1Garibaldi A.First report of botrytis blight caused by Botrytis cinerea on Chamelaucium uncinatum in Italy[J].Plant Disease,2009,93 (9):968-968.
2Zhang M,Tsukiboshi T,Okabe I.First report of Botrytis cinerea causing leaf spot of Aquilegia vulgaris in Japan[J].Plant Disease,2009,93 (4):425-425.
3Oliveira M,Guerner M J,Mesquita M M,et al.Important phytopathogenic airborne fungal spores in a rural area:incidence of Botrytis Cinerea and Oidium Spp[J].Annals of Agricultural and Environmental Medicine,2009,16 (2):197-204.
4Long C A,Yuan G.Kloeckera apiculata strain (34-9) to control Botrytis cinerea during the pre-and postharvest handling of strawberries[J].Annals of Microbiology,2009,59 (1):77-81.
5Morandi M A B,Mattos L P V,Santos E R,et al.Influence of application time on the establishment,survival,and ability of Clonostachys rosea to suppress Botrytis cinerea sporulation on rose debris[J].Crop Protection,2008,27 (1):77-83.
6Chen S C,Liu A R,Wang F H,et al.Combined overexpression of chitinase and defensin genesin transgenic tomato enhances resistance to Botrytis cinerea[J].African Journal of Biotechnology,2009,8 (20):5182-5188.
7Jeon E H,Chung E S,Lee H Y,et al.Ectopic expression of wild rice OgGRP gene encoding a glycine rich cell wall protein confers resistance to Botrytis cinerea pathogen on Arabidopsis[J].Plant Pathology Journal,2009,25 (2):193-198.
8Mercier J,Kong M,Cook F.Prevalence of fungicide resistance in Botrytis cinerea isolates from strawberry fields in California[J].Phytopathology,2009,99 (6):84-84.
9Rosslenbroich H J,Stuebler D.Botrytis cinerea-history of chemical control and novel fungicides for its management[J].Crop Protection,2000,19 (8-10):557-561.
10Drobya S,Wisniewski M,Macarisinb D,et al.Twenty years of postharvest biocontrol research:Is it time for a new paradigm[J].Postharvest Biology and Technology,2009,52:137-145.
二级参考文献15
1沈寅初 张一宾.生物农药[M].北京:化学工业出版社,2001.34-55.
2Collado IG; HernandezGalan R, Prieto V, et al. Biologically active scsquiterpenoid metabolites from the fungus Botrytis cinerea. Phytochemistry, 1996, 41(2): 513-517.
3Collado IG, Aleu J, Hernandez-Galan R, et al. Botrytis species: An intriguing source of metabolites with a wide range of biological activities, structure, chemistry and bioactivity of metabolites isolated from Botrytls species. Current Organic Chemistry, 2000, 4: 1261-1286.
4Duraa-Patron R, Hernandez-Galan R, Collado IG. Secobotrytriendiol and related sesquiterpenoids, new phytotoxic metabolites from Botrytis cinerea. Journal of Natural Products, 2000, 63: 182-184.
5Deighton N, Muckenschnabel I, Colmenares A J, et al. Botrydial is produced in plant tissues infected by Botrytis cinerea. Phytochemistry, 2001, 57(5): 689-692.
6Strobel G, Kenfield D. Phytotoxins as potential herbicides.Experientia, 1991, 47: 819-826.
7White GA, Starratt AW. The production of a phytotoxic substance by Alternaria zinniae. Canadian Journal Botany, 1967, 45: 2087-2090.
8Thuleau P, Graziana A, Rossigo M, et al. Binding of the phytotoxin zinnol stimulates the entry of calcium into plant protoplasts. Proc. Natl. Acad. Sci. U.S.A, 1988, 85: 5932-5935.
9Ohra J, Morita K. Production of the phytotoxic metabolite, ferricrocin, by the fungus Colletotrichum gloeosporioides. Biosci. Biotech. Biochem, 1995, 59(1): 113-114.
10Vurro M, Evidente A. Brefeldin and α,β-dehydroeurvularin, two phytotoxin from Alternaria zinniae, a biolocontrol agent of xanthium occidental. Plant Science, 1998, 138:67-69
