Your search keyword '"Kovács, Gergő Péter"' showing total 20 results

1. Incorporating functional traits into heavy metals phytoremediation: The future of field-based phytoremediation

Author

Liang, Zhiwei, Neményi, András, Kovács, Gergő Péter, and Gyuricza, Csaba

Published

2024

2. The Role of Brassinosteroids and Nano-Encapsulated Brassinosteroids in Capsicum Pepper Growth and Physiological Adaptations to High-Temperature Stress.

Author

Halaji, Behnaz, Haghighi, Maryam, Kovács, Gergő Péter, Mirmazloum, Iman, and Szegő, Anita

Abstract

Much is unknown about the positive effect of plant growth regulators, such as brassinosteroids, on high-temperature stress tolerance in pepper plants. This study aimed to reveal the effect of exogenous brassinosteroids (BRs) on high-temperature-stressed bell peppers by foliar application. BR treatments (1 µM), in both bulk (Br) and nano-encapsulated (N-Br) forms, were applied to pepper plants subjected to high-temperature stress (35 °C). The results indicated an increase in plant biomass, number of fruits, and relative water content and a significantly lower flower abscission in response to Br and N-Br under high temperatures. Br and N-Br applications at high temperatures resulted in the lowest leaf water potential. Br and N-Br, especially N-Br, were more effective than Br in the upregulation of the antioxidant enzyme activity, such as catalase (CAT), superoxide dismutase (SOD), peroxidase (POD), and the overall antioxidant capacity of heat-stressed plants. MDA and electrolyte leakage significantly declined as a result of BR application and the proline content of the leaves was significantly higher in Br and N-Br treatments at high temperatures. Further analysis of the data pointed to SOD, DPPH, proline, RWC, and leaf water potential in pepper leaves as the most affected traits in response to brassinosteroid application under high temperature. Glucose and fructose levels also increased under high temperature, and only N-Br administration showed a significant effect on reducing the sugar levels. At high temperatures, the ratio of saturated to unsaturated fatty acids was greatest when neither Br nor N-Br was present. N-Br could reduce this ratio effectively. Conclusively, the overall performance of bell pepper improved in response to both types of BR application with no significant discrimination being found to prioritize the encapsulated form of BR application. [ABSTRACT FROM AUTHOR]

Published

2024

3. Emerging Trends in Non-Protein Amino Acids as Potential Priming Agents: Implications for Stress Management Strategies and Unveiling Their Regulatory Functions.

Author

Decsi, Kincső, Ahmed, Mostafa, Rizk, Roquia, Abdul-Hamid, Donia, Kovács, Gergő Péter, and Tóth, Zoltán

Subjects

STRESS management, AMINO acids, GABA, CLIMATE change, ABIOTIC stress

Abstract

Plants endure the repercussions of environmental stress. As the advancement of global climate change continues, it is increasingly crucial to protect against abiotic and biotic stress effects. Some naturally occurring plant compounds can be used effectively to protect the plants. By externally applying priming compounds, plants can be prompted to trigger their defensive mechanisms, resulting in improved immune system effectiveness. This review article examines the possibilities of utilizing exogenous alpha-, beta-, and gamma-aminobutyric acid (AABA, BABA, and GABA), which are non-protein amino acids (NPAAs) that are produced naturally in plants during instances of stress. The article additionally presents a concise overview of the studies' discoveries on this topic, assesses the particular fields in which they might be implemented, and proposes new avenues for future investigation. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Influence of Zinc Oxide Nanoparticles and Salt Stress on the Morphological and Some Biochemical Characteristics of Solanum lycopersicum L. Plants.

Author

Ahmed, Mostafa, Marrez, Diaa Attia, Rizk, Roquia, Zedan, Mostafa, Abdul-Hamid, Donia, Decsi, Kincső, Kovács, Gergő Péter, and Tóth, Zoltán

Subjects

TOMATOES, SOIL salinity, NANOPARTICLES, SALT, CROP yields, CROP quality, ZINC oxide

Abstract

Salinity reduces crop yields and quality, causing global economic losses. Zinc oxide nanoparticles (ZnO-NPs) improve plant physiological and metabolic processes and abiotic stress resistance. This study examined the effects of foliar ZnO-NPs at 75 and 150 mg/L on tomato Kecskeméti 549 plants to alleviate salt stress caused by 150 mM NaCl. The precipitation procedure produced ZnO-NPs that were characterized using UV-VIS, TEM, STEM, DLS, EDAX, Zeta potential, and FTIR. The study assessed TPCs, TFCs, total hydrolyzable sugars, total free amino acids, protein, proline, H2O2, and MDA along with plant height, stem width, leaf area, and SPAD values. The polyphenolic burden was also measured by HPLC. With salt stress, plant growth and chlorophyll content decreased significantly. The growth and development of tomato plants changed by applying the ZnO-NPs. Dosages of ZnO-NPs had a significant effect across treatments. ZnO-NPs also increased chlorophyll, reduced stress markers, and released phenolic chemicals and proteins in the leaves of tomatoes. ZnO-NPs reduce salt stress by promoting the uptake of minerals. ZnO-NPs had beneficial effects on tomato plants when subjected to salt stress, making them an alternate technique to boost resilience in saline soils or low-quality irrigation water. This study examined how foliar application of chemically synthesized ZnO-NPs to the leaves affected biochemistry, morphology, and phenolic compound synthesis with and without NaCl. [ABSTRACT FROM AUTHOR]

Published

2024

5. Competition Indices and Economic Benefits of Winter Wheat and Winter Peas in Mixed Cropping.

Author

Vályi-Nagy, Marianna, Kristó, István, Tar, Melinda, Rácz, Attila, Szentpéteri, Lajos, Irmes, Katalin, Kovács, Gergő Péter, and Ladányi, Márta

Subjects

WINTER wheat, WHEAT, ECONOMIC competition, PLANT communities, CATCH crops, INTERCROPPING

Abstract

Intensive wheat production, which produces high yields through the excessive use of chemical inputs and non-renewable energy, is unsustainable in the long term. Innovative cultivation methods such as intercropping can address emerging challenges. This kind of plant association offers the possibility of achieving a balanced yield with the use of a natural nitrogen source. An experiment was conducted for three growing seasons (2020/2021, 2021/2022, 2022/2023) with a combination of three winter wheat varieties (GK Szilárd, Cellule, GK Csillag) and a winter pea variety (Aviron) in three sowing densities to determine the species interaction and the economics of mixed plots. The intercropping systems were evaluated in terms of the land equivalent ratio (LER), aggressivity (A), competitive ratio CR), actual yield loss (AYL), monetary advantage index (MAI), and intercropping advantage (IA). In almost all mixtures, the values of partial A, CR, and AYL indicated that wheat was more competitive than peas due to the overconcentration of mixtures. For MAI, the mixture Cellule/Aviron 75:50 was more profitable than the others in the first two years. Our results draw attention to the influence of the seeding rate, which can contribute to new directions for current research. [ABSTRACT FROM AUTHOR]

Published

2024

6. Quantifying the Effect of Light Intensity Uniformity on the Crop Yield by Pea Microgreens Growth Experiments.

Author

Balázs, László, Kovács, Gergő Péter, Gyuricza, Csaba, Piroska, Petra, Tarnawa, Ákos, and Kende, Zoltán

Subjects

LIGHT intensity, CROP yields, UNIFORMITY, VERTICAL farming, CROP quality, PEAS

Abstract

Differences in individual plant growth are affected by the spatial variation of light intensity, reducing the homogeneity of microgreen crops. Identifying the tradeoffs between light uniformity and crop quality is challenging due to the confounding effect of nonuniform illuminance with other noise factors. This study presents the results of hydroponic pea (Pisum sativum, L.) growth experiments aimed at quantifying the effect of photon irradiance variations. By adjusting the power of LED luminaires, we established one uniformly illuminated zone and two non-uniformly illuminated zones. Germinated seeds with 6 cm-long radicles were transplanted to cultivation trays with known light intensity in predetermined positions. Plants were cut 12 days after the start of light treatment and measured for fresh weight and shoot height. Our findings revealed no significant difference between the crop yield on trays having the same average PPFD but different light uniformity. However, correlation analysis of individual measurement data showed that local PPFD differences explained 31% of the fresh weight variation, and the rest was attributed to noise in the germination and growth processes. We also discuss the implications of our findings for the design and optimization of vertical farms. [ABSTRACT FROM AUTHOR]

Published

2023

7. Germination and seedling development responses of sunflower seeds to temperature and different levels of water availability.

Author

Sghaier, Asma Haj, Khaeim, Hussein, Tarnawa, Ákos, Kovács, Gergő Péter, Gyuricza, Csaba, and Kende, Zoltán

Subjects

SUNFLOWER seeds, WATER supply, WATER levels, GERMINATION, SEEDLINGS, LIFE cycles (Biology)

Abstract

The article focuses on the process of seed germination, highlighting the importance of interactions between proteins, carbohydrates, and lipids during the imbibition stage, and the role of adenosine triphosphate production in activating germination. It discusses how temperature and soil moisture influence germination rates and crop establishment, emphasizing the impact of these factors on seed viability, seedling development, and overall crop yield and quality.

Published

2024

8. Potential use of bamboo resources in energy value‐added conversion technology and energy systems.

Author

Liang, Zhiwei, Neményi, András, Kovács, Gergő Péter, and Gyuricza, Csaba

Subjects

POWER resources, ENERGY conversion, BAMBOO, CLIMATE change, ETHANOL as fuel, BIOMASS liquefaction, ANAEROBIC digestion, BIOMASS energy

Abstract

Bamboo has been identified as a promising solution to the energy crisis and climate change as a source of biomass energy. Due to its rapid growth and high‐value products, bamboo is considered as a potential source of biomass energy. Bamboo contains a significant amount of cellulose and hemicellulose, which can be converted to sugar constituents, making it an ideal raw material for energy production. This article reviews the different processes of producing bioethanol, biogas, biochar, and bio‐oil from bamboo biomass using techniques such as pyrolysis, hydrothermal liquefaction, fermentation, and anaerobic digestion, and discusses the opportunities and challenges of these conversion technologies. It also reviews the main types and morphological characteristics of energy bamboo species and proposes an evaluation system for energy bamboo species, which optimizes the utilization efficiency of bamboo biomass energy and maximizes benefits by adopting appropriate methods for producing bioenergy based on the characteristics of different bamboo species. [ABSTRACT FROM AUTHOR]

Published

2023

9. Effect of Mulching on Soil Quality in an Agroforestry System Irrigated with Reused Water.

Author

Kun, Ágnes, Simon, Barbara, Zalai, Mihály, Kolozsvári, Ildikó, Bozán, Csaba, Jancsó, Mihály, Körösparti, János Tamás, Kovács, Gergő Péter, Gyuricza, Csaba, and Bakti, Beatrix

Subjects

MULCHING, SOIL quality, AGROFORESTRY, SOIL salinity, AGRICULTURAL intensification, SODIC soils, INCEPTISOLS

Abstract

In this study, a special rice-energy willow/poplar agroforestry system was used to analyze the effects of reused water irrigation and mulching on soil salinity, earthworm biomass and abundance, soil organic matter (SOM) content and weed coverage in treerow-dependent habitats. After three-year-irrigation, we investigated the woody line (WL), the buffer zone (BZ) and the crop line habitats (CL). Between 2019 and 2021, we collected data on the distribution of soil-specific electrical conductivity (EC), ammonium-lactate soluble sodium (AL-Na) and exchangeable cations (Na+, K+, Ca2+, Mg2+) and soil NO2− + NO3−-N contents from CL habitats irrigated with effluent water from an intensive catfish farm. Based on our results, significantly greater earthworm abundance (274 pc m−2) and earthworm biomass (54.0 g m−2) values were measured in WL than in BZ or CL habitats. There was no significant difference in weed coverage between the CL (0.61%) and BZ (1.91%), but weeds were significantly denser on the WL (12.3%). In the third year, the EC, AL-Na and ESP values were lower, but the SOM was higher in mulched soil (183.1 mS cm−1, 253.1 mg kg−1, 4.4 ESP% and 4.597%, respectively) than in un-mulched soil. [ABSTRACT FROM AUTHOR]

Published

2023

10. Effect of Abiotic Stresses from Drought, Temperature, and Density on Germination and Seedling Growth of Barley (Hordeum vulgare L.).

Author

Tarnawa, Ákos, Kende, Zoltán, Sghaier, Asma Haj, Kovács, Gergő Péter, Gyuricza, Csaba, and Khaeim, Hussein

Subjects

ABIOTIC stress, BARLEY, GERMINATION, SEED size, DROUGHTS, WATER levels, HORDEUM, SEEDLINGS

Abstract

Seed germination and seedling growth are highly sensitive to deficit moisture and temperature stress. This study was designed to investigate barley (Hordeum vulgare L.) seeds' germination and seedling growth under conditions of abiotic stresses. Constant temperature levels of 5, 10, 15, 20, 25, 30, and 35 °C were used for the germination test. Drought and waterlogging stresses using 30 different water levels were examined using two methods: either based at 1 milliliter intervals or, on the other hand, as percentages of thousand kernel weight (TKW). Seedling density in a petri dish and antifungal application techniques were also investigated. Temperature significantly impacted germination time and seedling development with an ideal range of 15–20 °C, with a more comprehensive range to 10 °C. Higher temperatures reversely affected germination percentage, and the lower ones affected the germination and seedling growth rate. Germination commenced at 130% water of the TKW, and the ideal water range for seedling development was greater and more extensive than the range for germination, which means there is a difference between the starting point for germination and the seedling development. Seed size define germination water requirements and provides an objective and more precise basis suggesting an optimal range supply of 720% and 1080% of TKW for barley seedling development. A total of 10 seeds per 9 cm petri dish may be preferable over greater densities. The techniques of priming seeds with an antifungal solution (Bordóilé or Hypo) or antifungal application at even 5 ppm in the media significantly prevented fungal growth. This study is novel regarding the levels and types of abiotic stresses, the crop, the experimental and measurement techniques, and in comparison to the previous studies. [ABSTRACT FROM AUTHOR]

Published

2023

11. Conservation Tillage Improves Soil Quality and Crop Yield in Hungary.

Author

Kovács, Gergő Péter, Simon, Barbara, Balla, István, Bozóki, Boglárka, Dekemati, Igor, Gyuricza, Csaba, Percze, Attila, and Birkás, Márta

Subjects

*TILLAGE, *CONSERVATION tillage, *CROP quality, *CROP yields, *SOIL quality, *SOIL protection

Abstract

This paper provides an overview of the progress of tillage in Hungary. The local and international impacts on the national practice are summarized, and some adoption of the conservation tillage results is presented concerning Hungary. The interest in conservation agriculture in Hungary dates back almost 120 years; however, any significant changes only occurred in the last 50 years. Interestingly, the factors of progress and restraint in tillage have appeared simultaneously over the years. Among the factors restraining tillage progress, the most retarding were the beliefs that have existed for many decades, as soil conservation was not considered nor was the need to mitigate climate-related hazards. Progress was driven by the commitment to soil protection, the opportunity to raise farming standards, and the need to mitigate climate-related threats. Since the average yield in Hungary was usually sufficient for the domestic need, the main objective of crop production was to avoid yield loss. Long-term experimental data and monitoring results were considered for this study. The impacts of new tillage solutions, elaborated in foreign countries, on tillage modernization were reviewed. The experiences and first results in no-till (direct drilling) and strip-tillage showed that difficulties can gradually be reduced through site-specific technology solutions. The need for subsoiling is not a matter of debate nowadays but rather the timing of operation and the investigation of the duration of the effects. Due to its complex advantages, tine tillage occupies an increasing rank among soil conservation systems. The area of ploughed soils has decreased; however, improved implementation is required. [ABSTRACT FROM AUTHOR]

Published

2023

12. Germination and Seedling Development Responses of Sunflower (Helianthus annuus L.) Seeds to Temperature and Different Levels of Water Availability.

Author

Haj Sghaier, Asma, Khaeim, Hussein, Tarnawa, Ákos, Kovács, Gergő Péter, Gyuricza, Csaba, and Kende, Zoltán

Subjects

COMMON sunflower, SUNFLOWER seeds, WATER levels, WATER supply, SUNFLOWERS, SEEDS, GERMINATION

Abstract

Abiotic variables are crucial for seed germination and seedling development. In the present work, we attempted to determine the optimal conditions (temperature, water, seed density, and fungal growth) for sunflower seed development (Helianthus annus L. Larissza). The germination of sunflower seeds was investigated under controlled conditions at eight consistent temperatures: 5 °C, 10 °C, 15 °C, 20 °C, 25 °C, 30 °C, 35 °C, and 40 °C. For the water test, there were 12 water levels based on one-milliliter intervals and 18 water levels based on thousand kernel weight (TKW). In addition, four seed densities (6, 8, 10, and 12) and two antifungal application techniques (sterilization and growing medium) were examined. The results showed that temperature has a significant effect on seed germination, germination timing, and seedling development. Temperatures between 15 and 35 degrees Celsius were optimal for germination, with 25 degrees Celsius being the optimal temperature for significant germination and seedling development. Beginning at 0.6 mL, or 125% of the TKW, sunflower seeds can germinate under a wide range of water availability. The optimal range for seedling development (8.2–11.4) is wider than the optimal range for dry matter accumulation, which is 5.8–8.2 mL or 1000–1625% of the TKW. The finding that a density of 10 to 12 seeds per 9 cm Petri dish demonstrates the most exceptional values is advantageous for future research and breeding projects, particularly when seeds are scarce. Seed priming is a more effective antifungal application technique than other techniques. [ABSTRACT FROM AUTHOR]

Published

2023

13. SOIL-PLANT INTERACTIONS WITH PRODUCTION OF GREEN MANURE PLANTS UNDER UNFAVOURABLE FIELD CONDITIONS

Author

GYURICZA, Csaba, MIKÓ, Péter, UJJ, Apolka, NAGY, László, and KOVÁCS, Gergő Péter

Published

2009

14. Effects of Nutrient Supply and Seed Size on Germination Parameters and Yield in the Next Crop Year of Winter Wheat (Triticum aestivum L.).

Author

Kristó, István, Vályi-Nagy, Marianna, Rácz, Attila, Irmes, Katalin, Szentpéteri, Lajos, Jolánkai, Márton, Kovács, Gergő Péter, Fodor, Mária Ágnes, Ujj, Apolka, Valentinyi, Klára Veresné, and Tar, Melinda

Subjects

SEED size, WHEAT, CROP yields, GERMINATION, AGRICULTURAL productivity, WINTER wheat

Abstract

Winter wheat is one of the most important crops globally and also in Hungary. Hungary has excellent crop production potential including seed production. The aim of our experiment is to determine the effects of different amounts and proportions of nutrients and those of the seed size of winter wheat in laboratory seed tests on the seed parameters (germination percentage, germination power, seedling health and vigour), as well as in field tests of the seed parameters (emergence percentage and yield of next crop year). Laboratory seed tests of winter wheat variety GK Petur were conducted with seeds that underwent ten nutrient treatments and of three seed size fractions over four crop years, together with field experiments in three growing seasons. Compared to the untreated control group, N treatments significantly decreased the health of the seedlings in the next generation of winter wheat. PK treatments without N increased the germination percentage, vigour value and emergence percentage significantly, but the health of the seedlings decreased. In contrast, NPK treatments with a ratio of 2:1:1 improved all the tested parameters compared to those of the control group. The increase in seed sizes significantly increased the germination power, seedling health, vigour value, emergence percentage and the yield of the next crop year. It can be concluded that the factors of nutrient supply, crop year of the seed production and the seed size significantly influence the quality of the seed (germination percentage, germination power, seedling health, vigour and emergence percentage), thus also the yield of the next generation. [ABSTRACT FROM AUTHOR]

Published

2023

15. Double cropping as an adaptation mechanism to climate change patterns in the Carpathian Basin.

Author

Láng, Vince, Dafnaki, Dimitra, Balla, István, Czako, Ivan, Csenki, Sándor, Kovács, Gergő Péter, Mutua, Kennedy, Szlatenyi, Dora, Vulcz, László, and Bukombe, Benjamin

Subjects

CLIMATE change adaptation, DOUBLE cropping, SWEET corn, CROPPING systems, SUSTAINABILITY, AGRICULTURE, CLIMATE change

Abstract

Adapting agriculture to climate change is essential for sustainable food production. However, the development of suitable adaptation mechanisms requires a clear understanding of the plant-climate interaction. The number of growing degree days (GDD) is a good proxy for understanding plant-climate interrelationship and farm productivity. Here, using a 2-year experiment of barley-sweet corn double cropping (DC) system and 20-year climate and yield data, we found that barley and sweet corn GDD and productivity were strongly related to changes in climate patterns. Furthermore, we found a positive effect of the barley-sweet corn DC system on farm productivity (18.5 and 5.6 tonnes. ha−1 for DC and single cropping respectively) and return on investment (1.8; 1.4 as benefit:cost ratios for DC and single cropping system respectively). Altogether the results of this study suggest that the winter barley-sweet corn double cropping system is a potential strategy to boost farm productivity as well as an adaptation mechanism to be considered for the changing climate in the study region. [ABSTRACT FROM AUTHOR]

Published

2023

16. The Effects of Temperature and Water on the Seed Germination and Seedling Development of Rapeseed (Brassica napus L.).

Author

Haj Sghaier, Asma, Tarnawa, Ákos, Khaeim, Hussein, Kovács, Gergő Péter, Gyuricza, Csaba, and Kende, Zoltán

Subjects

RAPESEED, WATER temperature, GERMINATION, TEMPERATURE effect, SEEDLINGS, SEED size

Abstract

The seed germination and seedling growth of rapeseed are crucial stages in plant life, especially when facing abiotic stresses. In the present work, the effects of water and temperature on seed germination and seedling growth were investigated in a rapeseed crop (Brassica napus L.). The plants were examined under different temperature levels (5 °C, 10 °C, 15 °C, 20 °C, 25 °C, 30 °C, and 35 °C) and water levels (twenty-nine levels based on either one-milliliter intervals or as a percentage of the thousand-kernel weight (TKW)). Moreover, planting densities and antifungal application techniques were investigated in the study. The findings demonstrated substantial variations between all the growth parameters investigated at all the tested temperatures, and 20 °C was considered the optimum within a broad range of 15–25 °C. Water availability plays a significant role in germination, which can be initiated at 0.65 mL, corresponding to 500% of the TKW. The method of TKW is a more accurate aspect of water application because of the consideration of the seed weight and size. The optimal water range for the accumulation of dry weight, 3.85–5.9 mL (2900–4400% of TKW), was greater than that required for seedling growth, 1.45–3.05 mL (1100–2300% of TKW). Twenty to twenty-five seeds per 9 cm Petri dish exhibited the most outstanding values compared to the others, which provides an advantage in breeding programs, especially when there are seed limitations. Seed priming is a more effective antifungal application strategy. These data can be incorporated into future rapeseed germination in vitro studies, breeding programs, and sowing date predictions. [ABSTRACT FROM AUTHOR]

Published

2022

17. Investigation of Carbon-Dioxide-Emissions from Underutilized Grassland between 2019 and 2020.

Author

Varga, Krisztina, Halász, András, Kovács, Gergő Péter, and Csízi, István

Subjects

EMISSIONS (Air pollution), GRASSLANDS, GRASSLAND soils, CARBON emissions, CLIMATE extremes, SOIL moisture

Abstract

Climate change-induced extreme changes are making phytomass yields of extensive grasslands in continental areas increasingly dependent on the season. This situation is exacerbated, inter alia, by the decline in grazing livestock production due to a lack of quality labour, and thus by an increase in the proportion of unused or under-utilised grassland. In our experiments, we have refined the effects of a decade of unused/abandonment, mulch, mowing and meadow utilisation on carbon emissions, soil moisture and soil temperature during two different types of years. We found that unused/abandonment grassland with accumulated duff in the absence of utilization had the highest carbon dioxide emission values in different years, even at lower soil moisture values. Our results confirm the fact that fallow grasslands can be considered a source of risk due to their increased greenhouse gas emissions. [ABSTRACT FROM AUTHOR]

Published

2022

18. Potential use of bamboo in the phytoremediation of heavy metals: A review.

Author

Zhiwei Liang, Kovács, Gergő Péter, Gyuricza, Csaba, and Neményi, András

Subjects

BAMBOO, PHYTOREMEDIATION, HEAVY metals, SOIL pollution, PHYLLOSTACHYS

Abstract

There are many literature sources focusing on the phytoremediation of woody plants, but there are only few dealing with the phytoremediation of bamboo plants. Phytoremediation technology has the advantages of little disturbance to the environment and low remediation cost. Bamboo mainly exists in tropical and subtropical regions. As an energy plant, bamboo has a fast growth cycle, large biomass, simple cultivation, high economic efficiency, and convenient harvesting, which highlights the advantages of bamboo in phytoremediation. In addition, bamboo plants have good tolerance and uptake ability to heavy metals and have high application potential and development value in uptaking heavy metal contaminated soil. However, due to climate, temperature and other reasons, bamboo cannot be widely planted in most countries. Research status of remediation of heavy metal contaminated soil by bamboo plants is summarized. The feasibility of its application in heavy metal contaminated soil is discussed in this paper. Aiming at the shortcomings of existing research, bamboo plants have a prospect in the field of plant phytoremediation for the future. [ABSTRACT FROM AUTHOR]

Published

2022

19. Habitat Changes along Ipoly River Valley (Hungary) in Extreme Wet and Dry Years.

Author

T.-Járdi, Ildikó, Saláta, Dénes, S.-Falusi, Eszter, Kovács, Gergő Péter, Láposi, Réka, Zachar, Zalán, and Penksza, Károly

Subjects

HABITATS, GPS receivers, REMOTE-sensing images, VEGETATION dynamics, WATER management

Abstract

The Ipoly Valley is a natural habitat along the Ipoly River, only slightly affected by water management; therefore, this is an especially sensitive area and reflects well the vegetation changes in the driest (2020) and wettest (2010) years. The study's aim is to identify natural changes within habitats and the evaluation of habitat types' boundaries. For the study, a hand-held GPS device was applied on-site. The habitat identification is based on the General National Habitat Classification System (Á-NÉR). In addition to on-site data, Sentinel-2A satellite data were used to compare different extreme years 2020 and 2021—changes in different habitat patches using different vegetation indices. A change in precipitation causes shifts in the vegetation, this is shown on a map. As we predicted, decreasing the precipitation results in a decrease of the area of wet habitat patches. The satellite image shows a more accurate picture of the real location of the associations, which is important for long-term research. In addition, we can get accurate data on the situation of areas (roads and paths) affected by anthropogenic factors. [ABSTRACT FROM AUTHOR]

Published

2022

20. Impact of Temperature and Water on Seed Germination and Seedling Growth of Maize (Zea mays L.).

Author

Khaeim, Hussein, Kende, Zoltán, Jolánkai, Márton, Kovács, Gergő Péter, Gyuricza, Csaba, and Tarnawa, Ákos

Subjects

GERMINATION, CORN, PLANT life cycles, SEED size, SEEDLINGS, WATER levels

Abstract

Germination and seedling development are essential stages in a plant's life cycle, greatly influenced by temperature and moisture conditions. The aim of this study was to determine maize (Zea mays L.) seeds' germination and seedling development under various abiotic stresses. Eight different temperature levels, 5, 10, 15, 20, 25, 30, 35, and 40 °C, were used. Drought and waterlogging stresses were tested using 30 water levels based on one-milliliter intervals and as percentages of thousand kernel weight (TKW) at 20 and 25 °C. Seedling density and the use of antifungals were also examined. Temperature significantly affected germination duration and seedling growth, and 20 °C was found to be ideal with an optimal range of less than 30 °C. Germination occurred at 25% of the TKW. The optimal water range for seedling growth was higher and broader than the range for germination. Seed size assisted in defining germination water requirements and providing an accurate basis. The present research established an optimum water supply range of 150–325% of the TKW for maize seedling development. A total of 6 seeds per 9 cm Petri dish may be preferable over greater densities. The technique of priming seeds with an antifungal solution before planting was observed to have a better effect than applying it in the growth media. [ABSTRACT FROM AUTHOR]

Published

2022