Erasmus A., Lennox C.L., Korsten L., Lesar K., Fourie P.H.
Citrus Research International, 2 Baker Street, Nelspruit, South Africa; Department of Plant Pathology, University Stellenbosch, Stellenbosch, South Africa; Department of Microbiology and Plant Pathology, University Pretoria, Pretoria, South Africa
Erasmus, A., Citrus Research International, 2 Baker Street, Nelspruit, South Africa; Lennox, C.L., Department of Plant Pathology, University Stellenbosch, Stellenbosch, South Africa; Korsten, L., Department of Microbiology and Plant Pathology, University Pretoria, Pretoria, South Africa; Lesar, K., Citrus Research International, 2 Baker Street, Nelspruit, South Africa; Fourie, P.H., Citrus Research International, 2 Baker Street, Nelspruit, South Africa, Department of Plant Pathology, University Stellenbosch, Stellenbosch, South Africa
Citrus green and blue mould, caused by Penicillium digitatum (PD) and Penicillium italicum (PI), respectively, are mostly controlled by means of postharvest fungicide applications. Currently, IMZ is regarded as the most effective fungicide in use. Effective IMZ concentrations that inhibit 50% (EC<inf>50</inf>) growth of nine PD and five PI isolates were assessed in vitro and the various isolates categorized according to their resistance (R) factors. Effective residue levels that provided 50% curative (ER<inf>50</inf>C) and protective (ER<inf>50</inf>P) control of these isolates were determined in vivo. All the PI isolates were sensitive, having EC<inf>50</inf> values of 0.005-0.050μgmL-1. Three PD isolates were sensitive (0.027-0.038μgmL-1), while one resistant isolate was categorized as low resistant (R-factor of 19), one as moderately resistant (R-factor of 33.2), three as resistant (R-factor of 50-57.6) and one as highly resistant (R-factor of 70.7). Sensitive PD isolates had mean ER<inf>50</inf>C and ER<inf>50</inf>P values on Valencia orange fruit of 0.29 and 0.20μgg-1, and 0.33 and 0.32μgg-1 on navel fruit, respectively. ER<inf>50</inf> values for resistant isolates did not always correlate with EC<inf>50</inf> values and ranged from 1.22 to 4.56μgg-1 for ER<inf>50</inf>C and 1.00-6.62μgg-1 for ER<inf>50</inf>P values. ER<inf>50</inf>P values for resistant isolates could not be obtained on navel orange fruit, but ER<inf>50</inf>C values (1.42-1.65μgg-1) were similar to those obtained on Valencia fruit. The PI isolates all behaved similar to the sensitive PD isolates with ER<inf>50</inf>C and ER<inf>50</inf>P values on navel and Valencia fruit <0.38μgg-1. Alternative fungicides were assessed for the control of an IMZ sensitive, resistant and highly resistant PD isolate; these included sodium ortho-phenylpenate (SOPP), thiabendazole (TBZ), guazatine (GZT), imazalil (IMZ), pyrimethanil (PYR) and Philabuster® (PLB; a combination of IMZ and PYR), fludioxonil (FLU), azoxystrobin (AZO), Graduate®A+ (GRA; a combination of FLU and AZO) and propiconazole (PPZ). Multiple fungicide resistance was shown to IMZ, GZT, TBZ and PPZ in both resistant isolates. For the sensitive isolates, IMZ, SOPP, TBZ, GZT and PLB provided best curative control, while IMZ, GZT and PLB provided best protective control. For the IMZ-resistant isolates, SOPP, PYR and PLB gave the best curative control, while none of the fungicides provided adequate protective control. © 2015 Elsevier B.V.