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  • Effect of different fungicides on yield and seed infestation of white lupin (Lupinus albus L.) and common vetch (Vicia sativa L.)
    41-58
    Views:
    42
    A fungicide study was carried out in lupin (Lupnis albus L.) and common vetch (Vicia sativa L.) plants on the sandy soil of the AKIT Nyíregyháza Research Institute of the University of Debrecen, Hungary, the number of literature sources on plant protection in these small crops is limited. Various fungal diseases can set back plant development and negatively affect yields, and the vitality of harvested seeds is also important. In both crops, three treatments were applied in mid-June: tebuconazole + prochloraz, mefenoxam + mankoceb and azoxistrobin + cyproconazole. NDVI data were collected using the Trimble GreenSeeker HCS-100 device to monitor vegetation changes. After harvest, the harvested crop was cleaned in the Westrup Kamas laboratory seed cleaner and the amount of crop residue was documented. In addition, we documented the different seed yields and then placed the seeds on Papavizas substrate for seed infection testing. According to the NDVI values recorded in the lupin plots, the highest average NDVI value was recorded in the tebuconazole + prochloraz treated plots after fungicide treatment. The least infested seed according to both dates of recording also came from plots treated with tebuconazole + prochloraz, but these plots did not perform particularly well in terms of seed yield. Based on NDVI values following common vetch fungicide treatment, the highest average NDVI values were found in plots treated with tebuconazole + prochloraz. In the seed infestation test, the control plots had the lowest number of infected seeds at the first evaluation, and at the second evaluation, seeds from plots treated with azoxistrobin + cyproconazole had the lowest number of fungal infected seeds. Based on harvested seed yield values, none of the fungicide treatments caused yield increases in any of the examined plants. No significant difference was found, but the average seed yield of the control plots was the highest for both crops. Some of the active substances used have been or will be removed soon, therefore, new active substances should be included in the research.
  • Evaluation of the yield components, NDVI values, and water release dynamics of maize hybrids (Zea mays L.)
    77-96
    Views:
    3
    Adapting to climate change is crucial in maize production. Changes in climatic factors are particularly noticeable in Hungary, which is why special attention must be paid to nutrient and water supply when growing maize hybrids.
    In our analysis of agrotechnical studies for the year 2025, we focused primarily on the weather characteristics and meteorological conditions during the growing season and their effects, as well as soil and air temperature as the main factors determining crop yield.
    We conducted our measurements and observations at the University of Debrecen’s Látókép Experimental Station. Here, we performed important analyses by comparing precise measurement data collected over several years. This time, the subjects of our study were maize hybrids H320 and H420. Based on the results of our long-term experiments, we can conclude that both maize hybrids possess good phenotypic traits, have a stable structure, and exhibit good root and stem characteristics. H320 produced a yield of 15.99 t/ha with relatively rapid water loss dynamics; its grain moisture content at harvest was 16.9%. The H420 corn hybrid achieved a higher yield of 18.12 t/ha with water loss dynamics that can be described as moderate. Grain moisture content at harvest was 17.67%.
    Monitoring the plant’s nitrogen supply provides important information. One of the most commonly used methods is the NDVI index. We consistently measured higher NDVI values for the H420 hybrid.
    Grain drying proceeded at a moderate rate following physiological maturity; the harvest date was slightly later than in previous years, but weather conditions did not hinder harvesting operations.
    For the H320 hybrid, 140 days and 1,399 HU were required from emergence to physiological maturity, while for the H420 hybrid, 145 days and 1,446 HU were required from emergence to physiological maturity.
  • Evaluation of smart parameters of maize (Zea mays L.) hybrids with different genotypes
    5-32
    Views:
    162
    In the 2024 growing season, I examined the smart parameters of five different genotypes of maize hybrids within the framework of a long-term field experiment. The research focused on the germination dynamics, dry matter accumulation in relation to the useful heat units, and the analysis of individual NDVI and SPAD values of the plants.
    The cooling that occurred during the two weeks following sowing posed challenges for the hybrids, yet the adaptive strategies of the different genotypes were clearly observable. The dynamics of germination and the rate of dry matter accumulation highlighted the diversity among the genotypes, offering significant potential in terms of yield and harvest timing.
    The Kabanero hybrid performed exceptionally well, emerging the earliest and reaching the highest final dry matter content. The Synopsis hybrid showed dynamic adaptation: although its initial germination was slower, it later accelerated, resulting in balanced dry matter accumulation. Dueling hybrid exhibited the most equal germination and the highest number of emerged plants, coupled with a continuous increase in dry matter content, leading to stable growth. Indem1012 hybrid was sensitive to the drop in temperature, resulting in delayed germination, yet it still achieved significant dry matter accumulation. Kabaretto hybrid emergence equal and although it maintained a lower dry matter content until physiological maturity, it produced the highest average yield, demonstrating its excellent yield potential.
    NDVI analysis revealed that all hybrids reached their highest values during the V12 phenological stage, reflecting healthy plant development. The SPAD value analysis showed similar patterns for the Kabanero, Synopsis, and Dueling hybrids, with peak values measured at the V12, silking, and R4 stages. In the Indem1012 and Kabaretto hybrids, high SPAD values were recorded during the V12 stage, followed by a decrease during silking, and a subsequent increase at the R4 stage, indicating the hybrids' adaptability.
    Overall, the diverse performance of the studied maize hybrids provided valuable insights into the relationships between germination dynamics, dry matter accumulation, and physiological development, highlighting the potential inherent in genetic diversity.
  • Correlation study of NDVI and yield in maize at different phenological stages with different flight settings
    31-50
    Views:
    132
    In this research, the authors sought solutions to one of the most important challenges facing agriculture. The growth of the world's population and the decline and degradation of arable land pose new challenges for agriculture. Cereal crops play a key role in food production, with maize being of particular importance as it is grown worldwide. Precision farming is playing an increasingly important role in modern agriculture, making remote sensing and data analysis of paramount importance.
    The weather conditions in 2024 were unusual: spring was rainy and warm, while the summer months were exceptionally hot with an above-average number of heat days. The experiments were conducted during four different phenological stages of corn development (V5, V10, R1, and R3). Outside the growing season, we used three types of flight settings: measurements without RTK, with RTK, and with a combination of RTK and altitude tracking. During the study, three hybrids with different FAO numbers were analyzed, and the results were evaluated at five different nutrient levels in addition to the control.
    It was observed that in the early (V5 and V10) phenological phases, there was a closer correlation between NDVI values and crop yield, which can be explained by the favorable spring and early summer weather conditions of the year. The flight settings showed similar results at three measurement times, but differences appeared in the R1 phenological phase. It can be assumed that the large amount of pollen deposited on the leaves during flowering influenced the NDVI values. In addition, the creation of orthomosaics from RTK and altitude tracking images proved to be more time-consuming and, in some cases, required multiple attempts with the WebODM software used. These results provided valuable data and serve as a good starting point for further research.
  • Effect of precision drip irrigation on the Normalized Difference Vegetation Index, Leaf Area Index and SPAD readings of sweet maize (Zea mays conv. saccharata Koern) in a field experiment
    107-122
    Views:
    111
    Nowadays, growing sweet maize is difficult due to increasing climate change. This research was carried out under irrigated and non-irrigated conditions at the University of Debrecen, Böszörményi út Campus Demonstration Garden. The examined sweet maize hybrids were SF1379 and Honey. Precision instruments were used to monitor the development of the sweet maize population. Leaf area index (LAI), SPAD values and Normalized Differential Vegetation Index (NDVI) were measured in two phenological stages. The evolution of dry matter production of husk, cob and grain was measured before and at harvest. The obtained experiment results showed that LAI, SPAD, NDVI and dry matter values increased significantly with irrigation.
    We can provide practical results for sweet maize growers to raise awareness on the use of precision irrigation. Sweet maize production requires optimal, precise technology and is efficient and profitable under irrigated conditions.
  • Evaluation of the effects of silicon and sulfur treatments on the vegetative growth and root morphological characteristics of winter oats
    19-34
    Views:
    4
    Oats are one of the world’s major feed and food crops, possessing outstanding nutritional value. The development of the plant’s root system plays a decisive role in nutrient uptake, thereby indirectly influencing crop yield as well. In the present study, we analyzed the effect of silicon, sulfur, and the combined application of these nutrients on the vegetative development of winter oats in a pot experiment under natural weather conditions—with the exception of water supply - in a non-controlled environment.
    Sulfur (S) is an essential nutrient, as it is a component of the amino acids cysteine and methionine, making it vital for protein synthesis, and it plays an important role in enzymatic processes and plant defense mechanisms. Silicon (Si) is generally not considered an essential element; however, it has been shown to have numerous beneficial physiological effects in cereal crops, as it increases plant strength by incorporating into the cell wall and improves plants’ resistance to abiotic and biotic stresses. The combined use of these two elements can result in a synergistic effect. Due to the effects of climate change in Hungary, the use of technological elements to mitigate plant stress is becoming increasingly important; foliar fertilizers containing sulfur and silicon can serve as a good alternative, thereby enhancing yield stability even under less predictable climatic conditions. The studies were conducted using instrumental measurements and objective analytical methods
    Based on our results, plants treated with silicon and sulfur showed the most favorable SPAD values, while no detectable difference was observed among treatments in terms of NDVI values. When examining plant height, the combined treatment yielded the highest average values, similarly to the tillering rate; however, these differences were not statistically significant compared to the control. For root length, the highest average values were also measured with the combined treatment, which was statistically significantly different from the results of the other treatments. Regarding root mass, the sulfur treatment yielded the highest values; however, in this case, the difference was not significant. Based on the results of our experiment, it can be concluded that the use of the combined treatment had a positive effect on SPAD, plant height, tillering rate, and root length, promoting plant growth and thereby indirectly influencing crop yield.
  • Possibilities for reducing drought stress in potatoes (Solanum tuberosum) through various foliar treatments
    57-80
    Views:
    56
    Abiotic stress factors, especially drought and heat stress, which are becoming more frequent and intense due to climate change, pose significant challenges to potato production. The aim of this research was to examine the effects of different irrigation schemes and foliar treatments – salicylic acid, silicon, hydrogen peroxide, and microelements – on the physiological parameters, yield, and quality characteristics of potatoes under drought conditions. In a field experiment conducted in Sonkád (Hungary) during the 2024 growing season, a medium-late Manitou variety was used. During the study, two irrigation doses and four types of foliar treatments were tested in a split-plot design. Based on the results, full and 50% irrigation significantly increased stomatal conductance, NDVI, leaf area index, and yield. Among the foliar treatments, silicon and hydrogen peroxide had a positive effect on relative chlorophyll content and NDVI, but did not result in a significant increase in yield. Treatments with salicylic acid, microcomplex, silicon, and the total dose significantly increased starch content, while the application of silicon increased the amount of reducing sugar content. The results of the first year of experiments indicate that foliar treatments applied without irrigation can only occasionally mitigate the negative physiological effects of water deficiency, but irrigation is essential to achieve significant improvements in yield and quality. The research may contribute to technological developments aimed at increasing drought tolerance in potato production, but further experiments are needed.
  • The effect of foliar fertilisation on the production technology of maize (Zea mays L.) in the crop years 2021–2022
    19-32
    Views:
    134
    Since 1983, long-term field experiments have been carried out at the University of Debrecen's Látókép Experiment Site, where our research was also carried out. In the years 2021–2022, we examined the efficiency of biological foliar fertilisers under precision drip irrigation. Maize stands were treated at the 7–8-leaf stage with foliar sprays of Natur Plasma T biostimulant, Natur Active complex foliar fertiliser, and Zinc and Sulphur Mono additives. The applied foliar fertiliser treatments resulted in yield gains in both years. The use of these microbiological preparations allows rapid and efficient nutrient incorporation during the vegetative and generative cycles. During the growing season, important parameters of maize hybrids (SPAD, NDVI) were measured at critical phenophases (12-leaf stage, silking, physiological maturity). The obtained results showed that the incorporation of foliar fertilisers and biostimulants into agrotechnology improved the strength of maize stands and resulted in additional yield gains over and above the base fertilisation.
  • Comparative evaluation of yield results and generative parameters of maize hybrids (2025)
    21-44
    Views:
    65
    There were significant differences in yield and morphology among the maize hybrids included in the experiment based on the 2025 growing season. The H6 hybrid proved to be the best performing genotype, excelling in terms of yield (21.20 t/ha), individual grain weight (258.19 g), number of kernels, and thousand kernel weight (488.72 g), and achieved significantly better results than the other hybrids in several traits. The H3 hybrid also showed high yield potential (19.36 t/ha) and resulted in high grain weight and favorable SPAD values, proving to be the second most productive genotype. The H5, H4, and H2 hybrids can be classified as normal performers, producing stable but more moderate yield levels and grain weight, but there were significant differences in yield among these hybrids. SPAD values and NDVI values showed clear differences between the hybrids. The H4, H3, and H5 hybrids achieved outstanding SPAD values during the vegetative stage, indicating rapid initial development, while the H6 and H2 hybrids showed balanced SPAD dynamics throughout the entire growing season. Based on NDVI values, the H2 and H5 hybrids proved to be the most stable in the generative stage, indicating their good stress tolerance. Overall, the study showed that yield is influenced by grain weight, grain number, and plant condition indicators, and that the H6 and H3 hybrids represent outstanding agronomic value based on several parameters. Based on these findings, it can be concluded that different genotypes responded differently to the agrometeorological effects present during the unfavorable growing season of 2025, even with the use of drip irrigation.
  • Evaluation of field genetic potential based on the results of maize (Zea mays L.) hybrids with different genotypes
    5-21
    Views:
    43
    Based on the results of field trials, we evaluated the phenometric and yield-forming elements of two maize hybrids with different maturity times. These indicators greatly contribute to the recommendation of hybrids to growers in farm practice and provide guidance in the development of hybrid-specific production technology.
    Syngenta Kft. and the University of Debrecen have been conducting a joint study since 2018 to determine the field yield potential of new hybrids to be introduced. During the trial we strive to ensure that corn receives optimal conditions and does not starve for a unique day. During the experiment, the development stages of the hybrids were recorded in addition to the growth day degree (GDD). In addition to the continuous monitoring of SPAD and NDVI values, the dry-down dynamics are also precisely determined. 2024 was an extreme year for maize production, with extremely high temperatures characterizing the country in July and August. Based on the latest harvest data, the average domestic yield was 5.7 t/ha (varied between 3.4–7.9 t/ha among counties). The yield depression of the 2024 growing year was primarily due to the persistent, extremely hot weather in the summer. Coupled with less than average precipitation, a significant soil drought developed.
    In the above experiment, SY Evident FAO 430-440 (H13 hybrid) achieved a yield of 20.81 t/ha, while SY Stacio FAO 360-380 (H12 hybrid), which was earlier in maturity, achieved a yield of 19.46 t/ha on a mesoplot at the university’s Látókép field experimental site. The results of the tested hybrids were greatly influenced by the early planting date, with which the hybrids avoided the extreme heat during flowering. The different genotypes were greatly influenced by the harmonious nutrient supply and optimal weather conditions in May and June (VE-R1 phase). This was statistically confirmed in the change in chlorophyll content (SPAD values) and NDVI values among the hybrids. Due to the high GDD values and ideal conditions created by irrigation during the growth stages from the period of grain filling to physiological maturity (R2-R6 phase), the hybrid with a higher maturity time (H13) statistically exceeded the hybrid with a very early maturity time (H12) by 6.9%. The irrigation-water use efficiency (IRRWUE) of the tested hybrids was as follows: in the case of SY Evident (H13) it was 41.8 kg/mm, while in the case of SY Stacio (H12) this value was 39.2 kg/mm.
    By supporting optimal fertilization, we can increase yields, improve crop safety and strengthen sustainable agricultural practices at the same time. Our goal is to transfer these results to farm practice in the future, complemented by the background support of recent digital tools.
  • Plant health studies based on multispectral images in autumn cereal crops
    95-108
    Views:
    52
    The development of precision agriculture and digitalisation has brought significant changes in agricultural technology and data-driven decision-making. Unmanned aerial vehicles (UAVs) and multispectral imaging technologies are effective tools for monitoring plant populations and detecting stress conditions (abiotic, biotic). Vegetation indices (NDVI, GNDVI, NDRE, LCI) provide detailed information about the physiological state of plants and the spatial distribution of stress factors. In the research conducted at the University of Debrecen, the ’MV Nádor’ winter wheat variety was examined in combinations of different tillage methods (autumn ploughing, strip tillage) and different nutrient supply treatments. During the multispectral data collection, high-resolution UAV images were used, which were analysed using the QGIS GIS software. The application of nutrients (nitrogen, phosphorus, potassium) and tillage methods had a significant impact on vegetation indices, which reflected the health status and homogeneity or heterogeneity of the plants. The results mean that higher nutrient levels showed more favorable growth and homogeneous plant stand. During the statistical analyses, we infer the spatial effects of stress factors based on the standard deviation and variance values. The values of NDVI and GNDVI indices showed an increasing trend with increasing nutrient levels, especially in the case of the 160 kg/ha nitrogen treatment, which ensures more uniform development. Based on the LCI and NDRE values, we obtained a much higher variance and SD value for the 160 kg N/ha treatment applied in autumn ploughing than for strip cultivation. Based on the data, precision technologies enable more sustainable and predictable crop production.
  • Comparative analysis of SPAD, NDVI, phenological and generative parameters of maize hybrids (Zea mays L.)
    5-22
    Views:
    52
    Maize is a versatile multi-purpose crop that plays an essential role in the global food security. Meeting the needs of a growing population places the arable lands under the stress of intensive crop production. As the variations in climate conditions pose additional threats to maize production, the challenge focuses now on sustaining the crop yield, ensuring maximum yield and safeguarding crop protection.
    The experiment was carried out in 2023 at the Látókép Plant Production Experimental Site of the University of Debrecen (Hungary). The authors aimed to monitor the changes in spectral reflectance at leaf and canopy level at several growth stages of two different maize hybrids. Another objective was to evaluate their field agronomic performance and eventually compare between their results. Thus, SPAD, NDVI and LAI indices were recorded at five phenological stages (6-leaf, 12-leaf, silking, dough, maturity) of the development of two maize hybrids. Other agronomic characteristics of maize had been measured, including plant height, cob length, stalk diameter, grain moisture content, nitrogen accumulation and grain yield.
    The results demonstrated that Mv 352 hybrid had higher potential in terms of yield produced (13.64 t/ha) comparing to Fornad (12.93 t/ha), in addition to higher plant height, cob length and stalk diameter. The SPAD, NDVI and LAI recorded values showed higher values as the different growth stages developed and then decreased reaching the maturity phase. It was found that both hybrids had slight variation in their performance in this regard. However, in terms of nitrogen accumulation, Mv 352 had higher nitrogen content accumulated during the whole growing period in comparison with Fornad, highlighting its great performance in terms of nitrogen absorption and translocation.
    This study highlights the importance of monitoring SPAD, NDVI, and LAI values, as well as the plant nitrogen accumulation that provides insights into the physiological conditions of maize plants during the different growth stages, allowing for the early detection of stress factors, therefore enabling timely interventions. Additionally, this work emphasises the crucial aspect of performing these measurements for the selection and breeding of high-performing maize hybrids.
  • Possibilities of reducing drought stress through various foliar treatments in potato (Solanum tuberosum) during the 2024 and 2025 growing seasons
    97-136
    Views:
    3
    Increasing drought caused by climate change poses a significant challenge to potato production. In our experiment conducted in Sonkád (Hungary), different leaf treatments and irrigation regimens were tested over two growing seasons in a randomized block design using the Manitou variety. During the experiment, three irrigation rates (full, 50%, and dry control) were used, along with four foliar treatments – salicylic acid, hydrogen peroxide, silicon, and micronutrients – which were applied exclusively to the non-irrigated plots. A total of seven different treatments were carried out in four replicates. Based on the results from the two growing seasons, the silicon, hydrogen peroxide, microcomplex, and salicylic acid foliar treatments significantly increased the relative chlorophyll content (SPAD) compared to the control and the irrigated treatments. On average over the two years, the NDVI value was significantly increased by the silicon, hydrogen peroxide, microcomplex, and salicylic acid foliar treatments compared to the control, and no statistical difference was observed in performance between the full-dose irrigation treatment and the listed treatments. NDVI measurements taken at various time points confirmed that treatments with the tested substances were able to slow chlorophyll degradation and maintain the integrity of the photosynthetic apparatus even during the critical post-flowering period. In the case of the leaf area index, the highest value was observed in the treatment irrigated with the full dose, but no significant difference was found compared to the performance of the silicon, hydrogen peroxide, microcomplex, and salicylic acid treatments. At the same time, the most important indicator in terms of yield was irrigation, which had a significant impact in both years. Although the foliar treatments mitigated stress and improved plant vitality, they did not result in a statistically significant increase in yield compared to the untreated control.
  • 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%.
  • Analysis of physiological and yield parameters of smart maize hybrids in an intensive drip irrigation long-term experiment in the growing year 2024
    5-24
    Views:
    44
    The yield and plant physiological parameters of different FAO maize hybrids grown over a large area in Hungary were examined under drip irrigation conditions. The results of the study showed that hybrid H4 was the best performing hybrid in terms of yield, specific grain weight, ear weight and thousand kernel weight. Hybrid H6 showed similarly good results, especially in grain number, suggesting that it may also play a role in increasing yield. The medium performance of hybrids H5 and H3 indicates that they are potentially competitive. The trends observed in the analysis of NDVI values provide important information on the growth patterns of the examined hybrids. For hybrid H1, the sharp decline in the second half of the growing season is indicative of the stress situation of the plants. Hybrids H1, H2 and H3 developed under optimal conditions in the V12 phenological phase, but could not maintain the early growth stage in the later phases. In contrast, hybrid H4, which had a longer growing season, was able to maintain its vegetative activity after the V12 phase. When SPAD values were examined, the H1, H5 and H6 hybrids maintained growth until the V12 phase, then declined after the R4 phase. Hybrid H4 showed the highest SPAD values in the R5 phase, while hybrids H1, H5 and H6 showed more stable SPAD values, but decreased in the later phases. Overall, the outstanding performance of hybrids H4 and H6 suggests that these hybrids should be preferred in intensive production environments with good yield potential.
  • Analysis of individual parameters of maize (Zea mays L.) hybrids in irrigated long-term field experiment
    49-83
    Views:
    41
    The sustainable development of crop production is one of today's most important agronomic challenges. Modern technologies such as precision farming, including nutrient management and irrigation strategies, play a key role in optimising yields and ensuring sustainability. In an experiment set up at the DE AKIT DTTI Látókép Crop Production Experiment Site, we investigated the phenometric (leaf area index, development dynamics), physiological (relative chlorophyll content, NDVI value, water release dynamics) and yield parameters (yield, individual ear and kernel weight, individual kernel number, thousand kernel weight, protein, oil, starch and grain moisture content). Based on the evaluation of yield, it was found that the highest yield (20.95 t/ha) was obtained by the mid-ripening FAO 390 hybrid, significantly higher than the yield of the other examined hybrids. Altogether, it was found that there were significant, in many cases statistically significant, differences in the phenometric, physiological and yield parameters studied between maize hybrids of different maturity, allowing for a precise differentiation of the main traits of each hybrid.
  • 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%.
  • The effect of nitrogen splitting in sweet maize (Zea mays L. convar. saccharata Koern) hybrids on plant physiological traits and yield
    67-88
    Views:
    48
    A small plot field experiment was established to examine the hybrid-specific effects of split N fertilisation and irrigation on chernozem soil with calcareous deposits on the Hajdúság loess ridge. We tested the effect of different rates of the optimum 75 kg N/ha N rate established in our previous experiments at the given site. Irrigation increased the height of both hybrids in all treatments by an average of 13.0 cm. There was no statistically confirmed difference in leaf area between irrigated and non-irrigated hybrids. The different nutrient responses of the hybrids are shown by the fact that all nitrogen split treatments resulted in yield increases (7.5–17.5%) for the Tyson hybrid, whereas Dessert R78 yielded 1–7.9% less than the control in two treatments. The irrigation response of the two genotypes was different, with Dessert R78 yielding 2868 kg and Tyson 2066 kg more than the non-irrigated treatment, averaged over the fertilisation treatments.
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