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  • Evaluation of smart parameters based on results from maize (Zea mays L.) hybrids of different genotypes
    5-28
    Views:
    43
    In Hungary, the efficiency of arable crop production is significantly determined by the quality of maize production practices. The comparative study of maize hybrids and the establishment of a field trial was initiated in 1977 by the KITE in Nádudvar at the Faculty of Agricultural Sciences of the predecessor University of Agricultural Sciences in Debrecen. This is also the reason why the University of Debrecen, in a unique way in Europe, has all the conditions for field experiments (tillage × irrigation × fertilisation × plant number × hybrids × sowing date interactions) at its Látókép Experiment Site. The results of field experiments are suitable for the state-of-the-art development of precision farming technologies. The new scientific findings, in particular the reliable parameters measured in comparative experiments on maize hybrids, will serve the practical application and effectiveness of precision farming.
    Using the results of field experiments, we evaluated the smart parameters of four maize hybrids of different genotypes. These parameters help in hybrid selection and adaptation of hybrid-specific precision farming technology. The examined maize hybrids showed excellent phenological traits, i.e. plant height: 320–340 cm, ear height: 138–151 cm, stalk diameter: 20.5–21.5 mm. Leaf area indices varied significantly (3.6–4.7 m2/m2). The highest yield was obtained by hybrid P 9985 (17.53 t/ha), which exceeded the other hybrids by 1.48–2.37 t/ha. The parameters SPAD, NDVI, grain number, thousand grain weight, grain moisture, grain number per ear and ear weight were studied in the experiment. The hybrids had excellent content values: protein content: 5.7–6.5%, starch content: 75.2–76.5%, oil content: 3.1–3.6%.
  • Smart parameter analysis of maize hybrids with different FAO numbers (Zea mays L.)
    5-20
    Views:
    145
    Maize is a heat-intensive crop and requires a lot of water. Rainfall is the main meteorological factor determining the yield, and water scarcity is the biggest problem in maize production. When the growing season is dry and temperatures are above average, soil drought typically develops in the summer. The dry autumn-winter period preceding the growing season increases the risk of drought. In our research, we studied five different FAO maize genotypes using intensive cultivation techniques, determining the yields that can be obtained and the main yield parameters that determine the yields and the relationships between them. In our experiment, all five maize hybrids showed excellent yield performance. The highest yield was obtained by hybrid H11 (18.4 t/ha), which exceeded the values of the other tested hybrids by about 5.7–22.8%. Significant differences were measured between the individual grain weight values of the hybrids. Hybrid H13 stood out with the highest individual grain weight value, exceeding the other genotypes by 1.6–25.9%. Based on the correlation analysis between the individual parameters, we demonstrated a significant (p<0.05) positive correlation of individual grain weight with individual grain number values (r=0.568) and also with grain moisture at harvest (r=0.592). Our results indicate that each of the measured individual yield parameters contribute differently to high yield, resulting in significant effects.
  • Evaluation of smart parameters of FAO 520 maize hybrid (Zea mays L.) in drip irrigation long-term experiments
    65-79
    Views:
    129
    Climate change poses increasing challenges for maize production. Climate change is particularly noticeable in Hungary. When growing maize hybrids, special attention must be paid to nutrient and water supply. Irrigation development and the installation of irrigation systems are key elements of precision maize cultivation. One such intensive technology is drip irrigation, which ensures efficient crop production in a planned and controlled manner. This precision irrigation technique delivers water directly to the root zone, optimising water supply. The movement of nitrogen in the soil, which is necessary for yield formation, is highly dependent on irrigation. Monitoring the nitrogen supply of plants provides important information. The most commonly used methods for this are the SPAD and NDVI indices, which have a wide range of applications.
    The tests were carried out at the Látókép Experimental Station of the University of Debrecen, where all the conditions are in place to carry out important analyses by comparing accurate measurement data collected over many years. This time, the subject of the study was the FAO520 maize hybrid. Based on the long-term experiment results, the H520 maize hybrid has good phenotypic characteristics, a stable structure, high yield potential, good adaptability, and fast water release dynamics. The yield of the H520 maize hybrid is excellent in irrigated cultivation (21.41 t/ha). The dry matter accumulation dynamics of the hybrid are outstanding. The grain moisture content at harvest was very favorable, at 13.9%.
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