Head and leaf fungicide deposit on winter wheat, deoxynivalenol content and yield parameters as affected by different nozzle types

In 2014 and 2015, we studied the effect of fungicide spraying with 11 different nozzles on the quality and quantity of head and leaf fungicide deposit, the percentage of Fusarium head blight (FHB) incidence, FHB index, the DON content, yield and grain quality parameters. The best quality and quantity of fungicide deposit on the front and rear head sides was achieved with the TeeJet Turbo FloodJet TF VP2 nozzle (FLOOD) and the Albuz AVI-TWIN 110-03 nozzle (AVI). In comparison with the majority of treatments, the FHB incidence and the FHB index was the highest on the unsprayed control. The FHB index was higher using the Lechler IDK 120-03 nozzle (IDK) than with the other nozzle types. In all the treatments, the DON content in the grain was less than 50 μg/kg. At this very low level of infection this is not surprising. The grain yield was the smallest on the unsprayed control. Better fungicide coverage of wheat heads with the FLOOD and AVI nozzles did not result in a statistically higher yield or better grain quality parameters. Negative correlations were confirmed between yield and variables as DON content, FHB incidence and FHB index and also between falling number and variables as fungicide coverage, FHB incidence and FHB index. Positive correlations were determined between DON content and FHB incidence, between hectolitre weight and variables as spray deposit and coverage and between protein content and variables as spray deposit and coverage

Influence of soil amended with zeolite and/or mineral N on agronomic performance and soil mineral N dynamics in a soybean–winter triticale crop rotation field experiment

Although there are numerous studies describing the positive infuence of legumes as cereal pre-crops, little information exists on the specifc crop rotation soybean–triticale. Besides that, fertilization of soybean is very complex due to its symbiosis with rhizobia where mineral nitrogen could have negative efect, therefore new soil conditioners, e.g. zeolite, need to be examined. An investigation in growing seasons 2017 and 2017/2018 was established to study these knowledge gaps in a combined feld experiment, where soil mineral nitrogen (SMN) was also monitored. Firstly, the infuence of soybean seed bacterial inoculation (inoculated and non-inoculated seeds) as factor 1, and four fertilization treatments (1—no fertilizer, 2—600 kg zeolite/ha, 3—30 kg mineral N/ha (at sowing)+additional 70–90 kg/ha of mineral N, and 4—combination of treatments 2 and 3) as factor 2 on soybean yield performance and nutritional composition was evaluated. Neither factor infuenced soybean seed yield (average 3128 kg/ha). However, zeolite had favourable efect on root nodulation where the number of nodules and nodule dry mass per plant were signifcantly increased. Secondly, winter triticale was sown after soybean harvest on the same plots. Only 40 kg N was applied at BBCH 30 (beginning of stem elongation) to the whole experiment. Interaction of soybean experimental factors signifcantly infuenced the triticale grain yield. Finally, regression analysis revealed that triticale grain yield (average 5537 kg/ha) was highly dependent (R2=0.927) on initial SMN content, left after soybean harvest