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• Impact of land use practices on the ecological nitrogen balance indicators of extensive grassland vegetation

  127-143

  Krisztina Varga

  istván Csízi

  Views:

  17

  The effects of different grassland management practices on plant stand structure were investigated in an experiment at the Karcag Research Institute in 2017–2020, which was set up in 2009. The experimental grassland must comply with Natura 2000, the standards for organic grassland certification and the requirements of the horizontal agri-environmental programme. Support schemes that prioritise ecological considerations predispose to different grassland use patterns in a given grassland production area, a fact that justifies the relevance of this research. The specific objective of this research is to clarify the changes in vegetation structure under the most common grassland management practices in the Central Tisza landscape, based on Borhidi’s N balance, an ecological indicator for the meadow Solonetzic soil type typical of the region. In the experimental site with the medium meadow solonetzic soil type, the following grassland utilisation types were investigated in three replications: zero utilisation, i.e. fallow grassland, mulched grassland, where the phytomass was also not removed after stubble mowing, mowing, which meant removing the main crop once a year, and meadow utilisation, where the grass was grazed by sheep after mowing the main crop. In May of each year, a cenological survey was carried out at the time of flowering of the dominant grassland species and the plant species were classified according to Borhidi's ecological nitrogen balance. The highest grouse diversity was found in meadow grassland, 21 plant species, and the lowest in fallow grassland, 6 species. The obtained result may indicate the effect of the open layer of the unutilised phytomass in generating plant species selection in the plants forming the grassland association. It was found that, by the tenth year of the experiment, a change of control plants occurred in treatments representing mulched and meadow utilisation. The change of Festuca pseudovina to a dominant grassland component in the meadow use suggests grazing of the swards at low stubble height. Despite the accumulation of leafy phytomass, the highest coverage of nitrogen-preferring grassland constituents was not in the zero and mulched treatments left unused, but in the mowing treatments. The obtained result may suggest that Alopecurus pratensis, maintaining its position as a leader plant under mowing and being classified as a Borhidi indicator plant for nutrient-rich sites, determined the outcome. In order to clarify the reproducibility of the experimental results, due to the different soil conditions, it may be justified to carry out studies with a similar orientation in other sites and grassland associations.

• Impact of different tillage systems on the yield parameters, protein, carbohydrate and oil content of different genotypes of maize (Zea mays L.) hybrids

  37-57

  István Kecskés

  Antal Nagy

  István Sojnóczki

  János Nagy

  Views:

  39

  The aim of our research is to investigate the effect of different tillage systems on maize parameters (yield, grain moisture content at harvest) and on the nutritional value parameters (starch, protein, oil content). The ploughing primary tillage of maize was compared with the tillage practices (disc tillage, straight knife tillage, strip tillage) that are beneficial for soil structure conservation. The study was carried out in two different crop years with two different rainfall distributions, 2020 and 2021, on mid-heavy meadow chernozem soil in the outskirts of Nádudvar, in a mesoparcel experiment with three hybrids of different maturity (FAO 380, FAO 420, FAO 490).
  In 2020, pre-sowing rainfall was low in March and April, only 23% and 39% of the multi-year average, which did not favour spring-sown crops, including maize. In June and July, on the other hand, rainfall was 256% and 217% of the multi-year average. In April, only 52% of the multi-year average fell, while in May it was 144% of the multi-year average. The year as a whole was extremely dry compared to the multi-year average, especially in June and July, when rainfall was only 14% and 69% of the multi-year average, respectively.
  The impact of the tillage method on yields was significant in both examined years. In 2020, the yield of ploughing (15.84 t ha-1) was higher than both strip and conservation tillage. In 2021, ploughing was also the highest (5.46 t ha-1), higher than all other tillage methods, but 10.37 t ha-1 lower than in 2020.
  In 2020 and 2021, the ranking of hybrids by yield was different. The best yield in 2020 was achieved by the FAO 490 hybrid (16.18 t ha-1), significantly higher than the other two hybrids. In the dry season, the FAO 420 hybrid was able to achieve the highest yield (4.33 t ha-1). Content value analysis of maize grains showed different results in the two crop years. In 2020, the oil content was significantly higher in the reduced tillage of the four tillage methods, with no real difference in the other methods. The analysis of starch content showed no significant difference between ploughing, conservation tillage and strip tillage, and no measurable difference between reduced and strip tillage. The protein content in 2021 showed a difference, with ploughing and conservation tillage demonstrably lower than reduced tillage. Compared to 2020, protein content increased from 6% to 8% in 2021. There was also a significant difference in starch content, with 66% in 2020 and 62% in 2021.