Abstract

 Cyclic hydroxamic acids are the most considerable secondary metabolites in grasses and their main task is to protect these species from pathogens and pests. The cyclic hydroxamic acid content and common smut susceptibility were examined in our experiments. 27 maize hybrids were used for experimental plants in a climate room, where the plants were grown on a nutrient solution. An infiltration method was used for the inoculation of the plants. The total quantity of cyclic hydroxamic acids was determined and the ratio of infected plants and the ratio of inhibition was determined, too. Based on our results, on the basis of all hybrids’ data, the total hydroxamic acid content of the infected plants was higher than in the control. On the level of individual hybrids, only 9 of them had higher cyclic hydroxamic acid content in the case of infection. Increase in cyclic hydroxamic content induced by the fungus in this case is a tool for the fungus to suppress other pathogens and pests. Amongst the hybrids’ cyclic hydroxamic acid contents, significant differences were detected in the control and in the infected treatment, too. The so-called “sweetcorn” hybrids showed high level of cyclic hydroxamic acid content. According to the differences amongst hybrids, homogenous groups were created which groups differed in the case of control and infected treatment, because of the difference in increase of cyclic hydroxamic acid content. The examined hybrids showed different levels of infection and different rate of growth inhibition for the effect of inoculation. According to the infection caused damage hybrids were ranked. Infection caused notable damage for hybrids Prelude, Desszert 73, DKC5276 and DK440.
Highlights
In addition to chemical plant protection, which means the usage of pesticides, there are several possibilities for reducing the damage caused by pathogens and pests
Chemicals produced by the crop plants themselves can protect these plants properly. These chemicals or their analogues are nowadays used in the chemical plant protection too
In case of other examined hybrids, there was no difference between the control and infected plants’ hydroxamic acid content (Table 1)
Summary
In addition to chemical plant protection, which means the usage of pesticides, there are several possibilities for reducing the damage caused by pathogens and pests. Elements of IPM are: proper choice of agricultural land for a given crop; good agricultural practices, fit to the demand of this crop; breeding work for preventing against abiotic and biotic stress factors; application of the natural enemies; sustaining the enemies natural habitats or applying artificial devices for the enemies’ survive; mechanical plant protection (e.g. land cultivation); on small areas producing companion crops beneficial for each other. There are great reserves in the choice of variety/hybrid holding resistance/tolerance and suitability for producing on the given land. For selecting and improving new varieties/hybrids it is necessary to reveal the factors of resistance, the chemical, morphological and ontogenetical properties, which influence the colonization and harmfulness of pathogens and pests. Chemicals produced by the crop plants themselves can protect these plants properly. These chemicals or their analogues are nowadays used in the chemical plant protection too
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
