Pavol Findura

Modeling Biometric Traits, Yield and Nutritional and Antioxidant Properties of Seeds of Three Soybean Cultivars Through the Application of Biostimulant Containing Seaweed and Amino Acids

In recent years, attempts have been made to use preparations that allow obtaining high and good quality yields, while reducing the application of pesticides and mineral fertilizers. These include biostimulants that are safe for the natural environment and contribute to the improvement of yield size and quality, especially after the occurrence of stressors. Their use is advisable in the case of crops sensitive to such biotic stress factors like low temperatures or drought. One of these is soybean which is a very important plant from the economic viewpoint. Field experiments were established in the years 2014-2016 in a random block design in four replicates on experimental plots of 10 m2. Three soybean cultivars: Annushka, Mavka, and Atlanta were planted in the third decade of April. Fylloton biostimulant was used at 0.7% or 1% concentrations as single spraying (BBCH 13-15) or double spraying (BBCH 13-15, BBCH 61) in the vegetation period. The number of seeds per 1 m2, seed yield, thousand seed weight, number of pods per plant, number of nodes in the main shoot, height of plants, and protein and fat contents in seeds were determined. The content of phenolic compounds, antioxidant capacity and antioxidant effect of soybean seeds were assayed as well. Foliar treatment of soybean with Fylloton stimulated the growth and yield of plants without compromising their nutritional and nutraceutical properties. The double application of the higher concentration of Fylloton was favorable for the plant height, seed number and soybean yield. Moreover, the highest number of pods was obtained after single treatment of plants with the lower biostimulant concentration. There was also a positive effect of using this biostimulant on the content and activity of some bioactive compounds, such as phenolics and flavonoids, and on the reducing power.

VYUŽITÍ TERÉNNÍHO RENTGENOFLUORESCENČNÍHO SPEKTROMETRU PRO ANALÝZU ORGANOMINERÁLNÍCH MATRICÍ

The portable X-ray-fluorescence analyzer (Innov-X Systems, Inc.) is routinely used as screening tool in geochemical and environmental mapping. The applicability in organomineral matrices was not tested yet. The biogas is produced from maize silage, grass silage, beef and pig manure and slurry, sewage sludge, organic wastes from food industries, organic household waste. As the main result the digestate (anaerobic digestion residues) is manufactured. The digestate is used as fertilizer and/or fuel. In the presented study the three reference materials and three samples of the digestate were analyzed 50 times each. RFA analytical conditions for reference material and samples: Innov-X Systems, Inc., Delta, time measurement: 1. beam: energy 1–40 kV, time 140 s.; 2. Beam: energy 2–10 kV, time 140 s., analytical mode: geochem2. Statistical evaluation of the data set allowed comparison among accuracy and reproducibility for organomineral matrices. The results are in good correlation with data from standard elemental analyses. The presented results has proved very good or satisfactory reproducibility for fourteen elements (Al, S, K, Ca, Mn, Fe, Cu, Zn, Sr, Zr, Mo, Ag, Pb, Th ). The results for three elements (Al, S, Fe) in digestates have high reproducibility, for the Ag, Mn, Mo, Sr, Zr, Th have good reproducibility. The portable XRF is suitable for the mineral fraction characterization in the agricultural materials such as composts, digestates and silages.