Subscribe Now Subscribe Today
Research Article

Retracted: Response of Colletotrichum coccodes to QoI Fungicide in vitro

Abdullah M. Aqeel
Facebook Twitter Digg Reddit Linkedin StumbleUpon E-mail


Related Articles in ASCI
Similar Articles in this Journal
Search in Google Scholar
View Citation
Report Citation

  How to cite this article:

Abdullah M. Aqeel , 2007. Retracted: Response of Colletotrichum coccodes to QoI Fungicide in vitro. Plant Pathology Journal, 6: 283-290.

DOI: 10.3923/ppj.2007.283.290


1:  Andrivon, D., J.M. Lucas, C. Guerin and B. Jouan, 1998. Colonization of roots, stolons, tubers and stems of various potato (Solanum tuberosum) cultivars by black dot fungus Colletotrichum coccodes. Plant Pathol., 47: 440-445.
Direct Link  |  

2:  Anke, T., 1995. The antifungal strobilurins and their possible ecological role. Can. J. Bot., 73: S940-945.
Direct Link  |  

3:  Avila-Adame, C., G. Olaya and W. Koller, 2003. Characterization of Colletotrichum graminicola isolates resistant to strobilurin-related QoI fungicide. Plant Dis., 87: 1426-1432.
CrossRef  |  Direct Link  |  

4:  Barkdoll, A.W. and J.R. Davis, 1992. Distribution of Colletotrichum coccodes in Idaho and variation in pathogenicity on potato. Plant Dis., 76: 131-135.
Direct Link  |  

5:  Bartlett, D.W., J.M. Clough, J.R. Godwin, A.A. Hall, M. Hamer and B. Parr-Dobrzanski, 2002. The strobilurin fungicides. Pest Manage. Sci., 58: 649-662.
CrossRef  |  Direct Link  |  

6:  Denner, F.D.N., C.P. Millard and F.C. Wehner, 2000. Effect of soil solarization and mouldboard ploughing on black dot of potato, caused by Colletotrichum coccodes. Potato Res., 43: 195-201.
CrossRef  |  Direct Link  |  

7:  Dickson, B.T., 1926. The black dot disease of potato. Phytopathology, 16: 23-40.

8:  Dillard, H.R., 1988. Influence of temperature, pH, osmotic potential and fungicide sensitivity on germination of conidia and growth from sclerotia Colletotrichum coccodes in vitro. Phytopathol., 78: 1357-1361.

9:  Dillard, H.R. 1992. Colletotrichum coccodes: The Pathogen and its Hosts. In: Colletotrichum: Biology, Pathology and Control 1992. Bailey J.A. and M.J. Jeger (Eds.). CAB International, Wallingford, UK., pp: 225-239.

10:  Eberlein, C.V., A.W. Barkdoll and J.R. Davis, 1991. Pathogenicity of Colletotrichum coccodes isolates to potato (Solanum tuberosum) and two nightshade (Solanum sp.) species. Weed Technol., 5: 570-574.

11:  Farley, J.D., 1972. A selective medium for assay of Colletotrichum coccodes in soil. Phytopathology, 62: 1288-1293.

12:  Franke, M.D., T.B. Brenneman, K.L. Stevenson and G.B. Padgett, 1998. Sensitivity of isolates of Sclerotium rolfsii from peanut in Georgia to selected fungicide. Plant Dis., 82: 578-583.
Direct Link  |  

13:  Glais-Varlet, I., K. Bouchek-Mechiche and D. Andrivon, 2004. Growth in vitro and infectivity of Colletotrichum coccodes on potato tubers at different temperature. Plant Pathol., 53: 398-404.

14:  Gold, R.E., E. Ammerman, H. Koehl, G.M. Leinhos and G. Lorenz et al., 1996. The Synthetic Strobilurin BSF 490 F: Profile of a Modern Fungicide. In: Modern Fungicide and Antifungal Compounds. Lyr, H., P.E. Russel and H.D. Sisler (Eds.). Intercept. Andover, Hants, UK., pp: 79-92.

15:  Gutierrez-Chapin, L.J., Y. Wang, E. Lutton and B.B. McSpadden-Gardener, 2006. Distribution and fungicide sensitivity of fungal pathogens causing anthracnose-like lesions on tomatoes grown in ohio. Plant Dis., 90: 397-403.
Direct Link  |  

16:  Heilmann, L.J., N. Nitzan, D.A. Johnson, J.S. Pasche, C. Doetkott and N.C. Gudmestad, 2006. Genetic variability in the potato pathogen Colletotrichum coccodes as determined by amplified fragment length polymorphism and vegetative compatibility group analyses. Phytopathol., 96: 1097-1107.
Direct Link  |  

17:  Johnson, D.A., 1994. Effect of foliar infection caused by Colletotrichum coccodes on yield of Russett Burbank potato. Plant Dis., 78: 1075-1078.
Direct Link  |  

18:  Koller, W., D.M. Parker, W.W. Turecheck, C. Avila-Adame and K. Cronshaw, 2004. A two phase resistance response of Venturia inaequalis population to the QoI fungicide kresoxim-methyl and trifloxystrobin. Plant Dis., 88: 537-544.
Direct Link  |  

19:  Leslie, J.F., 1993. Fungal vegetative compatibility. Ann. Rev. Phytopathol., 31: 127-150.
CrossRef  |  Direct Link  |  

20:  Mondal, S.N., A. Bhatia, T. Shilts and L.W. Timmer, 2005. Baseline sensitivities of fungal pathogens of fruit and foliage of citrus to azoxystrobin, pyraclostrobin and fenbuconazole. Plant Dis., 89: 1186-1194.
Direct Link  |  

21:  Miller, P.M., 1955. V8 juice agar as a general purpose medium for fungi and bacteria. Phytopathol., 45: 461-462.

22:  Nitzan, N., M. Hazanovsky, M. Tal and L.T. Lahkim, 2002. Vegetative compatibility groups in Colletotrichum coccodes, the causal agent of black dot on potato. Phytopathol., 92: 827-832.
Direct Link  |  

23:  Nitzan, N. and L. Tsror, 2003. Effect of temperature and pH on in vitro growth rate and sclerotial density of Colletotrichum coccodes isolates from different VCGs. Am. J. Potato Res., 80: 335-339.
CrossRef  |  Direct Link  |  

24:  Nitzan, N., T.F. Cummings and D.A. Johnson, 2005. Effect of seed-tuber generation, soilborne inoculum and azoxystrobin application on development of potato black dot caused by Colletotrichum coccodes. Plant Dis., 89: 1181-1185.
CrossRef  |  Direct Link  |  

25:  Nitzan, N., L. Tsror (Lahkim) and D.A. Johnson, 2006. Vegetative compatibility groups and aggressiveness of North American isolates of Colletotrichum coccodes, the causal agent of potato black dot. Plant Dis., 90: 1287-1292.
Direct Link  |  

26:  Nitzan, N., M. Evans and D.A. Johnson, 2006. Colonization of potato plants after aerial infection by Colletotrichum coccodes, the causal agent of potato black dot. Plant Dis., 90: 999-1003.
CrossRef  |  Direct Link  |  

27:  Pasche, J.S., C.M. Wharam and N.C. Gudmestad, 2004. Shift in sensitivity of Alternaria solani in response to QoI fungicides. Plant Dis., 88: 181-187.
Direct Link  |  

28:  Olaya, G. and W. Koller, 1999. Baseline sensitivity of Venturia inaequalis populations to the strobilurin fungicide kresoxim-methyl. Plant Dis., 83: 274-278.
Direct Link  |  

29:  Pasche, J.S., L.M. Piche and N.C. Gudmestad, 2005. Effect of the F129L mutation in Alternaria solani on fungicides affecting mitochondrial respiration. Plant Dis., 89: 269-278.
Direct Link  |  

30:  Read, P.J. and G.A. Hide, 1995. Effect of fungicides on the growth and coidial germination of Colletotrichum coccodes and on the development of black dot disease of potatoes. Ann. Applied Biol., 126: 437-447.

31:  Reuveni, M. and D. Sheglov, 2002. Effects of azoxystrobin, difenoconazole, polyxin B (polar) and trifloxystrobin on germination and growth of Alternaria alternate and decay in red delicious apple fruit. Crop Prot., 21: 951-955.
CrossRef  |  Direct Link  |  

32:  Sierotzki, H., S. Parisi, U. Steinfeld, I. Tenzer, S. Poirey and U. Gisi, 2000. Mode of resistance to respiration inhibitors at the cytochrome bc1 complex of Mycosphaella fijiensis field isolates. Pest Manage. Sci., 56: 833-841.

33:  Smith, D., 2005. Maintenance of Fungi. In: Maintenance of Microorganisms. Kirsop, B.E. and J.J.S. Snell (Eds.). Academic Press, London, pp: 83-107.

34:  Stein, J.M. and W.W. Kirk, 2004. The generation and quantification of resistance to dimethomorph in Phytophthora infestans. Plant Dis., 88: 930-934.
Direct Link  |  

35:  Tsror Lahkim, L., O. Erlich, M. Hazanovsky and I. Peretz, 1994. Colletotrichum on potato in Israel, is it a new disease?. Phytoparasitica, 22: 88-88.

36:  Tsror Lahkim, L. and D.A. Johnson, 2000. Colletotrichum coccodes on Potato. In: Colletotrichum-Host Specificity, Pathology and Host-Pathogen Interaction. Prusky, D., S. Freeman and M.B. Dickman (Eds.). Am. Phytopathol. Soc. APS Press, St. Paul, MN., pp: 362-373.

37:  Uribe, E. and R. Loria, 1994. Response of Collotetrichium coccodes to fungicides in vitro. Am. Potato J., 71: 455-465.
Direct Link  |  

38:  Wong, F.P. and W.F. Wilcox, 2002. Sensitivity to azoxystrobin among isolates of Uncinula necator: Baseline distribution and relationship to myclobtanil sensitivity. Plant Dis., 86: 394-404.
CrossRef  |  Direct Link  |  

39:  Wood, P.M. and D.W. Hollomon, 2003. A critical evaluation of the role of alternative oxidase in the performance of strobilurin and related fungicides acting at the Qo site of complex III. Pest Manage. Sci., 59: 499-511.
PubMed  |  Direct Link  |  

40:  Ypema, H.L. and R.E. Gold, 1999. Kresoxim-methyl: Modification of a naturally occurring compound to produce a new fungicide. Plant Dis., 83: 4-19.

©  2020 Science Alert. All Rights Reserved