Alizadeh, H. 1995. Evaluation of the effect of some fungicides and antagonistic Trichoderma on the strawberry gray mold pathogen. M.Sc. thesis in plant pathology, College of Agriculture, University of Tehran. 117 pp.
Barka, E. A., Gognies, S., Nowak, J., Audran, J. & Belarbi, A. 2002. Inhibitory effect of endophyte bacteria on Botrytis cinerea and its influence to promote the grapevine growth. Biological Control. 24: 135-142.
Benitez, T., Delgado-Jarana, J., Rincon, A., Key, M. & Limon, M. C. 1998. Biofungicides: Trichoderma as a biocontrol agent against phytopathogenic fungi. Recent Research and Developments in Microbiology. 2: 129-150.
Benitez, T., Rincon, A. M., Limon, M. C. & Codon, A. C. 2004. Biocontrol mechanisms of Trichoderma strains. International Microbiology.7: 249-260.
Bell, D. K., Wells, H. D. & Markham, C. R. 1982. In vitro antagonism of Trichoderma species against six fungal plant pathogens. Phytopathology. 72: 379-382.
Bissett, J. 1991a. A revision of the genus Trichoderma. II. Infrageneric classification. Canadian Journal of Botany.69: 2357-2372.
Bissett, J. 1991b. A revision of the genus Trichoderma. III. Sect. Pachybasium. Canadian Journal of Botany.69: 2373-2417.
Bissett, J. 1992. Trichoderma atroviride. Canadian Journal of Botany.70: 639-641.
Boff, P., Köhl, J., Jansen, M., Horsten, P. J. F. M., Lombaers-van der Plas, C. & Gerlagh, M.2002. Biological control of gray mold with Ulocladium atrum in annual strawberry crops. Plant Disease. 86: 220-224.
Bulger, M. A., Ellis, M. A. & Madden, L. V. 1987. Influence of temperature and wetness duration on infection of strawberry flowers by Botrytis cinerea and disease incidence of fruit originating from infected flowers. Phytopathology. 77: 1225-1230.
Cook, R. J. & Baker, K. F. 1983. The nature and practice of biological control of plant pathogens. The APS, St. Paul, Minnesota.
Davet, P. & Rouxel, F. 2000. Detection and Isolation of Soil Fungi. Science Publishers, Inc, USA.
Dennis, C. & Webster, J. 1971. Antagonistic properties of species-groups of Trichoderma. II. Production of volatile antibiotics. Transactions of the British Mycological Society. 57: 41-48.
Elad, Y. & Stewart, A. 2004. Microbial control of Botrytis spp. pp 223-241. In: Elad, Y.; Williamson, B.; Tudzynski, P. & Delen, N. (eds.), Botrytis: Biology, Pathology and Control. Kluwer Academic Publishers, Netherlands.
Ellis, M. B. & Walker, J. M. 1974. Sclerotinia fuckelina (conidial state: Botrytiscinerea). CMI Descriptions of pathogenic fungi and bacteria. No. 431, CMI, Kew, Surrey, England.
Ercole, N. 1985. Biological control of gray mold of strawberry by application of Trichoderma viride. Review of Plant Pathology. 64: 4416-4422.
Druzhinina, I., Koptchinski, A., Komon, M., Bissett, J., Szakacs, G., & Kubicek, C.P. 2005. An oligonucleotide barcode for species identification in Trichoderma and Hypocrea. Fungal Genetics and Biology. 42: 813-828.
Feyzi, S., Amini, J., Mirzaii, S., & Roughanian, M. 2013. Evaluation of Trichoderma isolates for biological control of strawberry grey rot. Conference of Biological Control in Agriculture and Natural Resources, University of Tehran, 27-28 Aug., Karaj, Iran. 140.
Freeman, S., Minz, D., KolesnikBarbul, I., Zreibil, O., Maymon, A., Nitzani, M., Kirshner, Y., Rav-David, B., Bilu, D.A., Dag, A., Shafir, S. & Elad, Y. 2004. Trichoderma biocontrol of Colletotrichum acutatum and Botrytis cinerea, and survival in strawberry. European Journal of Plant Pathology. 110: 361- 370.
Gams, W. & Bissett, J. 1998. Morphology and Identification of Trichoderma. pp. 3–34. In: Kubicek, C. P. & Harman, G. E. (eds.), Trichoderma and Gliocladium. Vol. 1. Basic Biology, Taxonomy and Genetics. Taylor & Francis Ltd., London, p. 3-34.
Harman, G. E. 2006. Overview of mechanisms and uses of Trichoderma spp. Phytopathology. 96: 190-194.
Hjeljord, L. G., Stensvand, A. & Tronsmo, A. 2000. Effect of temperature and nutrient stress on the capacity of commercial Trichoderma products to control Botrytis cinereaand Mucor piriformis in greenhouse strawberries. Biological Control. 19: 149-160.
Hjeljord, L. G., Stensvand, A. & Tronsmo, A. 2001. Antagonism of nutrient-activated conidia of Trichoderma harzianum (atroviride) P1 against Botrytis cinerea. Phytopathology. 91: 1172-1180.
Howell, C. R. 2003. Mechanisms employed by Trichoderma species in the biological control of plant diseases: the history and evolution of current concepts. Plant Disease. 87: 4–10.
Köhl, J. & Schlosser, E. 1989. Decay of sclerotia of Botrytis cinerea by Trichoderma spp. at low temperature. Journal of Phytopathology. 125: 320- 326.
Kubicek, C. P., Bissett, J., Druzhinina, I., Kullnig-Gradinger, C. M. & Szakacs, G. 2003. Genetic and metabolic diversity of Trichoderma: a case study on South East Asian isolates. Fungal Genetics and Biology. 38: 310-319.
Li, G.Q., Huang, H. C., Acharya, S. N. & Erickson, R. S. 2004. Biological control of blossom blight of alfalfa caused by Botrytis cinerea under environmentally controlled and field conditions. Plant Disease. 88: 1246–1251.
MacKenzie, S. J., Xiao, C. L., Mertely, J. C., Chandler, C. K., Martin, F. G. & Legard, D. E. 2003. Uniformity of strawberry yield and incidence of Botrytis fruit rot in an annual production system. Plant Disease. 87: 991-998.
Mertely, J. C., MacKenzie, S. J. & Legard, D. E. 2002. Timing of fungicide applications for Botrytis cinerea based on development stage of strawberry flowers and fruit. Plant Disease.86: 1019-1024.
Mukherjee, P. K., Mukhopadhyay, A. N., Sarmah, D. K. & Shrestha, S. M. 1999. Comparative antagonistic properties of Gliocladium virens and Trichoderma harzianum on Sclerotium rolfsii and Rhizoctonia solani – its relevance to understanding the mechanisms of biocontrol. Journal of Phytopathology. 143: 275-279.
Naeimi, S., Okhovvat, S. M., Javan-Nikkhah, M., Kredics, L. & Khosravi, V. 2010. Frequency and distribution of Trichoderma spp. in the paddy rice fields of Mazandaran province, Iran. Iranian Journal of Plant Protection Science.40: 79-91. (In Persian with English summary).
Rosslenbroich, H. & Stuebler, D. 2000. Botrytis cinerea-history of chemical control and novel fungicides for its management. Crop Protection. 19: 557-561.
Samuels, G. J. 2006. Trichoderma: Systematics, the sexual state, and ecology. Phytopathology. 96: 195-206.
Sesan, T. E. & Podosu, A. 1992. Biocontrol of Botrytis cinerea on grapevine with Trichoderma spp. and Saccharomyces chevalieri. Bulletin of the Polish Academy of Science: Biological Science .
Sutton, J. C. 1994. Biological control of strawberry diseases. Advances in Strawberry Research.13: 1-12.
Sutton, J. C. 1995. Evaluation of microorganisms for biocontrol: Botrytis cinerea and strawberry, a case study. Advances in Plant Pathology 11: 173–190.
Sutton, J.C. & Peng, G.1993. Biocontrol of Botrytis cinerea in strawberry leaves. Phytopathology.83:615-621.
Tronsmo, A. & Dennis, C. 1977. The use of Trichoderma species to control strawberry fruit rots. Netherlands Journal of Plant Pathology. 83: 449-455.
Verma, M., Brar, S. K., Tyagi, R. D., Surampalli, R.Y. & Valero, J.R. 2007. Antagonistic fungi, Trichoderma spp.: Panoply of biological control. Biochemical Engineering Journal. 37: 1–20.
Wilcox, W. F. & Seem, R. C. 1994. Relationship between strawberry gray mold incidence, environmental variables, and fungicide applications during different periods of the fruiting season. Phytopathology. 84: 264-270.
Wszelaki, A. L. & Mitcham, E. J. 2003. Effect of combinations of hot water dips, biological control and controlled atmospheres for control of gray mold on harvested strawberries. Postharvest Biology and Technology.27: 255-264.
Zafari, D., Ershad, D., Zare, R. & Alizadeh, A. 2002. A contribution to the identification of Trichoderma species in Iran. Iranian Journal of Plant Pathology.38: 21-45. (In Persian with English summary).