National Repository of Grey Literature 70 records found  1 - 10nextend  jump to record: Search took 0.00 seconds. 
Revitalizace zemědělských půd
Vavřina, Jan
From the beginning of agriculture, an important soil-forming factor begins to take shape, and that is man. Human activity changes soil properties in favor of only one soil function, and that is plant growth (production, yield). However, these changes reduce the variability of soil properties, which are subsequently degraded and thus further disrupt the entire agroecosystem. New procedures, principles and agrotechnical measures that help to revitalize the soil are gradually being implemented across the world. These changes in the way agricultural land is managed take advantage of mutual ecological interactions that help to fulfill basic soil functions and provide ecosystem services. In the practical part of the work, two soils with different degrees of revitalization were compared. These soils were compared in relative values to the control soil, which was little affected by agricultural activities. The results show that agricultural soils have a lower stability of soil aggregates, bulk density, ammonium form N content, and SOM content compared to the control soil. At the same time, however, a higher respiration rate was recorded, which was influenced by tillage by taking soil samples.
Karbonizovaný čistírenský kal a jeho vliv na vybrané půdní parametry
Mikulcová, Kateřina
This bachelor's thesis deals with the effect of carbonized sewage sludge on selected soil parameters. The characteristics of soil and biochar are described and supplemented by a description of its production and importance in the past and present. As part of the practical part of the bachelor's thesis, a container experiment was established in three variants with increasing doses of biochar, which served as a basis for evaluating the selected analyses. The application of biochar positively influenced the increase in plant biomass, there was also an increase in root colonization by arbuscular mycorrhiza, the value of soil pH and the proportion of stable soil aggregates increased. A decrease in dehydrogenase activity was evaluated as an undesirable effect of biochar. The solution to the problem of inhibiting microbial activity is the application of biochar together with another organic fertilizer (manure or compost), which supports microbial activity until the biochar particles themselves become a suitable environment for colonization.
Vliv kombinace biouhlu a zinečnatých nanočástic na rostliny kukuřice seté kultivovaných v in vitro podmínkách
Szomolaiová, Erika
Combined application of zinc oxide nanoparticles (ZnO NPs) and biochar could be a perspective tool for enhancing plant viability and mitigating a large scale of stresses in crops. To investigate effect of different concentrations of ZnO NPs (0, 50, 100 and 1000 mg/L), biochar, and their combination on corn plants (Zea mays L.), in vitro experiment took place. Zinc uptake in form of zinc NPs and possible effect of biochar on zinc uptake and accumulation were determined by atomic absorption spectrometry. A positive correlation between ZnO NPs concentration and zinc content in shoots was identified. There was no significant difference observed in plants treated with biochar. Physiological state of plants was evaluated by spectrophotometric analysis of photosynthetic pigments and secondary metabolites. The most significant effect was observed in content of phenolic compounds that increased with increasing ZnO NPs concentration. On the contrary, presence of biochar resulted in significant decrease (p < 0,05) of polyphenols.
The influence of Biochar Cultivation in Soil on its Physicochemical Characteristics
Hladký, David ; Sovová, Šárka (referee) ; Kalina, Michal (advisor)
This bachelor thesis is focused on the effect of soil factors on the physical-chemical characteristics of biochar. It describes the change in biochar after a long-term cultivation experiment, as well as, sequential leaching that was implemented on a shorter time scale. The theoretical part describes individual physical-chemical characteristics, structure, possible applications and optimal methods of biochar characterization. In the thesis, we have learnt why biochar is called a soil conditioner, not a fertilizer. The experimental part deals with the study of changes in the physicochemical characteristics of biochar after the cultivation experiment. These results are compared with the sequential leaching of biochar in selected media (water, citric acid, hydrogen peroxide) that simulate the effects that can act on biochar in soil. The experimental results show the similarity of individual observed values of the samples after the long-term cultivation experiment and sequential extractions. It can be seen that the alkaline nature of biochar is caused by salts of alkali metal and alkaline earth metal. Mostly due to the presence of potassium in the biochar structure and then also the presence of calcium and sodium. These ions are also the explanation of the high conductivity, which together with pH, decreases significantly after five leaching cycles, and stabilize after a two-year cultivation period. All biochars samples used in the work have a high content of organic matter, which is a optimal prerequisite for the use in agriculture and the improvement of soil properties.
Production and characterization of biochar from mixed plant waste
Bureš, Vojtěch ; Nábělek, Jakub (referee) ; Pořízka, Jaromír (advisor)
This work focused on biochar production from mixed vegetable waste in the context of home gardens and small farms. The aim of the work was to produce different types of biochar from common mixed garden waste material and then to characterize it according to the European Biochar Certificate (EBC) classification, as well as to develop a methodology for household biochar production, according to current knowledge. Four of the five biochar samples produced met all the criteria for the EBC-Feed category and are therefore suitable for any form of use, including animal feed production. The last sample did not meet the EBC parameters for usable biochar due to above-limit levels of polycyclic aromatic hydrocarbons (PAHs), but according to current studies and the new European Union limit values for fertilisers and amendments, the detected PAHs concentrations do not prevent its application to agricultural land. Therefore, based on the findings of this work, it is possible to recommend domestic production of biochar and its application to agricultural soils for long-term improvement of soil quality.
Analysis of organic compounds in the soil-biochar-salad system
Hlaváčová, Josefína ; Řezáčová, Veronika (referee) ; Mravcová, Ludmila (advisor)
The bachelor’s thesis presented focuses on the analysis of polycyclic aromatic hydrocarbons extracted from lettuce, soil, biochar and soil mixed with biochar. Polycyclic aromatic hydrocarbons are introduced into the biochar during the production process, i.e., pyrolysis. After applying the biochar to the soil, the polycyclic aromatic hydrocarbons can be released into the soil and contaminate it. The theoretical part of the thesis focuses on the production and characterisation of biochar, its applications to the soil and subsequent changes it induces within the soil. The experimental part focuses on the optimization of the microwave-assisted extraction process. Furthermore, experiments were carried out, assessing the influence of the added biochar on the concentration of polycyclic aromatic hydrocarbons within soil and lettuce. The sample analysis included microwave-assisted extraction and quantitative and qualitative determination using GC/MS/MS. The samples analysed were assessed for the presence and concentration of 16 different polycyclic aromatic hydrocarbons, prioritised by the U.S. Environmental Protection Agency. The analysis of the samples of lettuce grown in the soil containing biochar display a higher concentration of polycyclic aromatic hydrocarbons compared to samples without biochar. The analysis of the lettuce roots showed identical results.
Properties and use of high-temperature biochar
Sedmihradská, Anežka
Despite being a hot topic in environmental research, biochar and its properties have been mainly investigated from the perspectives of feedstock type and pyrolysis temperature. Few studies have explored the effect of particle size on biochar properties.Even when the effect of particle size on crop efficiency is recognized, there is a lack of corresponding data and analysis.2–7 Therefore, we thoroughly analyzed (proximate and ultimate analysis, SEM, XRD, Raman spectroscopy) four particle size fractions (< 0.5, 0.5–2, 2–5, > 5 mm) of high-temperature biochar from a gasification power plant, the sizes reflecting those of biochar actually used in agriculture. The < 0.5 mm fraction was significantly different in terms of carbon structure, and carbon and ash content. Consequently, pH, electric conductivity and heavy metal content also differed greatly. The corresponding results for the other particle fractions were broadly similar to each other. Interestingly, for all fractions, the porosity and H/C ratio were independent of particle size, meaning that, regardless of size, the investigated biochar fractions are equally stable in soil. The 0.5–2 mm fraction was then selected to be used in different industrial or agricultural processes such as the anaerobic digestion of wastewater or livestock feeding. The effect of biochar on these processes is currently under investigation, providing only initial data so far.
Plný tet: Download fulltextPDF
Enzymatic Degradation of Biochar
Zmijová, Marie ; Enev, Vojtěch (referee) ; Kalina, Michal (advisor)
Human prosperity is inextricably linked to healthy soil. It turns out that the application of biochar improves soil properties and, as a result, also the growth and yield of plants. The presence and activity of soil biota contributes to soil quality, but it also excretes compounds that can degrade biochar. Experiments simulating the action of enzymes and root exudates were carried out in order to find out whether there are physico-chemical changes in biochar. Three biochars, which were chosen for this purpose were degraded using an H2O2 solution, simulating enzymatic action. Samples were subsequently analyzed using TGA, FTIR, SEM and contact angle measurement. It was found that the amount and type of degraded biochar matter depends on the parameters of its production. The amount of functional groups containing oxygen on the surface of biochar rises due to enzymatic oxidation and the surface’s hydrophobicity decreases as a result. An extraction test using citric acid, a root exudate representative, showed that the sample had been washed more effectively, leading to a higher proportion of organic matter in the biochars. In the obtained leachates, the amount of elements released from the biochar was monitored using ICP-OES. The initial washing led to the release of the largest amount of micro and macro elements, which caused a decrease in the pH value of the solution and an increase in conductivity. The pH value of the solution had a major influence on the amount of released multivalent elements (Ca, Mg). The combination of these changes that may occur in the soil system probably does not change the desired effect of biochar and its use may be beneficial in the long term.
Quantification of the Influence of Biochar on Soil Respiration
Losová, Anežka ; Mravcová, Ludmila (referee) ; Kalina, Michal (advisor)
This master‘s thesis is focused on the investigation of methods for evaluating the effect of biochar and NPK fertilizer on the activity of soil microorganisms by measuring soil respiration. The theoretical part describes the characteristics of soil, the properties of biochar and its production process. Furthermore, the literature research was focused on the definition and optimization of the various methodologies that can be used to measure soil respiration. The experimental part describes selected physicochemical characteristics of soil and biochar (pH, conductivity, water retention capacity). Thermogravimetric analysis and elemental analysis were used for measuring of the amount of organic and inorganic content and the composition of organic elements (C, H, O and N) in the soil and biochar samples. From the literature research, a dynamic incubation system was chosen for monitoring of the influence of biochar application on the microbial activity of soil microorganisms through the measurement of soil respiration. The produced carbon dioxide was sorbed into sodium hydroxide solution during the incubation and the released amount was determined by titration and conductometric method. The measured results of both methods correlated with each other, and both of these methods are suitable for determining the rate of soil respiration. Experimental data showed that biochar had positive effects on the rate of carbon dioxide production by soil respiration. The combined application of biochar and NPK fertilizer did not significantly increase the efficiency of biochar. In summary, biochar as a soil conditioner in agriculture has great potential to act and to support the level of soil respiration.
The Influence of Biochar Application on the Microbiological Characteristics of Soil
Štorková, Natálie ; Sedláček, Petr (referee) ; Kalina, Michal (advisor)
This diploma thesis is focused on the effect of Pflazenkohle biochar application into the soil and its corresponding microbial characteristics. Along with microbial characteristics (microbial functional diversity, microbial and enzymatic activity), the effect of biochar on soil physicochemical properties (pH, organic matter content, organic C and N content) and plant growth (height, above and below ground dry weight) was also assessed in this thesis. Two types of soils with low organic matter content (sandy arid soils and arenaceous chernozem) were used for the experiments. These soils were obtained after two years of cultivation with biochar at application doses 0 and 20 g-kg-1, maize (Zea mays) was selected as the model plant. The results of the cultivation experiment showed that Pflanzenkohle biochar has the potential to affect soil microbial properties, soil physicochemical properties and also plant growth, but its detectable effects on microbial characteristics of soil were limited. This was probably caused by the inappropriate biochar application form and also by the selection of soil type used for cultivation experiment. To be able to further study the effect of biochar on the soil microbial properties we considered, it would be necessary to modify the setting of cultivation experiments in the way to pronounce the statistically significant differences.

National Repository of Grey Literature : 70 records found   1 - 10nextend  jump to record:
Interested in being notified about new results for this query?
Subscribe to the RSS feed.