 1 Table 4 (continued) Cupri
Page 21 and 22:
Chapter 1 other was aiming at ident
Page 23 and 24:
Chapter 2 Table 5: References extra
Page 25 and 26:
Chapter 2 Table 6: Biocontrol agent
Page 27 and 28:
Table 7 (continued) Chapter 2 Hemip
Page 29 and 30:
Chapter 2 Bacillus thuringiensis: 2
Page 31 and 32:
Chapter 3 - financial; since the de
Page 33 and 34:
Chapter 3 Pathogens and Nematodes a
Page 35 and 36:
Chapter 3 [Remark: Estimating the s
Page 37 and 38:
Chapter 3 100% 80% 60% P = Phytopha
Page 39 and 40:
Chapter 3 0,25 4 0,20 % dedicated t
Page 41 and 42:
Chapter 3 Table 9: Recent introduct
Page 43 and 44:
Chapter 3 Table 9: Recent introduct
Page 45 and 46:
Chapter 4 The survey was limited to
Page 47 and 48:
Chapter 4 Table 11 (continued) Othe
Page 49 and 50:
Chapter 4 SCLPs are included in ann
Page 51 and 52: Chapter 4 laminarin is available on
Page 53 and 54: Chapter 5 (EC) No 1109/2009. Tests
Page 55 and 56: Chapter 6 Identified difficulties a
Page 57 and 58: Chapter 6 Table 12: Evidence for, a
Page 59 and 60: Table 13: Trichoderma-based prepara
Page 61 and 62: Chapter 6 Many preparations have be
Page 63 and 64: Chapter 6 Persistence, physiologica
Page 65 and 66: Chapter 6 Harman, G. E. (2006) Over
Page 67 and 68: Chapter 6 Sharon, E., Bar-Eyal, M.,
Page 69 and 70: Chapter 7 purification, formulation
Page 71 and 72: Chapter 7 Business profitability Co
Page 73 and 74: Chapter 8 A survey was carried out
Page 75 and 76: Chapter 8 80 70 60 %of supply %of a
Page 77 and 78: Chapter 8 efficacy and the price of
Page 79 and 80: Conclusions and perspectives reduct
Page 81 and 82: Appendices For Chapter 1 Appendix 1
Page 83 and 84: Appendix 1 B O Milsana + Brevibacil
Page 85 and 86: Appendix 1 Strawberry (target patho
Page 87 and 88: Appendix 1 Fruits - postharvest (ap
Page 89 and 90: Appendix 1 Legumes (Fabaceae) (targ
Page 91 and 92: Appendix 1 Miscellaneous crops (tar
Page 93 and 94: Appendix 1 Lecanicillium muscarium
Page 95 and 96: Appendix 1 Bedini, S., Bagnoli, G.,
Page 97 and 98: Appendix 1 Dik, A., and Wubben, J.
Page 99 and 100: Appendix 1 Gerlagh, M., Amsing, J.
Page 101: Appendix 1 Jing, W., Tu, K., Shao,
Page 105 and 106: Appendix 1 Morandi, M. A. B., Maffi
Page 107 and 108: Appendix 1 Rabea, E. I., Badawy, M.
Page 109 and 110: Appendix 1 Sutton, J. C., Liu, W.,
Page 111 and 112: Appendix 1 Zahavi, T., Cohen, L., W
Page 113 and 114: Appendix 2 Powdery mildew on grapes
Page 115 and 116: Appendix 2 Powdery mildew on cucurb
Page 117 and 118: Appendix 2 Askary, H. (1998). Patho
Page 119 and 120: Appendix 2 Malathrakis, N. E. (2002
Page 121 and 122: Appendix 3. Inventory of biocontrol
Page 123 and 124: Appendix 3 References on biocontrol
Page 125 and 126: Appendix 4. Inventory of biocontrol
Page 127 and 128: Appendix 4 Grapes (target pathogen
Page 129 and 130: Appendix 4 References on biocontrol
Page 131 and 132: Appendix 4 Robak, J., and Ostrowska
Page 133 and 134: Appendix 5 Cherry (target pathogens
Page 135 and 136: Appendix 5 Successful inhibition in
Page 137 and 138: Appendix 5 Smilanick, J. L., Denis-
Page 139 and 140: Appendix 6 showed protein content o
Page 141 and 142: Appendix 6 El-Khallal, S. M. (2007)
Page 143 and 144: Appendix 6 Liu, Q., J. C. Yu, et al
Page 145 and 146: Appendix 6 of tomato wilt pathogen
Page 147 and 148: Appendix 6 incognita, respectively.
Page 149 and 150: Appendix 7. Number of references re
Page 151 and 152: Appendix 8. Collection of data on a
Page 153 and 154:
Appendix 8 Camporese & Duso, 1996 T
Page 155 and 156:
Appendix 8 8.5 Fungi [5 species] Re
Page 157 and 158:
Appendix 8 Berner & Schnetter, 2002
Page 159 and 160:
Appendix 8 Morandi-Filho et al., 20
Page 161 and 162:
Appendix 8 Marshall D.B. & Lester P
Page 163 and 164:
Appendix 9 9.2. Details on the use
Page 165 and 166:
Appendix 9 References 1. Abd-Rabou
Page 167 and 168:
Appendix 9 50. Gariepy TD, Kuhlmann
Page 169 and 170:
Appendix 9 97. Langewald J, Neuensc
Page 171 and 172:
Appendix 9 146. Roltsch WJ, Meyerdi
Page 173 and 174:
Appendix 10. Substances included in
Page 175 and 176:
Appendix 10 Chemical Dimoxystrobin
Page 177 and 178:
Appendix 10 Chemical Prosulfocarb '
Page 179 and 180:
Appendix 10 Natural other Abamectin
Page 181 and 182:
Appendix 11. Invertebrate beneficia
Page 183 and 184:
Appendix 11 11.2. Invertebrate bioc
Page 185 and 186:
Appendix 11 Coccinella septempuncta
Page 187 and 188:
Appendix 11 Trichogramma brassicae
Page 189 and 190:
Page 191 and 192:
Page 193 and 194:
Appendix 11 Diglyphus isaea Digline
show all

Classical and augmentative biological control against ... - IOBC-WPRS

Create successful ePaper yourself

Delete template?

Save as template?