Penetration of Rhizopus stolonifer on uninjured peaches and spatio-temporal progress of Soft Rot

Soft Rot, caused by Rhizopus stolonifer, is one of the main postharvest diseases on peaches. The pathogen development is prejudicial to the stone fruit commercialization in wholesale and retail markets and the disease can cause reduction in the price of peaches, being one of the main causes of fruit rejection. The pathogen has been responsible for causing rots in other types of fruit and vegetables, with similar level of losses. The disease is related to the occurrence of mechanical and physical damages and the presence of injuries on the fruit surface contributes to the infection by Rhizopus, which is known as a strictly wound parasite. Few studies have investigated the mechanisms of the pathogen penetration in peaches. Some have concluded that the fungus does not produce enzymes that assist in the direct penetration of fruit. However, observations of disease occurrence on apparently uninjured peaches suggest that direct penetration can occur. Careful management to avoid injuries on the fruit is the most important disease control measure. The objective of this research was to evaluate the penetration mechanisms of R. stolonifer on injured or uninjured peaches and characterize the spatio-temporal progress of Soft Rot on these fruit. To determine the esterase enzymes activity, produced by the pathogen, micelial discs and spore suspensions of R. stolonifer on water or nutrient solution in different incubation periods (0, 4 and 8 hours) were added to indoxyl acetate solution, to observe the presence of crystals of indigo blue color. The treatments with micelial discs or spore suspensions on nutrient solution, after 8 hours of incubation, showed darker shade of blue, because of the production of crystals from the reaction between the esterase enzymes and the indoxyl acetate. Spectrophotometer evaluations were carried out to determine the amount of enzymes produced by R. stolonifer when it was grown on culture media with glucose or cutin, as sole carbon sources. The pathogen was able to grow on both media and higher esterase activity was observed when the fungus was grown on cutin media. Diisopropyl fluorophosphate solution, a cutinase inhibitor, was placed over the fruit and prevented Soft Rot development on peaches inoculated with the fungus spore suspension on nutrient solution. Injured or uninjured peaches were inoculated with R. stolonifer spore suspensions on water or nutrient solution to study the spatiotemporal progress of Soft Rot. Healthy fruit placed next to artificially inoculated peaches showed symptoms of the disease, which has spread with the same rate of progress in all treatments. The infectious process of R. stolonifer on peaches and nectarines was also studied on optic and scanning electron microscopy and direct penetration of intact tissues by the fungus was observed. The results of this work showed that R. stolonifer is capable of direct penetration on uninjured peaches by spores germinated on external nutrient support and by micelial stolons. These structures produce esterase enzymes, especially cutinase, that help in the infectious process. (AU)