Your search keyword '"Viliam Bárek"' showing total 29 results

1. Evaluation of Hyperspectral Reflectance Parameters to Assess the Leaf Water Content in Soybean

Author

Marek Kovar, Marian Brestic, Oksana Sytar, Viliam Barek, Pavol Hauptvogel, and Marek Zivcak

Subjects

water, dehydration, hyperspectral reflectance, vegetation indices, remote sensing, soybean, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

Nondestructive assessment of water content and water stress in plants is an important component in the rational use of crop irrigation management in precision agriculture. Spectral measurements of light reflectance in the UV/VIS/NIR region (350–1075 nm) from individual leaves were acquired under a rapid dehydration protocol for validation of the remote sensing water content assessment in soybean plants. Four gravimetrical approaches of leaf water content assessment were used: relative water content (RWC), foliar water content as percent of total fresh mass (FWCt), foliar water content as percent of dry mass (FWCd), and equivalent water thickness (EWT). Leaf desiccation resulted in changes in optical properties with increasing relative reflectance at wavelengths between 580 and 700 nm. The highest positive correlations were observed for the relations between the photochemical reflectance index (PRI) and EWT (rP = 0.860). Data analysis revealed that the specific water absorption band at 970 nm showed relatively weaker sensitivity to water content parameters. The prediction of leaf water content parameters from PRI measurements was better with RMSEs of 12.4% (rP = 0.786), 9.1% (rP = 0.736), and 0.002 (rP = 0.860) for RWC, FWCt, and EWT (p < 0.001), respectively. The results may contribute to more efficient crop water management and confirmed that EWT has a statistically closer relationship with reflectance indices than other monitored water parameters.

Published

2019

2. Innovative organic nutrient management and land arrangements improve soil health and productivity of wheat (Triticum aestivum L.) in an organic farming system

Author

Adarsh Sharma, S. K. Sharma, Latika Vyas, Sharvan Kumar Yadav, Biswajit Pramanick, B. S. Sai Siddartha Naik, Oliver Obročník, Viliam Bárek, Marian Brestic, Ahmed Gaber, Mohammed Ali Alshehri, and Akbar Hossain

Subjects

wheat yield, organic manures, nutrients, soil health, sowing methods, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

IntroductionSoil health is vital for ecosystems, but excessive use of fertilizers, chemicals, and irrigation harms soil fertility, leading to reduced yields and degradation. Thus, exploring innovative land arrangements and nutrient management for staple crops such as wheat is essential. Organic farming offers a promising solution. This study hypothesized that an appropriate land arrangement, combined with split applications of farmyard manure (FYM) and liquid organic fertilizer, can enhance wheat productivity while also improving soil health. The objective of this study was to investigate the effects of different sowing methods and organic nutrient management practices on the productivity of wheat and soil health.MethodsThis study aimed to examine the impact of sowing methods and nutrient management practices on soil health and organic wheat productivity during the winter seasons of 2021–22 and 2022–23 at the Organic Farming Unit (Agronomy), Rajasthan College of Agriculture, MPUAT, Udaipur. The experiment was arranged in a split-plot design, with three land arrangements/sowing methods in the main plot and eight nutrient management approaches in the subplots.ResultsConcerning different land arrangements, the furrow irrigated raised bed sowing (FIRB) method resulted in the maximum wheat yield (4.34 t ha−1) compared with flat row sowing and zero tillage sowing. With respect to nutrient management practices, 75% of the recommended dose of N (RDN) through the FYM was basal + 25% RDN with the 1st irrigation + Jeevamrut application at 500 L ha−1 during sowing, and the 1st irrigation + Panchagavya spraying at 5% during the booting stage resulted in the highest grain yield (4.47 t ha−1). Both the zero tillage and FIRB land arrangements resulted in better soil biological activities and microbial counts than did flat sowing. The results indicate that sowing wheat via the FIRB method, with the recommended nitrogen dose applied through split applications of FYM along with liquid organic manures such as Jeevamrut and Panchagavya, can be an excellent option for organic wheat cultivation. This approach can enhance both yield and soil health.ConclusionSeventy-five percent RDN through FYM as a basal + 25% RDN during the 1st irrigation + Jeevamrut at 500 L ha−1 during sowing and the 1st irrigation + spraying of Panchagavya at 5% during the booting stage effectively increased the growth and yield of organic wheat. With respect to land arrangements, both FIRB and zero tillage resulted in better growth, yield, and soil biological properties. The practical utility of this study is the optimization of split applications of FYM and land arrangements for organic wheat cultivation.

Published

2024

3. Dendrometric evaluation of Helianthus annuus under water deficit conditions

Author

Oliver Obročník and Viliam Bárek

Subjects

dendrometer, drought, helianthus annus, irrigation, water deficit, water stress, River, lake, and water-supply engineering (General), TC401-506, Irrigation engineering. Reclamation of wasteland. Drainage, TC801-978

Abstract

Drought is characterised as a recurring climatic phenomenon with prolonged duration, affecting land through below-average rainfall and often accompanied by high temperatures. When the available water falls below the optimum level, water deficit or water stress arises, disrupting normal plant processes. This condition poses challenges for plant growth and development as it hampers the internal water transport, induces stomatal closure, and limits access to photosynthetic resources. The study employed the annual sunflower as the experimental plant. The plants were cultivated in a controlled environment with a temperature ranging from 20 to 25°C and a humidity level of 55 to 60%, supplemented by MARS HYDRO artificial LED lighting set to a 12-h photoperiod. Radial changes in the plant stems were monitored using a DD-S type dendrometric sensor to measure radial fluctuations. The collected data were recorded in a dendrometric data logger DL 18. Data collection occurred at hourly intervals from February 20 to March 9, 2023. The nine plants were divided into three groups, each comprising three plants. All plants from groups 1 and 2 received irrigation at one- day intervals (group 1 – 80 cm 3 per plant, group 2 – 40 cm 3 per plant) and group 3 was not irrigated. Based on these findings, visible water stress was evident in the plants under experimental conditions. Consequently, continuous monitoring throughout the growing season will be essential to adjust the irrigation rate to meet the requirements of the plants.

Published

2024

4. Improvement of soil health and nutrient transformations under balanced fertilization with integrated nutrient management in a rice-wheat system in Indo-Gangetic Plains – A 34-year Research outcomes

Author

Sohan Singh Walia, Salwinder Singh Dhaliwal, Roopinder Singh Gill, Tamanpreet Kaur, Karmjeet Kaur, Mehakpreet Kaur Randhawa, Oliver Obročník, Viliam Bárek, Marian Brestic, Ahmed Gaber, and Akbar Hossain

Subjects

Farm yard manure, Green manuring, Wheat cut straw, Fixed and total K, Crystalline iron oxide, Carbonate, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The impact of integrated nutrient management seems crucial for the sustainability of crop production as revealed by studies on long-term experiments. It provided the opportunity to monitor long-term variations in crop yields and associated factors. The impacts of various nutrient management strategies on yields and soil attributes in a rice-wheat system have been researched under a long-term experiment that has been running since 1983 at Punjab Agricultural University, Ludhiana. Further, a positive correlation has been observed between crop yields and soil properties such as soil organic carbon (SOC), nitrogen (N), phosphorus (P), potassium (K) and zinc (Zn). The negative correlation with K could be attributed to soil becoming deficient in K and necessitating the application of potassium fertilizer. The treatments receiving organic manures (green manure, farmyard manure and wheat cut straw) showed a better population of soil microorganisms in comparison to the treatments receiving chemical fertilizers, thereby proving as precursors of sustaining soil health. The best soil characteristics (water-soluble aggregates, exchangeable and non-exchangeable K, fixed and total K) after rice and wheat harvesting were found where 50 % of the recommended NPK was supplemented with farmyard manure (FYM). The build-up of trace elements particularly for Fe and Zn was also noticed. In crystalline Fe oxide bound fraction (CFeOX), Fe increased between 717.1 and 984.8 mg kg−1, while Zn increased between 2.64 and 3.08 mg kg−1. Furthermore, amorphous iron oxide (AFeOX), CFeOX, carbonate (CARB), organic matter (OM) bound and exchangeable (EXCH) Fe and Zn were higher in treatments where organic manures were supplemented with 50 and 25 % N. Farmyard manure showed an incremental trend, followed by wheat cut straw and green manure (GM). The incremental trend in soil quality was noticed with FYM followed by wheat cut straw and GM.

Published

2024

5. Shoot transcriptome revealed widespread differential expression and potential molecular mechanisms of chickpea (Cicer arietinum L.) against Fusarium wilt

Author

Karma L. Bhutia, Mahtab Ahmad, Anima Kisku, R. A. Sudhan, Nangsol D. Bhutia, V. K. Sharma, Bishun Deo Prasad, Mahendar Thudi, Oliver Obročník, Viliam Bárek, Marian Brestic, Milan Skalicky, Ahmed Gaber, and Akbar Hossain

Subjects

chickpea, Fusarium wilt, RNA sequencing, transcriptome, environmental adaptation, energy metabolism, Microbiology, QR1-502

Abstract

IntroductionThe yield of chickpea is severely hampered by infection wilt caused by several races of Fusarium oxysporum f. sp. ciceris (Foc).MethodsTo understand the underlying molecular mechanisms of resistance against Foc4 Fusarium wilt, RNA sequencing-based shoot transcriptome data of two contrasting chickpea genotypes, namely KWR 108 (resistant) and GL 13001 (susceptible), were generated and analyzed.Results and DiscussionThe shoot transcriptome data showed 1,103 and 1,221 significant DEGs in chickpea genotypes KWR 108 and GL 13001, respectively. Among these, 495 and 608 genes were significantly down and up-regulated in genotypes KWR 108, and 427 and 794 genes were significantly down and up-regulated in genotype GL 13001. The gene ontology (GO) analysis of significant DEGs was performed and the GO of the top 50 DEGs in two contrasting chickpea genotypes showed the highest cellular components as membrane and nucleus, and molecular functions including nucleotide binding, metal ion binding, transferase, kinase, and oxidoreductase activity involved in biological processes such as phosphorylation, oxidation–reduction, cell redox homeostasis process, and DNA repair. Compared to the susceptible genotype which showed significant up-regulation of genes involved in processes like DNA repair, the significantly up-regulated DEGs of the resistant genotypes were involved in processes like energy metabolism and environmental adaptation, particularly host-pathogen interaction. This indicates an efficient utilization of environmental adaptation pathways, energy homeostasis, and stable DNA molecules as the strategy to cope with Fusarium wilt infection in chickpea. The findings of the study will be useful in targeting the genes in designing gene-based markers for association mapping with the traits of interest in chickpea under Fusarium wilt which could be efficiently utilized in marker-assisted breeding of chickpea, particularly against Foc4 Fusarium wilt.

Published

2024

6. Selenium – An environmentally friendly micronutrient in agroecosystem in the modern era: An overview of 50-year findings

Author

Debojyoti Moulick, Arkabanee Mukherjee, Anupam Das, Anirban Roy, Arnab Majumdar, Anannya Dhar, Binaya Kumar Pattanaik, Bhaben Chowardhara, Dibakar Ghosh, Munish Kumar Upadhyay, Poonam Yadav, Swati Hazra, Sukamal Sarkar, Subrata Mahanta, S.C. Santra, Shuvasish Choudhury, Sagar Maitra, Udit Nandan Mishra, Karma L. Bhutia, Milan Skalicky, Oliver Obročník, Viliam Bárek, Marian Brestic, and Akbar Hossain

Subjects

Selenium, Agro-Ecosystem, Yield, Biogenic-Se, Nano-Se, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350

Abstract

Agricultural productivity is constantly being forced to maintain yield stability to feed the enormously growing world population. However, shrinking arable and nutrient-deprived soil and abiotic and biotic stressor (s) in different magnitudes put additional challenges to achieving global food security. Though well-defined, the concept of macro, micronutrients, and beneficial elements is from a plant nutritional perspective. Among various micronutrients, selenium (Se) is essential in small amounts for the life cycle of organisms, including crops. Selenium has the potential to improve soil health, leading to the improvement of productivity and crop quality. However, Se possesses an immense encouraging phenomenon when supplied within the threshold limit, also having wide variations. The supplementation of Se has exhibited promising outcomes in lessening biotic and abiotic stress in various crops. Besides, bulk form, nano-Se, and biogenic-Se also revealed some merits and limitations. Literature suggests that the possibilities of biogenic-Se in stress alleviation and fortifying foods are encouraging. In this article, apart from adopting a combination of a conventional extensive review of the literature and bibliometric analysis, the authors have assessed the journey of Se in the “soil to spoon” perspective in a diverse agroecosystem to highlight the research gap area. There is no doubt that the time has come to seriously consider the tag of beneficial elements associated with Se, especially in the drastic global climate change era.

Published

2024

7. Dendrometric changes as water stress indicator for sunflower (Helianthus Annus l.) And maize (Zea Mays l.) As basic research in laboratory conditions

Author

Martina Kováčová, Viliam Bárek, and Vladimír Kišš

Subjects

dendrometer, sunflower, maize, drought, water stress, Environmental technology. Sanitary engineering, TD1-1066, Environmental engineering, TA170-171

Abstract

Aim of the study: The physiological impact of drought on the crop is reflected into the dendrological changes of the tree or plant body. In this study, we installed automatic dendrometers and we investigated the effect of irrigation dose at different intervals on the growth of sunflower and maize in laboratory conditions. Material and methods: For our research was chosen a sunflower (Helianthus annus L.) and maize (Zea Mays L.) seeded in a laboratory equipped with LED lights Mars Hydro 400 as a substitute source of natural sunlight for 12 hours. Both crops were divided into containers A (irrigation dose of 5 mm was applied each day) and B (the same irrigation dose was applied at 3-day interval). In every container was measured volumetric soil water content with sensors 10HS (Decagon Devices) and dendrometric measurements of plants diameter with sensors DD-S (Ecomatik). Results and conclusions: A comparison of sunflower and maize irrigated at different intervals showed an increase in the diameters of stems at 1-day irrigation compared to 3-day by 0.8 mm (sunflower) and 12.0 mm (maize). The growth of plant mass was continuous at 1-day irrigation with minor fluctuations during the alternation of the dark and light phases. During the 3-day irrigation, greater shrinkage of the stems occurred, indicating the onset of water stress for the crops. The results of the work can be the basic basis for determining the appropriate application of irrigation bag in conditions of changing climate.

Published

2020

8. Design of Hardware and Software Equipment for Monitoring Selected Operating Parameters of the Irrigator

Author

Ján Jobbágy, Oliver Bartík, Koloman Krištof, Viliam Bárek, Roderik Virágh, and Vlastimil Slaný

Subjects

agriculture, automation, irrigation, work quality, water, monitoring system, Chemical technology, TP1-1185

Abstract

The aim of this paper was to design a device for monitoring the work of irrigation technology (in our case, irrigation by sprinkler). Two devices for monitoring selected irrigation operating parameters for two hose reel irrigation machines were designed. During the monitored period of connection of the equipment to the sprinkler, 15 irrigation doses were carried out for both sprinklers. Irrigation operating characteristics working pressure, hose reel speed and selected weather conditions temperature and humidity were monitored. When evaluating the results, we proved the need to monitor the operation of the sprinkler not only by the coefficient of variation Cv, but also by introducing the coefficient of non-uniformity a. The results obtained indicate variability with respect to a particular irrigation dose and the applicable assessment method. The results were reviewed by one-way ANOVA analysis where observed coefficients and irrigation dose were considered as dependence factors. The results indicate a statistically significant impact of the applied quality coefficient of work and thus the impact of a particular device (p < 0.05, Fcrit = 2.77). When evaluating the effect of the included irrigation dose, we also showed a statistically significant effect in both facilities (p < 0.05, F = 1.92). By checking the operation of the hose reel irrigation machine, we managed to successfully apply the proposed classifications, which also perform the function of fault prediction. The proposed facilities show that proper plant operation and timely response can help create more efficient and sustainable irrigation services, not only saving water but also reducing costs for the owner.

Published

2022

9. Water Regime Monitoring of the Royal Walnut (Juglans regia L.) Using Sap Flow and Dendrometric Measurements

Author

Viliam Bárek, Martina Kováčová, Vladimír Kišš, and Oleg Paulen

Subjects

walnut, sap flow, irrigation, budbreak, flowering, Botany, QK1-989

Abstract

Changes in the distribution of annual rainfall totals, together with the increase in temperature over the last 40 years, are causing more frequent periods of drought, and plants are more often exposed to water stress. The aim of this study was to monitor the effect of different water regimes (irrigated and non-irrigated) of individuals of walnut tree (Juglans regia L.) in a private orchard located in the West of Slovakia. Our research was focused on dendrometric and sap flow measurements in the period from 28 March to 2 June 2019. The results showed differences in the sap flow of walnut trees during the budbreak period: when trees were irrigated, sap flow in the diurnal cycle was around 130 g·h−1 (20.48%), higher than in the non-irrigated treatment. Dendrometric differences between the irrigated and non-irrigated treatments were not significant. The sap flow data in the flowering period of the irrigated variant were slightly higher at 150 g·h−1 (35.62%) than non-irrigated. Dendrometric differences were more significant when the difference between the variants was more than 1.5 mm. Continuation of this research and analysis of the data obtained in the coming years will allow us to evaluate the effects of the environment on fruit trees in the long term.

Published

2021

10. Assessment of wheat productivity responses and soil health dynamics under brackish ground water

Author

Marian Brestic, Rohina Bashir, Muhammad Awais, Sulaiman Ali Alharbi, Shahid Ramzan, Muhammad Anwar-ul-Haq, Viliam Bárek, Hoda H. Senousy, Ali Noman, Maryam Iftikhar, Muhammad Arshad, Sajid Rashid Ahmad, and Muhammad Umair Anjum

Subjects

Soil health, Salinity, Brackish water, Water productivity, QH301-705.5, fungi, food and beverages, Wheat yield, Soil depth, Environmental science, Biology (General), General Agricultural and Biological Sciences, Water resource management, Productivity, Groundwater

Abstract

The continuous use of brackish groundwater for irrigation is detrimental for soil and crop attributes. A three-year research study was designed for the wheat crop to assess the effects of brackish groundwater on crop yield and soil health under a surface irrigation system. Three sites were selected in different cropping zones of Pakistan. The treatments comprised of irrigation with moderately brackish water having 0.8, 1.3 & 2.7 dSm−1 of salinity and canal water. The results indicated that EC, SAR, bicarbonates, Ca2+ and Mg2+ levels increased in the soil for consecutive years and this increase was more at site S3 followed by S2 and S1. As soil depth is concerned, the increase was more pronounced in upper layers of soil (0–15 cm) as compared to 15–30 cm depth. Growth and yield were also affected by the consecutive use of this water, the number of plants, plant height, the number of spikes per plant, and yield was reduced at all the three sites. However, the impact was less pronounced at the site S1 whereas S3 was the most affected one. Grain weight and dry matter weight were observed to be maximum at S1. Water productivity was also calculated for all the three sites. Maximum water productivity was observed at S1 followed by S2 & S3. It was concluded that the continuous use of brackish water would have an adverse effect on crop yield and subsequently, soil health is also affected by it significantly.

Published

2022

11. Improvement in growth and yield attributes of cluster bean through optimization of sowing time and plant spacing under climate change scenario

Author

Ibrar Hussain, Muqarrab Ali, Omer Farooq, Adel Ghoneim, Süleyman Taban, Subhan Danish, Shakeel Ahmad, Marian Brestic, Viliam Bárek, Khurram Shahzad, Rahul Datta, Sami Al Obaid, Fahim Nawaz, Hanife Akça, Shahid Iqbal, and Shah Fahad

Subjects

Cyamopsis tetragonoloba L, Planting density, QH301-705.5, Randomized block design, Sowing, Disease cluster, Growth attributes, Crop, Point of delivery, Agronomy, Sowing time, Yield (wine), Climate change scenario, Grain yield, Biology (General), General Agricultural and Biological Sciences, Mathematics

Abstract

Cluster bean (Cyamopsis tetragonoloba L.) yield has plateaued due to reduction in rainfall and rise in temperature. Therefore, its production cycle could not get appropriate water and temperature. It becomes important to standardize the sowing time and plant spacing of cluster beans in changing climate scenarios to get higher productivity. Therefore, a field study was conducted in 2019 at the Research area of MNS-University of Agriculture, Multan, Pakistan to evaluate the effect of four sowing times (15th May, 1st June, 15th June, and 1st July) and three plant spacings (10, 12 and 15 cm) on crop growth, yield, and physiological functions of cluster bean genotype BR-2017 under split plot arrangement under randomized complete block design (RCBD) with three replications. The sowing times (15th May, 1st June, 15th June, and 1st July) were placed in the main plot, while plant spacing (10, 12 and 15 cm) was maintained in subplots. The significant effect of sowing time and plant spacing was observed on pod plant-1, pod length, grain yield, and 1000-grain weight. Results showed that 1st June sowing performed better over 15th May, 15th June, and 1st July, while plant spacing 15 cm about in all sowing times showed higher results on growth and yield parameters of cluster bean over plant spacing 10, 12, and 15 cm. The 1st June sowing time at 15 cm plant spacing showed 8.0, 22.7, and 28.5% higher grains pod-1 than 15th May, 15th June, and 1st July sowing, respectively. Maximum grain yield was observed on 1st June in all three spacings (10, 12, and 15 cm). The chord diagram indicates that the crop has received optimum environmental conditions when sown 1st June over other sowing times. In conclusion, 1st June sowing with 15 cm plant spacing could be a good option to achieve maximum productivity of cluster bean under changing climate scenario.

Published

2022

12. Climate Conditions Impact on the Sap Flow into Plants and Their Dendrometric Changes

Author

Martina Kováčová, Viliam Bárek, Vladimír Kišš, Beáta Novotná, and Anna Báreková

Subjects

lcsh:GE1-350, Hydrology, sap flow, Flow (mathematics), Environmental science, drought, lcsh:Environmental technology. Sanitary engineering, dendrometer, lcsh:TD1-1066, lcsh:Environmental sciences, Ecology, Evolution, Behavior and Systematics, General Environmental Science

Abstract

Water stress is an indicator that plant are suffering from drought. For optimization of the crop production is necessary to indicate physiological changes, those can be represented by stem expansion or shrinkage and sap flow rate. We used the Dynagage SGA5-WS (Dynamax) sensors for the sap flow monitoring and the sensors Diameter Dendrometer Small (Ecomatik) for measuring branches diameter changes in our research. The research was realized during two seasons, in the summer (from 31st July to 14th August 2018) and in the spring (from 27th March to 14th April 2019). The subject in our research were walnut trees (Juglans regia) situated in the private orchard in Nové Zámky area in Slovak Republic. The sap flow values in summer were on average range of 90 g.h-1, with maximum measured values above 160 g.h-1 measured after the precipitation events. After increasing of soil moisture on 1st and 2nd August 2018, it was detected the branches diameter expansion up to 0,05 mm. However, the other spring values were much lower. The sap flow reached less than 35 g.h-1 what was one third values in summer 2018. This phenomenon is a result of the low transpiration intensity of transpiration or a leafless state of trees. Although the changes in diameter were not significant in the early vegetation stage, there were monitored some fluctuation causing the diameter was shrinked by 0,2 mm due to a negative average air temperature.

Published

2020

13. Water Regime Monitoring of the Royal Walnut (Juglans regia L.) Using Sap Flow and Dendrometric Measurements

Author

Oleg Paulen, Viliam Bárek, Martina Kováčová, and Vladimír Kišš

Subjects

Irrigation, flowering, Ecology, biology, walnut, Water stress, Botany, Plant Science, budbreak, biology.organism_classification, irrigation, Horticulture, Frequent periods, sap flow, Diurnal cycle, QK1-989, Environmental science, Orchard, Ecology, Evolution, Behavior and Systematics, Juglans

Abstract

Changes in the distribution of annual rainfall totals, together with the increase in temperature over the last 40 years, are causing more frequent periods of drought, and plants are more often exposed to water stress. The aim of this study was to monitor the effect of different water regimes (irrigated and non-irrigated) of individuals of walnut tree (Juglans regia L.) in a private orchard located in the West of Slovakia. Our research was focused on dendrometric and sap flow measurements in the period from 28 March to 2 June 2019. The results showed differences in the sap flow of walnut trees during the budbreak period: when trees were irrigated, sap flow in the diurnal cycle was around 130 g·h−1 (20.48%), higher than in the non-irrigated treatment. Dendrometric differences between the irrigated and non-irrigated treatments were not significant. The sap flow data in the flowering period of the irrigated variant were slightly higher at 150 g·h−1 (35.62%) than non-irrigated. Dendrometric differences were more significant when the difference between the variants was more than 1.5 mm. Continuation of this research and analysis of the data obtained in the coming years will allow us to evaluate the effects of the environment on fruit trees in the long term.

Published

2021

14. Effects of conventional moldboard and reduced tillage on seasonal variations of direct CO2 and N2O emissions from a loam Haplic Luvisol

Author

Eugene Balashov, Katarína Drgoňová, Dušan Igaz, Viliam Bárek, Ján Horák, Elena Aydin, Natalya P. Buchkina, and Vladimír Šimanský

Subjects

0106 biological sciences, 0301 basic medicine, business.product_category, Conventional tillage, Soil organic matter, Growing season, Cell Biology, Plant Science, 01 natural sciences, Biochemistry, Plough, Tillage, 03 medical and health sciences, 030104 developmental biology, Animal science, Loam, Genetics, Environmental science, Animal Science and Zoology, business, Soil moisture content, Molecular Biology, Water content, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Greenhouse gases such as N2O and CO2 are formed in microbiological processes of nitrification and denitrification and also governed by microbial decomposition of soil organic matter (SOM) plant residues. A key factors influencing these processes are temperature and soil moisture. Therefore the objectives of this study were to: (1) evaluate the seasonal variations in SOM content, temperature, water-filled pore space (WFPS) and mineral nitrogen content under conventional tillage (CT) and reduced tillage (RT) system, and (2) assess the direct CO2 and N2O emissions associated with the seasonal variations in the soil properties under both tillage systems. An experiment was carried out in a randomized blocks with two different tillage system: CT and RT in a Haplic Luvisol (loamy) covering the growing season of spring barley. Each block included treatments: no mineral fertilizers; mineral fertilizers; mineral fertilizers plus plant residues. Overall, the SOM content and temperatures were insignificantly higher in the plough layers of RT than CT during the entire period of study. Soil moisture content (SMC) and WFPS were insignificantly higher in CT than RT. The application of mineral fertilizers resulted in a significant increase of mean NO3− concentrations only in the plough layers of CT. SMC was a stronger driving factor of mean daily CO2 emissions in all treatments, while variations in soil temperatures and SMC were jointly responsible for changes in mean daily N2O emissions in all the treatments of CT and RT. The postponed highest peaks of mean daily N2O emissions from RT were observed under aerobic soil conditions several days after the heavy rainstorm. The cumulative CO2 and N2O fluxes were insignificantly higher from CT than RT over the entire period of study.

Published

2019

15. THE IMPACT OF SOILWATER STORAGE ON THE RADIAL CHANGES OF THE ROYAL WALNUT (JUGLANS REGIA L.)

Author

Viliam Bárek and Martina Kováčová

Subjects

Horticulture, biology, biology.organism_classification, Juglans

Published

2020

16. Phenotyping of photosynthetic traits in isogenic chlorophyll-deficient wheat mutant lines

Author

Pavol Hauptfogel, Oksana Sytar, Marian Brestic, Viliam Bárek, and Marek Zivcak

Subjects

chemistry.chemical_compound, chemistry, Chlorophyll, Botany, Mutant, Biology, Photosynthesis

Published

2019

17. Using Spectrometry to Monitor Reactions of Citrus × Limon at Different Times of Irrigation During Winterizing

Author

Viliam Bárek and Alan Klimaj

Subjects

Irrigation, Horticulture, Citrus limon, General Engineering, food and beverages, Industrial chemistry, Environmental science, sense organs, skin and connective tissue diseases, Mass spectrometry

Abstract

The aim of this work is to monitor changes of Citrus × limon leaves spectrometry at different times of irrigation and the exposure to stress caused by drought or excessive watering during winterizing. The changes were monitored at plants at different times of irrigation (daily, once in two days, once in three days, and once a week). The changes are monitored in the visible spectrum and compared with shed leaves in order to monitor changes in spectrometry, choose the correct time of irrigation and compare them with stress-exposed plants.

Published

2016

18. SO2 Measurement with Sorption - Cumulative and Ultraviolet Fluorescent Method near Nováky Power Plant

Author

Jozefína Pokrývková, Jakub Fuska, and Viliam Bárek

Subjects

Pollutant, Earth surface, Atmosphere, Power station, Environmental engineering, medicine, Air pollution, Environmental science, Sorption, Hydrometeorology, General Medicine, medicine.disease_cause, Ultraviolet

Abstract

Satisfying of increasing demands of society has often resulted in uncontrolled discharges of harmful substances into the atmosphere. The situation is gradually improving over the past 50 years, but the environmental impact is still evident and it must be monitored and evaluated. Reduction of emissions released into the atmosphere and reduction of air pollution impact on the Earth surface occurs due to development of new methods and technologies in the industry and legislation. This paper deals with the possibilities of the two methods of the SO2 concentration measurements - sorption - cumulative and ultraviolet fluorescent method at the location of the power plant Novaky. In the imission area is built automated measuring station (AMS) Oslany (operated by ENVITECH, managed by Slovak Hydrometeorological Institute Bratislava) as the measure of the total concentration of the pollutant. The research have shown that the maximum concentration detected in this area reached up to 64.46 µg.m-3 of SO2

Published

2016

19. Biofortification of mungbean (Vigna radiata L. (Wilczek)) with boron, zinc and iron alters its grain yield and nutrition

Author

Salwinder Singh Dhaliwal, Vivek Sharma, Arvind Kumar Shukla, Manmeet Kaur, Janpriya Kaur, Vibha Verma, Prabhjot Singh, Viliam Barek, Ahmed Gaber, and Akbar Hossain

Subjects

Medicine, Science

Abstract

Abstract Mungbean [Vigna radiata L. (Wilczek)] is considered as an extremely nutritious crop possessing a high level of micronutrients, but their low bioavailability in the crop leads to micronutrient malnutrition in humans. Therefore, the present study was conducted to investigate the potential of nutrients viz. boron (B), zinc (Zn) and iron (Fe) biofortification on productivity, nutrient concentration and uptake as well as the economics of mungbean cultivation. In the experiment, the various combinations of RDF with ZnSO4.7H2O (0.5%), FeSO4.7H2O (0.5%) and borax (0.1%) were applied to mungbean variety ML 2056. The combined foliar application of Zn, Fe and B was highly efficient in increasing the yield of grain as well as straw in mungbean exhibiting maximum values i.e. 944 kg ha−1 and 6133 kg ha−1, respectively. Similar results for B, Zn and Fe concentration in grain (27.3 mg kg−1, 35.7 mg kg−1 and 187.1 mg kg−1, respectively) and straw (21.1 mg kg−1, 18.6 mg kg−1 and 376.1 mg kg−1, respectively) of mungbean were observed. Also, uptake of Zn and Fe by grain (31.3 g ha−1 and 164.4 g ha−1, respectively), as well as straw (113.7 g ha−1 and 2295.0 g ha−1, respectively), was maximum for the above treatment. Whereas, the B uptake was found to enhance significantly through the combined application of B, Zn and Fe, where the values 24.0 g ha−1 and 128.7 g ha−1 corresponded to grain and straw, respectively. Thus, combined use of ZnSO4.7H2O (0.5%) + FeSO4.7H2O (0.5%) and borax (0.1%) significantly improved the yield outcomes, the concentration of B, Zn and Fe, uptake and economic returns of mungbean cultivation to alleviate the B, Zn and Fe deficiency.

Published

2023

20. Pollution Spread Analysis In The Malá Nitra River By Using Of 1-D Model

Author

Marek Sokac, Viliam Bárek, Yvetta Velísková, and Peter Halaj

Subjects

Wastewater disposal, Pollution, Human health, Water Framework Directive, Aquatic environment, media_common.quotation_subject, General Engineering, Environmental science, Legislation, Numerical models, Water quality, Environmental planning, media_common

Abstract

The Water Framework Directive (WFD) is a key initiative aimed at improving water quality throughout the EU. The development of the computer technologies enables us to solve the ecological problems in water management practice very efficiently. The mathematical and numerical modelling allows evaluating various situations of contaminants spread in rivers (from everyday wastewater disposal through the fatal discharges of toxic substances) without immediate destructive impact on the environment. The paper deals with 1-dimensional numerical model HEC-RAS and its response on various values of dispersion coefficient. This parameter is one of the most important input data for simulation of pollution spread in streams. There were performed tracer experiments in the Malá Nitra River and results of these measurements are compared with results of numerical simulations. The values of the longitudinal dispersion coefficient were estimated from this comparison. The range of mean values of this coefficient determined on the base of numerical model application was 0.05 – 0.13 m2 s−1, for the other flow condition it was 0.07 – 2.5 m2 s−1 or 0.28 – 0.6 m2 s−1. The next task was carrying out the model sensitivity analysis, which means to evaluate input data influences, especially longitudinal dispersion coefficient, on outputs computed by 1-dimensional simulation model HEC-RAS. According to the results it can be said that the model HEC-RAS responds to longitudinal dispersion coefficient value changes adequately, suitably and proportionately. The application of the model HEC-RAS demonstrated the eligibility for simulation of pollution spread in streams, which means that it is a suitable tool allowing a reasonable support in decision making process connected to river water quality management.

Published

2014

21. Evaluation of Hyperspectral Reflectance Parameters to Assess the Leaf Water Content in Soybean

Author

Marian Brestic, Pavol Hauptvogel, Marek Kovár, Viliam Bárek, Marek Zivcak, and Oksana Sytar

Subjects

0106 biological sciences, Leaf water content, lcsh:Hydraulic engineering, Absorption of water, 010504 meteorology & atmospheric sciences, water, Geography, Planning and Development, Aquatic Science, Photochemical Reflectance Index, 01 natural sciences, Biochemistry, remote sensing, lcsh:Water supply for domestic and industrial purposes, Dry weight, lcsh:TC1-978, medicine, Dehydration, soybean, Irrigation management, Water content, 0105 earth and related environmental sciences, Water Science and Technology, lcsh:TD201-500, dehydration, medicine.disease, Horticulture, vegetation indices, Environmental science, hyperspectral reflectance, Precision agriculture, 010606 plant biology & botany

Abstract

Nondestructive assessment of water content and water stress in plants is an important component in the rational use of crop irrigation management in precision agriculture. Spectral measurements of light reflectance in the UV/VIS/NIR region (350&ndash, 1075 nm) from individual leaves were acquired under a rapid dehydration protocol for validation of the remote sensing water content assessment in soybean plants. Four gravimetrical approaches of leaf water content assessment were used: relative water content (RWC), foliar water content as percent of total fresh mass (FWCt), foliar water content as percent of dry mass (FWCd), and equivalent water thickness (EWT). Leaf desiccation resulted in changes in optical properties with increasing relative reflectance at wavelengths between 580 and 700 nm. The highest positive correlations were observed for the relations between the photochemical reflectance index (PRI) and EWT (rP = 0.860). Data analysis revealed that the specific water absorption band at 970 nm showed relatively weaker sensitivity to water content parameters. The prediction of leaf water content parameters from PRI measurements was better with RMSEs of 12.4% (rP = 0.786), 9.1% (rP = 0.736), and 0.002 (rP = 0.860) for RWC, FWCt, and EWT (p &lt, 0.001), respectively. The results may contribute to more efficient crop water management and confirmed that EWT has a statistically closer relationship with reflectance indices than other monitored water parameters.

Published

2019

22. Heat stress in wheat: a global challenge to feed billions in the current era of the changing climate

Author

Md. Farhad, Uttam Kumar, Vipin Tomar, Pradeep Kumar Bhati, Navaneetha Krishnan J., Kishowar-E-Mustarin, Viliam Barek, Marian Brestic, and Akbar Hossain

Subjects

wheat, heat stress, changing climate, food security, current era, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Crop failure is largely caused by various climate hazards, and among them, heat stress is the primary factor hindering crop production. The significant global loss of crop yield is primarily due to heat-related damage during the reproductive phase. Terminal heat stress has been well documented in wheat, causing morphophysiological alterations, biochemical disruptions, and reduction of genetic potential. The formation of shoots and roots, the effect on the double ridge stage, and early biomass in the vegetative stage are also impacted by heat stress. The final negative outcomes of heat stress include reduced grain number and weight, slower grain filling rate, reduced grain quality, and shorter grain filling duration. Plants have developed mechanisms to adapt to heat stress through modifications in their morphological or growth responses, physiological and biochemical pathways, and changes in enzyme reactions. Numerous heat tolerance genes have been identified in wheat, but the more extensive study is needed to increase heat tolerance in crops to satisfy the food demands of the world’s growing population. The global food policy needs to prioritize and promote additional joint research and the development of heat-tolerant wheat breeding to ensure the world’s food security.

Published

2023

23. Surveying of Small Water Reservoirs for Water Management Purposes

Author

Jakub Fuska and Viliam Bárek

Subjects

Data processing, Data collection, GNSS applications, Environmental science, computer.file_format, Executable, Raster graphics, Digital elevation model, Landscape engineering, computer, Sonar, Civil engineering

Abstract

Small water reservoirs are important part of the landscape that is changing under various anthropogenic and natural processes. Knowledge of the actual parameters, such as actual water reservoir storage capacity or the amount of sediment accumulated in the water reservoir is crucial for the further operation and for the fulfilling of the water reservoir purposes. Data collection and processing for obtaining of the actual information is executable as non-contact mapping with the use of sonar and GNSS receiver. This paper describes the experience of the Department of Landscape Engineering with the use of this method for the data collection and data processing to the format of raster and vector digital elevation models of water reservoir bottom. Achieved average accuracy in the creation of these models is in the interval of 13–29 mm. These parameters make the use of non-contact mapping the available, accurate and quick option for the surveying in the water management.

Published

2015

24. The intertwining of Zn-finger motifs and abiotic stress tolerance in plants: Current status and future prospects

Author

Debojyoti Moulick, Karma Landup Bhutia, Sukamal Sarkar, Anirban Roy, Udit Nandan Mishra, Biswajit Pramanick, Sagar Maitra, Tanmoy Shankar, Swati Hazra, Milan Skalicky, Marian Brestic, Viliam Barek, and Akbar Hossain

Subjects

abiotic stresses, Zn-finger proteins, mechanisms, plants, gene signalling ABA - abscisic acid, Plant culture, SB1-1110

Abstract

Environmental stresses such as drought, high salinity, and low temperature can adversely modulate the field crop’s ability by altering the morphological, physiological, and biochemical processes of the plants. It is estimated that about 50% + of the productivity of several crops is limited due to various types of abiotic stresses either presence alone or in combination (s). However, there are two ways plants can survive against these abiotic stresses; a) through management practices and b) through adaptive mechanisms to tolerate plants. These adaptive mechanisms of tolerant plants are mostly linked to their signalling transduction pathway, triggering the action of plant transcription factors and controlling the expression of various stress-regulated genes. In recent times, several studies found that Zn-finger motifs have a significant function during abiotic stress response in plants. In the first report, a wide range of Zn-binding motifs has been recognized and termed Zn-fingers. Since the zinc finger motifs regulate the function of stress-responsive genes. The Zn-finger was first reported as a repeated Zn-binding motif, comprising conserved cysteine (Cys) and histidine (His) ligands, in Xenopus laevis oocytes as a transcription factor (TF) IIIA (or TFIIIA). In the proteins where Zn2+ is mainly attached to amino acid residues and thus espousing a tetrahedral coordination geometry. The physical nature of Zn-proteins, defining the attraction of Zn-proteins for Zn2+, is crucial for having an in-depth knowledge of how a Zn2+ facilitates their characteristic function and how proteins control its mobility (intra and intercellular) as well as cellular availability. The current review summarized the concept, importance and mechanisms of Zn-finger motifs during abiotic stress response in plants.

Published

2023

25. The Influence of Climate Change on Water Demands for Irrigation of Special Plants and Vegetables in Slovakia

Author

Viliam Bárek, Peter Halaj, and Dušan Igaz

Subjects

Irrigation, Water conservation, Environmental protection, Greenhouse gas, Global warming, Climate change, Environmental science, Water resource management, Industrial Revolution, Human being

Abstract

There exist proofs that the global warming, which is happening since the industrial revolution, is the consequence of the greenhouse emissions increase caused by the human activity. The development of computer models, besides the increasing evidences about the rising temperatures, and the more frequent weather variation are in accordance with the scientist’s predictions about the climate change. The modelling tools also showed that in the twenty-first century temperatures can increase hereafter and influence the nature and the human being.

Published

2009

26. Prospects of Hydrogels in Agriculture for Enhancing Crop and Water Productivity under Water Deficit Condition

Author

Sanmay Kumar Patra, Ratneswar Poddar, Marian Brestic, Pravat Utpal Acharjee, Parijat Bhattacharya, Sudip Sengupta, Payel Pal, Nyape Bam, Barun Biswas, Viliam Barek, Peter Ondrisik, Milan Skalicky, and Akbar Hossain

Subjects

Chemical technology, TP1-1185

Abstract

In arid and semiarid regions and under rainfed conditions, water availability is one of the principal ecological constraints that hinder agriculture’s sustainability. The super absorbent polymer (agricultural) is water-absorbing and is cross-linked to absorb aqueous solutions through bonding with water molecules. It is a new approach to water management under water-stressed conditions to conserve soil moisture in the active rooting zone of crops by reducing the evaporation, deep percolation, and runoff losses. Agricultural hydrogels are water retention granules which swell their original size to numerous intervals when they come in contact with water. It can absorb and retain a huge amount of moisture under plentiful rainfall and irrigation events and release it back to the soil for mitigating crop water demand when the rhizosphere zone dries up under drought conditions. It plays multifarious roles in agriculture including soil-water retainer, nutrient and pesticide carriers, seed coating, soil erosion reducer, and food additives. It has the extraordinary ability in improving different physicochemical, hydrophysical, and biological properties of soil, simultaneously decreasing irrigation frequency, enhancing the water and nutrient use efficiencies, and increasing the yield and quality of the field, plantation, ornamental, and vegetable crops. These biodegradable materials are nontoxic to the soil, crop, and environment. Hence, the addition of the hydrogel polymer will be a promising and feasible technological tool for augmenting crop productivity under moisture stressed conditions.

Published

2022

27. Biofortification—A Frontier Novel Approach to Enrich Micronutrients in Field Crops to Encounter the Nutritional Security

Author

Salwinder Singh Dhaliwal, Vivek Sharma, Arvind Kumar Shukla, Vibha Verma, Manmeet Kaur, Yashbir Singh Shivay, Shahida Nisar, Ahmed Gaber, Marian Brestic, Viliam Barek, Milan Skalicky, Peter Ondrisik, and Akbar Hossain

Subjects

mineral dense field crops, agronomic biofortification, green technology, transgenic/biotechnological approach, nanotechnology, gene modification, Organic chemistry, QD241-441

Abstract

Globally, many developing countries are facing silent epidemics of nutritional deficiencies in human beings and animals. The lack of diversity in diet, i.e., cereal-based crops deficient in mineral nutrients is an additional threat to nutritional quality. The present review accounts for the significance of biofortification as a process to enhance the productivity of crops and also an agricultural solution to address the issues of nutritional security. In this endeavor, different innovative and specific biofortification approaches have been discussed for nutrient enrichment of field crops including cereals, pulses, oilseeds and fodder crops. The agronomic approach increases the micronutrient density in crops with soil and foliar application of fertilizers including amendments. The biofortification through conventional breeding approach includes the selection of efficient genotypes, practicing crossing of plants with desirable nutritional traits without sacrificing agricultural and economic productivity. However, the transgenic/biotechnological approach involves the synthesis of transgenes for micronutrient re-translocation between tissues to enhance their bioavailability. Soil microorganisms enhance nutrient content in the rhizosphere through diverse mechanisms such as synthesis, mobilization, transformations and siderophore production which accumulate more minerals in plants. Different sources of micronutrients viz. mineral solutions, chelates and nanoparticles play a pivotal role in the process of biofortification as it regulates the absorption rates and mechanisms in plants. Apart from the quality parameters, biofortification also improved the crop yield to alleviate hidden hunger thus proving to be a sustainable and cost-effective approach. Thus, this review article conveys a message for researchers about the adequate potential of biofortification to increase crop productivity and nourish the crop with additional nutrient content to provide food security and nutritional quality to humans and livestock.

Published

2022

28. Bioinoculants—Natural Biological Resources for Sustainable Plant Production

Author

Sagar Maitra, Marian Brestic, Preetha Bhadra, Tanmoy Shankar, Subhashisa Praharaj, Jnana Bharati Palai, M. Mostafizur Rahman Shah, Viliam Barek, Peter Ondrisik, Milan Skalický, and Akbar Hossain

Subjects

negative impact, green revolution, bioinoculants, climate change mitigation, agricultural sustainability, Biology (General), QH301-705.5

Abstract

Agricultural sustainability is of foremost importance for maintaining high food production. Irresponsible resource use not only negatively affects agroecology, but also reduces the economic profitability of the production system. Among different resources, soil is one of the most vital resources of agriculture. Soil fertility is the key to achieve high crop productivity. Maintaining soil fertility and soil health requires conscious management effort to avoid excessive nutrient loss, sustain organic carbon content, and minimize soil contamination. Though the use of chemical fertilizers have successfully improved crop production, its integration with organic manures and other bioinoculants helps in improving nutrient use efficiency, improves soil health and to some extent ameliorates some of the constraints associated with excessive fertilizer application. In addition to nutrient supplementation, bioinoculants have other beneficial effects such as plant growth-promoting activity, nutrient mobilization and solubilization, soil decontamination and/or detoxification, etc. During the present time, high energy based chemical inputs also caused havoc to agriculture because of the ill effects of global warming and climate change. Under the consequences of climate change, the use of bioinputs may be considered as a suitable mitigation option. Bioinoculants, as a concept, is not something new to agricultural science, however; it is one of the areas where consistent innovations have been made. Understanding the role of bioinoculants, the scope of their use, and analysing their performance in various environments are key to the successful adaptation of this technology in agriculture.

Published

2021

29. Chlorophyll Fluorescence Kinetics May Be Useful to Identify Early Drought and Irrigation Effects on Photosynthetic Apparatus in Field-Grown Wheat

Author

Lenka Botyanszka, Marek Zivcak, Erik Chovancek, Oksana Sytar, Viliam Barek, Pavol Hauptvogel, Andrej Halabuk, and Marian Brestic

Subjects

chlorophyll fluorescence, spectral reflectance, drought, stress, phenotyping, wheat, Agriculture

Abstract

To assess the reliability and sensitivity of non-invasive optical methods to detect the early effects of water deficit in the field, we analyzed the time-series of non-invasive measurements obtained in a dry season in a representative collection of wheat genotypes grown in small-plot field trials, in non-irrigated and irrigated variants. Despite a progressive water deficit and significant yield loss, the measurements indicated very minor changes in chlorophyll content or canopy cover. This corresponded well to the insignificant differences in spectral reflectance normalized difference vegetation index (NDVI) values. On the other hand, we identified the significant and rapid response of fast fluorescence kinetics data following the onset of irrigation. Analysis of parameters showed the main effects of drought were associated with changes in the amplitude of the I–P phase of the OJIP transient, indicating changes at the level of photosystem I and beyond. Statistical analyses identified the integrative parameter performance index PItot as the most sensitive parameter, which well-reflects the differences in responses of the genotypes to water deficit. Our results suggest that focusing on photosynthetic functions detected by the rapid chlorophyll fluorescence records can provide more accurate information on the drought stress level, compared to the structural data obtained by absorbance or reflectance measurements.

Published

2020