Abstract
The effectiveness ofTrichoderma harzianum in suppression of tomato stem rot caused byBotrytis cinerea was examined on tomato stem pieces and on whole plants. Ten days after simultanous inoculation withB. cinerea andT. harzianum, the incidence of infected stem pieces was reduced by 62–84%, the severity of infection by 68–71% and the intensity of sporulation by 87%. Seventeen days after inoculation of wounds on whole plants, the incidence of stem rot was reduced by 50 and 33% at 15 and 26 °C, respectively, and the incidence of rot at leaf scar sites on the main stem was reduced by 60 and 50%, respectively. Simultanous inoculation and pre-inoculation withT. harzianum gave good control ofB. cinerea (50 and 90% disease reduction, 10 days after inoculation). The rate of rotting was not reduced by the biocontrol agent once infection was established. However, sporulation byB. cinerea was specifically reduced on these rotting stem pieces. Temperature had a greater effect than vapour pressure deficit (VPD) on the efficacy of biocontrol. Suppression ofB. cinerea incidence byT. harzianum on stem pieces was significant at 10 °C and higher temperatures up to 26 °C. Control of infection was significantly lower at a VPD of 1.3 kPa (60% reduction), than at VPD<1.06 kPa (90–100% control). Reductions in the severity of stem rotting and the sporulation intensity of grey mould were generally not affected by VPD in the range 0.59–1.06 kPa. Survival ofT. harzianum on stems was affected by both temperature and VPD and was greatest at 10 °C at a low VPD and at 26 ° C at a high VPD.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bhatt DD and Vaughan EK (1962) Preliminary investigations on biological control of grey mould (Botrytis cinerea) of strawberries. Plant Dis Reptr 46: 342–345
Blakeman JP and Fokkema NJ (1982) Potential for biological control of plant diseases on the phylloplane. Annu Rev Phytopathol 20: 167–192
Dik AJ, Köhl J, Fokkema NJ, Elad Y and Shtienberg D (1995) Biological control ofBotrytis cinerea in cucumber and tomato. Abstracts of XIII International Plant Protection Congress, Den Hague. Eur J Plant Pathol. No. 587
Dubos B (1984) Biocontrol ofBotrytis on grapevines by an antagonistic strains ofTrichoderma harzianum. In: Klug MJ and Reddy CA (eds) Current Perspectives in Microbial Ecology (pp. 370–373) Elsevier Science Publishers BV, Amsterdam
Elad Y (1988) Ultrastructural scanning electron microscopy study of parasitism ofBotrytis cinerea on flowers and fruit of cucumber. Trans Brit mycol Soc 97: 185–190
Elad Y (1992) Reduced sensitivity ofBotrytis cinerea to two sterol bio-synthesis inhibitory fungicides: fenetrazole and fenethanil. Plant Pathol 41: 47–54
Elad Y, Gullino LM, Shtienberg D and Aloi C (1994a) Coping with tomato grey mould under mediterranean conditions. Crop Prot. 14: 105–109
Elad Y and Kirshner B (1993) Survival in the phylloplane of an introduced biocontrol agent (Trichoderma harzianum) and populations of the biocontrol agentBotrytis cinerea as modified by abiotic conditions. Phytoparasitica 21: 203–213
Elad Y, Köhl J and Fokkema N (1994b) Control of infection and sporulation ofBotrytis cinerea on bean and tomato by saprophytic bacteria and fungi. Europ J Plant Pathol 100: 315–336
Elad Y, Malathrakis NE and Dik AJ (1996) Biological control of Botrytis incited diseases and powdery mildews in greenhouse crops. Crop Prot 15: 229–240
Elad Y and Shtienberg D (1995)Botrytis cinerea in greenhouse vegetables; chemical, cultural, physiological and biological controls and their integration. Integ Pest Manag Rev 1: 15–29
Elad Y, Yunis H and Katan T (1992) Multiple resistance to benzimidazoles, dicarboximides and diethofencarb in field isolates ofBotrytis cinerea in Israel. Plant Pathol 41: 41–46
Elad Y, Zimand G, Zaqs Y, Zuriel S and Chet I (1993) Use ofTrichoderma harzianum in combination or alternation with fungicides to control cucumber grey mould (Botrytis cinerea) under commercial greenhouse conditions. Plant Pathol 42: 324–332
Köhl J, Molhoek WML, Van der Plas CH, Kessel GJT and Fokkema NJ (1992) Biological control ofBotrytis leaf blight in onions: Significance of sporulation suppression. In: Verhoeff K Malathrakis NE and Williamson B (eds) Recent Advances inBotrytis Research (pp. 192–196) Pudoc Sci. Pub., Wageningen, the Netherlands
Mercier J and Wilson CL (1995) Effect of wound moisture on biocontrol byCandida oleophila of gray mold rot (Botrytis cinerea) of apple. Postharvest Biol Technol 6: 1–2
Morgan WM (1984) The effect of night temperature and glasshouse ventilation on the incidence ofBotrytis cinerea in a late planted tomato crop. Crop Prot 3: 243–251
Nicot PC, Zimmer N, Jacques M-A and Morris CE (1994) Effect of nutrient amendments on the protection of pruning wounds on tomatoes againstBotrytis cinerea by bacterial antagonists. Mol Ecol 3: 611
O'Neill TM (1994) Resurgence of tomato stem botrytis. Grower, July 21: 54–55
Redmond JC Marois JJ and MacDonald JD (1987) Biological control ofBotrytis cinerea with epiphytic microorganisms. Plant Dis 71: 799–802
Sutton JC and Peng G (1993) Biocontrol ofBotrytis cinerea in strawberry leaves. Phytopathology 83: 615–621
Tronsmo A and Dennis C (1977) The use ofTrichoderma species to control strawberry fruit rots. Neth J Plant Pathol 83 (Suppl. 1): 449–455
Tronsmo A and Ystaas J (1980) Biological controlof Botrytis cinerea on apple. Plant Dis 64: 1009–1011
Verhoeff, K (1968) Effect of soil nitrogen level and methods of deleaftng upon the occurrence ofBotrytis cinerea under commercial conditions. Neth J Plant Pathol 74: 184–194
Winspear KW, Postlethwaite JD and Cotton RF (1970) The restriction ofCladosporium fulvum andBotrytis cinerea, attacking greenhouse tomatoes, by automatic humidity control. Ann Applied Biol 65: 75–83
Winston PW, Bates DH (1960) Saturated solutions for the control of humidity in biological research. Ecology 41: 232–237
Yunis H, Elad Y and Mahrer Y (1991) Influence of fungicidal control of cucumber and tomato grey mould (Botrytis cinerea) on fruit yield. Pestic Sci 31: 325–335
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
O'Neill, T.M., Niv, A., Elad, Y. et al. Biological control ofBotrytis cinerea on tomato stem wounds withTrichoderma harzianum . Eur J Plant Pathol 102, 635–643 (1996). https://doi.org/10.1007/BF01877244
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01877244