Your search keyword '"Komorowska, Monika"' showing total 31 results

1. Nitrogen and Phosphorus Utilisation by Intercropping Narrowleaf Lupins With Cereals Under Differentiated Nitrogen Fertilization

Author

Górski, Rafał, Płaza, Anna, Niemiec, Marcin, Komorowska, Monika, Abduvasikov, Abduaziz, and Ishniyazova, Shakhista

Published

2025

2. Strategies for managing corn crop residue in the context of greenhouse gas emissions

Author

Komorowska, Monika, Niemiec, Marcin, Sikora, Jakub, Suder, Marcin, Gródek-Szostak, Zofia, Atilgan, Atilgan, Ovcharuk, Oleg, Lach, Łukasz, Kusa, Rafał, and Duda, Joanna

Published

2024

3. Evaluation of alternative substrates for hydroponics based on biological parameters of leaf lettuce (Lactuca sativa L.) and its stress response

Author

Ferby Vojtech, Kopta Tomas, Komorowska Monika, and Fidurski Maciej

Subjects

hydroponics, lettuce, organic substrates, renewable resources, stress response, Plant culture, SB1-1110

Abstract

The study focusses on alternative substrates with the potential to replace common substrates, such as mineral wool and perlite, as the influence of these on ecosystems and resources is being debated. To this aim, wood fibre, sheep wool and coco peat substrates were selected for testing. Leaf lettuce (Lactuca sativa L. ‘Lisboa’) is taken as the model crop for the evaluation of alternative substrates. The closed hydroponic system ebb and flow with growing in pots was used for the experiment. The parameters of the nutrient solution were EC 1.5–2 mS and pH 6–7. Biological parameters, content of nitrates, plant stress indicators, antioxidant activity (AA) as % scavenging of DPPH (AA), glutathione (GSH), ascorbate peroxidase (APX), total phenol content (TPC) and the content of chosen elements in the drain from substrates were evaluated. According to the biomass production of lettuce, the substrates can be ranked from the lowest as follows: sheep wool < wood fibre < mineral wool < perlite < coco peat. The levels of GSH and APX did not affect AA. The TPC showed the greatest effect on AA and the stress response in general. The nitrate content ranged between 426 and 686 mg · kg–1 of fresh mass. Instead of mineral wool and perlite, coco fibre could be a promising alternative organic substrate for lettuce production in the ebb and flow hydroponics system. Wood fibre and sheep wool still have unresolved circumstances regarding their physical and chemical parameters.

Published

2023

4. The Impact of Biochar Additives and Fat-Emulsifying Substances on the Efficiency of the Slaughterhouse Waste Biogasing Process.

Author

Kuboń, Maciej, Komorowska, Monika, Niemiec, Marcin, Sikora, Jakub, Szeląg-Sikora, Anna, Olech, Elżbieta, Molik, Edyta, and Gajda, Jakub

Subjects

*BIOCHAR, *METHANE fermentation, *BIOGAS, *SLAUGHTERING, *BIOGAS production, *POLAR solvents, *WASTE management

Abstract

Waste management in the agri-food industry is an important technological and environmental problem. Slaughterhouse waste is particularly problematic, as it contains significant amounts of proteins and lipids, neither of which constitute a good substrate for methane production. The physical properties of mixtures of fat and polar solvents inhibit the methanogenesis process. The aim of this research was to assess the impact of the addition of fat emulsifiers and biochar on the amount of biogas produced and the level of carbon conversion per unit of waste weight. The assumed goal was achieved based on a laboratory experiment using static methane fermentation, carried out in accordance with the methodology of the DIN 38414/S8 standard. The results of the experiment indicate that the addition of fat emulsifiers increased the biogas yield from slaughterhouse waste from approximately 370 to 430 dm3 per 2 kg dry weight of waste. Each technological variant resulted in an increase in the amount of carbon that was transformed in the methanogenesis process. Although the level of carbon transformation in the methanogenesis process increased by approximately 20% in objects with emulsifier addition, the use of biochar and fat emulsifiers did not change the amount of methane production. Within the assumed system limits, therefore, the use of fat emulsifiers and biochar seems to be pointless. However, the use of the developed technology can improve the efficiency of biogas production by up to 18% and shorten the process by 5 days. Assuming the continuous operation of the biogas plant, the use of the developed technology will increase the efficiency of biogas production from slaughterhouse waste in the long term by over 30% without the need to modify the infrastructure in the biogas plant. [ABSTRACT FROM AUTHOR]

Published

2024

5. Survey of 17 elements, including rare earth elements, in chilled and non-chilled cauliflower cultivars

Author

Kalisz, Andrzej, Sękara, Agnieszka, Smoleń, Sylwester, Grabowska, Aneta, Gil, Joanna, Komorowska, Monika, and Kunicki, Edward

Published

2019

6. The shaping of onion seedlings performance through substrate formulation and co-inoculation with beneficial microorganism consortia.

Author

Pokluda, Robert, Ragasová, Lucia Nedorost, Jurica, Miloš, Kalisz, Andrzej, Komorowska, Monika, Niemiec, Marcin, Caruso, Gianluca, Gąstoł, Maciej, and Sekara, Agnieszka

Subjects

ONIONS, AZOSPIRILLUM brasilense, ONION growing, VESICULAR-arbuscular mycorrhizas, PLANT fertility, CROP management, GLUTATHIONE peroxidase, MYCORRHIZAL fungi

Abstract

Introduction: Smart management in crop cultivation is increasingly supported by application of arbuscular mycorrhizal fungi (AMF) and plant growth-promoting microorganisms (PGPM), which sustain soil fertility and plant performance. The aim of this study was the evaluation of the effects of consortia composed of (Claroideoglomus claroideum BEG96, Claroideoglomus etunicatum BEG92, Funneliformis geosporum BEG199, Funneliformis mosseae BEG 95, and Rhizophagus irregularis BEG140) and PGPM (Azospirillum brasilense – AZ, or Saccharothrix sp. – S) on onion cultivated in growing media with a composition corresponding to a degraded soil. Methods: Three types of substrate formulations were used, with peat:sand ratios of 50:50, 70:30, 100:0 (v:v). The analysis of substrate parameters crucial for its fertility (pH, salinity, sorption complex capacity, and elements’ content) and characteristics reflecting onion seedlings’ performance (fresh weight, stress biomarkers, and elements’ content) was performed. Results: AMF colonized onion roots in all treatments, showing increasing potential to form intercellular structures in the substrates rich in organic matter. Additionally, co-inoculation with PGPM microorganisms accelerated arbuscular mycorrhiza establishment. Increased antioxidant activity and glutathione peroxidase (GPOX) activity of onion roots sampled from the formulations composed of peat and sand in the ratio of 100:0, inoculated with AMF+S, and positive correlation between GPOX, fresh weight and antioxidant activity of onion roots reflected the successful induction of plant acclimatization response. Total phenols content was the highest in roots and leaves of onion grown in substrates with 70:30 peat:sand ratio, and, in the case of roots, it was correlated with AMF colonization parameters but not with antioxidant activity. Discussion: AMF and PGPM efficiency in supporting onion growth should be linked to the increased onion root system capacity in mineral salts absorption, resulting in more efficient aboveground biomass production. AMF and PGPM consortia were effective in releasing minerals to soluble fraction in substrates rich in organic matter, making elements available for uptake by onion root system, though this phenomenon depended on the PGPM species. Microorganism consortia enhanced onion seedlings’ performance also in substrates with lower content of organic carbon through plant biofertilization and phytostimulation [ABSTRACT FROM AUTHOR]

Published

2023

7. The dynamics of the adoption of product and process innovations in organizations: a case study in Malopolska Voivodship

Author

Szeląg-Sikora Anna, Ochoa Siguencia Luis, Sikora Jakub, Niemiec Marcin, and Komorowska Monika

Subjects

Environmental sciences, GE1-350

Abstract

The research presented in this paper deals with issues related to the implementation of management and organizational innovations and their impact on the company’s competitiveness. The target group of the study are enterprises from the micro- small and medium-sized enterprises (SME) sector based in the Malopolska Voivodship, which in the years 2011-2014 were beneficiaries of the project “Transforming enterprises into intelligent organizations - advisory support for companies Malopolska Voivodship” implemented by The Rabka Region Development Foundation under the Operational Program Human Capital (POKL), Measure 8.1 - Development of employees and enterprises in the region, Sub-measure 8.1.1 - Supporting the development of professional qualifications and consulting for enterprises. The injection of knowledge from Mechanical engineering specialist and other specific areas of activity has a great impact in the development and modernization of the enterprises by introducing process, product, organizational or marketing innovations.

Published

2019

8. Assessment of the possibility of implementing the GLOBAL G.A.P. standard in selected beanproducing farms in western Kyrgyzstan

Author

Niemiec Marcin and Komorowska Monika

Subjects

Environmental sciences, GE1-350

Abstract

The objective of this study was to assess the potential of implementing GLOBAL. G.A.P. in bean-producing farms in the region of Talas in northern Kyrgyzstan. The assessment concerned the analysis of non-conformities with the GLOBAL G.A.P. standard in farms that had implemented the standard but had not been certified. The detailed objective was to identify critical areas in implementing said standard. To achieve the objective established, research was conducted in 2018. The research covered 112 farms that produce beans (local variety called ‘Łopatka’). Internal audits were carried out in the examined farms, in accordance with the checklist of the GLOBAL G.A.P. standard version 5.1. The results of the conducted research indicate that at the current level of agricultural development and awareness of farmers from Kyrgyzstan, implementation of the GLOBAL G.A.P. standard is going to be very difficult. Problems apply both to infrastructure and to producers’ mentality. Problems with infrastructure concern primarily the places to store plant protection products as well as mineral and organic fertilizers. Moreover, the identified non-conformities concerned adequate infrastructure serving for segregation and management of waste (both production waste and municipal waste). With respect to hygiene, problems concern both lack of sanitary infrastructure, as well as producers’ mentality associated with the need for maintaining hygiene. In most cases, the issue of the possibility of improving the condition of the environment within the farm’s premises is omitted. With respect to production technology, using organic and mineral fertilizers is problematic. In no case was water, soil or products analyzed, which is obligatory in the standard being discussed. A considerable problem in the area of the study is lack of support from government entities or companies dealing with efficient implementation of the standard. Effective development of the standard also depends on educating at the level of producers, inspectorate bodies, as well as on introducing quality management courses at individual education levels to the curriculum.

Published

2019

9. Content of Ni, Pb and Zn, in selected elements of ecosystem in three bays in the area of Sevastopol

Author

Niemiec Marcin, Szeląg-Sikora Anna, Kuzminova Natalya, and Komorowska Monika

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

The aim of the study was to evaluate the content of Ni, Pb and Zn in the water and larvae of fish of the genus Atherinidae L., caught in three bays in the area of Sevastopol. The study was conducted in 2012 in the three bays in the area of Sevastopol: Galubaya, Omega and Karantinna. The results indicate that the content of all elements studied was at a higher level than that observed in the uncontaminated basins. The average concentration of Ni, Pb and Zn in water was respectively: 1.199; 14.62 and 64.32 μg · dm-3. The content of the elements studied in the examined fish larvae Atherinidae ranged from 6.413 to 19.65 mg Ni kg -1, from 1.749 to 5.393 mg Pb kg -1 and from 97.16 to 215.24 mg Zn kg-1.

Published

2018

10. Evaluation of Sheep Wool as a Substrate for Hydroponic Cucumber Cultivation.

Author

Komorowska, Monika, Niemiec, Marcin, Sikora, Jakub, Gródek-Szostak, Zofia, Gurgulu, Hatice, Chowaniak, Maciej, Atilgan, Atilgan, and Neuberger, Pavel

Subjects

WOOL, HYDROPONICS, SHEEP farming, SHEEP, CUCUMBERS, ANIMAL fibers, GREENHOUSE gases, WATER efficiency

Abstract

The problem of the use and disposal of horticultural substrates is an important element of the optimization of plastic greenhouse production in terms of economic and environmental efficiency. The production of mineral substrates is associated with a high energy expenditure, which generates costs and greenhouse gas (GHG) emissions. An important factor is also the transport of professional substrates over long distances. The research objective was to evaluate the possibility of using sheep wool to create horticultural substrates in the hydroponic production of cucumber. The modifier of production technology was the use of substrates of various origins. The experiment was based on the use of two substrates: one was a conventional substrate, made of mineral wool, and the other was made of greasy Gissar sheep wool, which is considered waste or a nuisance byproduct of sheep farming today. The adopted functional unit was 1 ton of commercial cucumber yield. The boundaries of the system were soil formation, fertilization, irrigation, and harvesting. The amount of GHG emissions was calculated in accordance with the ISO 14040 and ISO 14044 standards. The results of the experiment show that the use of sheep wool as a substrate in the hydroponic cultivation of cucumbers reduced yield by approximately 8%, but it allowed for a higher efficiency of water and mineral fertilizer use per crop mass unit. Within the adopted system boundary, the value of the carbon footprint in the object with the conventional substrate was 276.9 kg CO2 eq · Mg−1. The value of this parameter for the object with the sheep wool was 193.9 kg CO2 eq · Mg−1. The use of sheep wool did not increase the phytosanitary risk of the cultivated plants. An important goal for achieving sustainability, especially in food production, is to use materials that are easily recyclable and renewable, locally available, and environmentally friendly. The use of sheep wool as a substrate for soilless plastic greenhouse cultivation is a rational solution, as this material consists of 60% animal protein fibers, 10% fat, 15% moisture, 10% sheep sweat, and an average of 5% impurities. This makes it an easily recyclable, easily renewable, and environmentally friendly source of raw material for hydroponic substrates in food production, contrary to rockwool, which produces waste that is difficult to manage and a nuisance to the natural environment. In the countries of Central Asia, the sheep population is over 20 million; therefore, the potential for using sheep wool material for agricultural production is significant. [ABSTRACT FROM AUTHOR]

Published

2023

11. The Modification of Substrate in the Soilless Cultivation of Raspberries (Rubus Idaeus L.) as a Factor Stimulating the Biosynthesis of Selected Bioactive Compounds in Fruits.

Author

Balawejder, Maciej, Matłok, Natalia, Piechowiak, Tomasz, Szostek, Małgorzata, Kapusta, Ireneusz, Niemiec, Marcin, Komorowska, Monika, Wróbel, Marek, Mudryk, Krzysztof, Szeląg-Sikora, Anna, Neuberger, Pavel, and Kuboń, Maciej

Subjects

RASPBERRIES, BIOACTIVE compounds, RUBUS, FRUIT, BIOSYNTHESIS, VITAMIN C

Abstract

Raspberry fruits are a valuable source of bioactive compounds. The study used the modification of the substrate (coconut fibre), consisting of the use of various organic and mineral additives, in the soilless cultivation of raspberries. The additives influenced the biosynthesis of bioactive compounds in the raspberry fruits by modifying the sorption properties and the abundance of the substrate. The influence of the additives on the content of polyphenols was determined as well as their profile (UPLC-MS), antioxidant potential (ABTS), vitamin C content, and the activity of selected enzymes that are markers of stress and resistance to abiotic factors. In the study, a significant effect of these additives was observed on the biosynthesis of polyphenols in raspberry fruit. The highest increase in the content of these compounds in relation to the control sample (substrate—100% coconut fibre), namely 37.7%, was recorded in the case of fruit produced on coconut substrate enriched with sheep wool. These fruits were also characterised by a significantly different profile of these compounds. These changes were caused by readily available ammonium nitrogen and free amino acids in the decomposition of proteins contained in the sheep wool. This was confirmed by the recorded content of chlorophyll SPAD in the plant leaves and the activity of selected enzymes, which proves a low level of stress and good condition of the plants. [ABSTRACT FROM AUTHOR]

Published

2023

12. Closed-Loop Agricultural Production and Its Environmental Efficiency: A Case Study of Sheep Wool Production in Northwestern Kyrgyzstan.

Author

Komorowska, Monika, Niemiec, Marcin, Sikora, Jakub, Szeląg-Sikora, Anna, Gródek-Szostak, Zofia, Findura, Pavol, Gurgulu, Hatice, Stuglik, Joanna, Chowaniak, Maciej, and Atılgan, Atılgan

Subjects

*AGRICULTURAL productivity, *WOOL, *SHEEP, *GREENHOUSE gases, *NITROGEN fertilizers, *PLANT nutrients

Abstract

As a country with not only significant production potential but also fragmented land ownership, the Kyrgyz Republic struggles with environmental efficiency, which is a strategic element of environmental management in agricultural production. The objective of this study was to assess the environmental efficiency of sheep's wool when used as a fertilizer in bean production in northern Kyrgyzstan. In this study, the efficiency indicator was taken to be GHG emissions per functional unit of product, using a proprietary methodology for calculating GHG emissions to determine the true value of this material as a source of soil nutrients and organic matter. Two experimental factors were used in the experiment: fertilizer type and fertilizer rate. Fertilization with sheep wool resulted in a 15% higher bean yield compared to when fertilized with mineral fertilizers at a comparable rate, converted to pure nitrogen. By using sheep wool as a source of mineral nutrients for the plants, the carbon footprint was reduced by almost 10% compared to a facility with mineral fertilization. Therefore, the use of sheep wool as a source of plant nutrients is environmentally justified. [ABSTRACT FROM AUTHOR]

Published

2022

13. Ensembl 2013

Author

Flicek, Paul, Ahmed, Ikhlak, Amode, Ridwan M., Barrell, Daniel, Beal, Kathryn, Brent, Simon, Carvalho-Silva, Denise, Clapham, Peter, Coates, Guy, Fairley, Susan, Fitzgerald, Stephen, Gil, Laurent, García-Girón, Carlos, Gordon, Leo, Hourlier, Thibaut, Hunt, Sarah, Juettemann, Thomas, Kähäri, Andreas K., Keenan, Stephen, Komorowska, Monika, Kulesha, Eugene, Longden, Ian, Maurel, Thomas, McLaren, William M., Muffato, Matthieu, Nag, Rishi, Overduin, Bert, Pignatelli, Miguel, Pritchard, Bethan, Pritchard, Emily, Riat, Harpreet Singh, Ritchie, Graham R. S., Ruffier, Magali, Schuster, Michael, Sheppard, Daniel, Sobral, Daniel, Taylor, Kieron, Thormann, Anja, Trevanion, Stephen, White, Simon, Wilder, Steven P., Aken, Bronwen L., Birney, Ewan, Cunningham, Fiona, Dunham, Ian, Harrow, Jennifer, Herrero, Javier, Hubbard, Tim J. P., Johnson, Nathan, Kinsella, Rhoda, Parker, Anne, Spudich, Giulietta, Yates, Andy, Zadissa, Amonida, and Searle, Stephen M. J.

Published

2013

14. Ensembl 2012

Author

Flicek, Paul, Amode, M. Ridwan, Barrell, Daniel, Beal, Kathryn, Brent, Simon, Carvalho-Silva, Denise, Clapham, Peter, Coates, Guy, Fairley, Susan, Fitzgerald, Stephen, Gil, Laurent, Gordon, Leo, Hendrix, Maurice, Hourlier, Thibaut, Johnson, Nathan, Kähäri, Andreas K., Keefe, Damian, Keenan, Stephen, Kinsella, Rhoda, Komorowska, Monika, Koscielny, Gautier, Kulesha, Eugene, Larsson, Pontus, Longden, Ian, McLaren, William, Muffato, Matthieu, Overduin, Bert, Pignatelli, Miguel, Pritchard, Bethan, Riat, Harpreet Singh, Ritchie, Graham R. S., Ruffier, Magali, Schuster, Michael, Sobral, Daniel, Tang, Y. Amy, Taylor, Kieron, Trevanion, Stephen, Vandrovcova, Jana, White, Simon, Wilson, Mark, Wilder, Steven P., Aken, Bronwen L., Birney, Ewan, Cunningham, Fiona, Dunham, Ian, Durbin, Richard, Fernández-Suarez, Xosé M., Harrow, Jennifer, Herrero, Javier, Hubbard, Tim J. P., Parker, Anne, Proctor, Glenn, Spudich, Giulietta, Vogel, Jan, Yates, Andy, Zadissa, Amonida, and Searle, Stephen M. J.

Published

2012

15. Environmental and Production Aspects of Using Fertilizers Based on Waste Elemental Sulfur and Organic Materials.

Author

Lisowska, Aneta, Filipek-Mazur, Barbara, Komorowska, Monika, Niemiec, Marcin, Bar-Michalczyk, Dominika, Kuboń, Maciej, Tabor, Sylwester, Gródek-Szostak, Zofia, Szeląg-Sikora, Anna, Sikora, Jakub, Kocira, Sławomir, and Wasąg, Zbigniew

Subjects

SULFUR in soils, SULFUR, CARBON in soils, FERTILIZERS, WASTE products

Abstract

Crop fertilization with sulfur is an important part of agricultural practices, as is the systematic increase in soil organic matter content. Materials of waste origin constitute a source of plant-available sulfur, as well as soil organic matter. The study was to verify the hypothesis assuming that combining waste sulfur pulp and its mixtures with organic materials enables simultaneous soil enrichment with readily available sulfur and organic matter. A 240-day incubation experiment was conducted, on two soils: very light and heavy; with two sulfur doses applied to each soil (20 and 40 mg S/kg d.m. for very light soil, and 30 and 60 mg S/kg d.m. for heavy soil). The sulfate sulfur content in the incubated soil material, treated with the addition of sulfur pulp and its mixtures with organic materials, increased significantly up to day 60 and then decreased. The application of these materials significantly increased the content of available sulfur and decreased the pH value of the incubated material. The effect of the introduced materials on dehydrogenase activity depended on soil granulometric composition (the impact of the applied materials on the activity of these enzymes in very light soil was small, and in heavy soil, their activity was usually limited by the presence of introduced materials). Application of the studied materials had little effect on the total organic carbon content in the incubated soil material (a significant change in the value of this parameter, in relation to the control soil, was recorded in some treatments of heavy soil). [ABSTRACT FROM AUTHOR]

Published

2022

16. Effects of growth promoting microorganisms on tomato seedlings growing in different media conditions.

Author

Pokluda, Robert, Ragasová, Lucia, Jurica, Miloš, Kalisz, Andrzej, Komorowska, Monika, Niemiec, Marcin, and Sekara, Agnieszka

Subjects

MICROBIAL growth, VESICULAR-arbuscular mycorrhizas, COLONIZATION (Ecology), AZOSPIRILLUM brasilense, SOIL degradation, TOMATOES

Abstract

Plant growth-promoting microbes (PGPM) play vital roles in maintaining crop fitness and soil health in stressed environments. Research have included analysis-based cultivation of soil-microbial-plant relationships to clarify microbiota potential. The goal of the research was to (i) evaluate the symbiotic microorganism effects on tomato seedling fitness under stressed conditions simulating a fragile soil susceptible to degradation; (ii) compare the plant-microbial interactions after inoculation with microbial isolates and fungi-bacteria consortia; (iii) develop an effective crop-microbial network, which improves soil and plant status. The experimental design included non-inoculated treatments with peat and sand at ratios of 50:50, 70:30, 100:0 (v:v), inoculated treatments with arbuscular mycorrhizal fungi (AMF) and Azospirillum brasilense (AZ) using the aforementioned peat:sand ratios; and treatment with peat co-inoculated with AMF and Saccharothrix tamanrassetensis (S). AMF + AZ increased root fresh weight in peat substrate compared to the control (4.4 to 3.3 g plant–1). An increase in shoot fresh weight was detected in the AMF + AZ treatment with a 50:50 peat:sand ratio (10.1 to 8.5 g plant-1). AMF + AZ reduced antioxidant activity (DPPH) (18–34%) in leaves, whereas AMF + S had the highest DPPH in leaves and roots (45%). Total leaf phenolic content was higher in control with a decreased proportion of peat. Peroxidase activity was enhanced in AMF + AZ and AMF + S treatments, except for AMF + AZ in peat. Microscopic root assays revealed the ability of AMF to establish strong fungal-tomato symbiosis; the colonization rate was 78–89%. AMF + AZ accelerated K and Mg accumulation in tomato leaves in treatments reflecting soil stress. To date, there has been no relevant information regarding the successful AMF and Saccharothrix co-inoculation relationship. This study confirmed that AMF + S could increase the P, S, and Fe status of seedlings under high organic C content conditions. The improved tomato growth and nutrient acquisition demonstrated the potential of PGPM colonization under degraded soil conditions. [ABSTRACT FROM AUTHOR]

Published

2021

17. EFFECT OF NITROGEN FERTILIZATION ON YIELD OF GRAPES AND FERTILIZATION EFFICIENCY IN GISSAR VALLEY OF THE REPUBLIC OF TAJIKISTAN.

Author

Niemiec, Marcin, Chowaniak, Maciej, Zuzek, Dagmara, Komorowska, Monika, Mamurovich, Gulov Saidali, Gafurovich, Kobil Kodirov, Usmanov, Nenmat, Kamilova, Dilrabo, Rahmonova, Jamylia, and Rashidov, Naim

Abstract

The issue of optimizing plant fertilization is important in quality systems, such as Integrated Plant Production, GLOBAL G.A.P., or SAI. Effective implementation of these systems depends on the use of a plant nutrition technology based on plants’ nutrient demand. In developing countries, low efficiency production technologies are used very frequently, and a significant level of anthropogenic pressure is therefore observable. The objective of this research was to assess grapevine fertilization efficiency according to particular nitrogen fertilization strategies. Within the scope of the research, a two-factor field experiment was conducted in a commercial vineyard located in Gissar Valley, the Republic of Tajikistan, in 2018. The experiment was established on sandy soils and involved the following factors: the overall quantity of mineral nitrogen used, and the number of fertilizer application cycles (one or three). The designed systems were assessed on the basis of commercial yield, productivity ratio, agronomic efficiency ratio, removal efficiency ratio, and physiological efficiency ratio. The findings obtained from the field experiment indicate that the plant yield was the highest, at 24.85 Mg ha-1, in the conventionally fertilized object, with the nitrogen dosage of 250 kg N ha-1. Similar yield was obtained when the amount of nitrogen was divided into 3 doses. In this variant, the values of ratios representing fertilization efficiency, such as the agronomic efficiency ratio, removal ratio and productivity ratio, were the most beneficial as well. No significant variations were determined in respect of the physiological efficiency ratio value, which may be an indication that no factors occurred in any of the variants which would distort the plants’ growth and development. Optimizing fertilization is an important aspect that defines the quality and safety of products of agricultural origin, especially in developing countries. [ABSTRACT FROM AUTHOR]

Published

2021

18. Assessment of the Content of Cr, Cu, Fe, Mn and Ni in Water and Algae from the Region of Makarska Riviera in Croatia.

Author

Niemiec, Marcin, Komorowska, Monika, Ujevic, Ivana, Kuboń, Maciej, Sikora, Jakub, and Szeląg-Sikora, Anna

Subjects

ALGAE, CYSTOSEIRA, TRACE elements, BIOACCUMULATION

Abstract

Copyright of Annual Set the Environment Protection / Rocznik Ochrona Środowiska is the property of Koszalin University of Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

19. Content of Cd, Cu, Cr, Fe Mn, Ni and Pb in Water and Selected Organs of Blotched Picarel Spicara maena L. and Mezgit Merlangius euxmus L. from Karantinna Bay and Balaklava Bay in the Region of Sevastopol.

Author

Niemiec, Marcin, Kuboń, Maciej, Komorowska, Monika, Kuzminova, Natalya, Sikora, Jakub, and Szeląg-Sikora, Anna

Subjects

LEAD in water, TRACE element analysis, BIOACCUMULATION in fishes, FISH as food, ATOMIC spectroscopy

Abstract

Copyright of Annual Set the Environment Protection / Rocznik Ochrona Środowiska is the property of Koszalin University of Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2019

20. CONTENT OF Ba, B, Sr AND As IN WATER AND FISH LARVAE OF THE GENUS ATHERINIDAE L. SAMPLED IN THREE BAYS IN THE SEVASTOPOL COASTAL AREA.

Author

Niemiec, Marcin, Komorowska, Monika, Szeląg-Sikora, Anna, Sikora, Jakub, and Kuzminova, Natalya

Abstract

One of the most reliable methods of the environmental monitoring of marine ecosystems, especially the ones characterized by sizeable populations, is the use of populations of vertebrate animals, and fish in particular. Many authors point to the specific suitability of fish larvae for environmental monitoring. Fish larvae have rapid metabolism, which translates to more intensive toxicological effects. The aim of the study was to assess the quality of the aquatic environment in three bays of Sevastopol, based on the determined content of Ba, B, Sr and As and bioaccumulation of these elements in the water and in fish larvae of the genus Atherinidae L. Larvae were caught in July 2012, in the coastal shallow water, at a depth of 1 m, using a fishing net. Samples of fish larvae were subjected to wet digestion in a closed system with the use of microwave energy. The concentration of the analyzed elements in the samples was determined using atomic emission spectrometry with inductively coupled plasma. The results of mean element concentrations were compared using Student's t-test, at the significance level of p = 0.01. The element content in water was similar to that observed in unpolluted water bodies. The average concentration of Ba, B, Sr and As in water was, respectively: 46.52; 1428; 7737 and 1.821 μg dm-3, whereas the mean content of these elements in the biomass of fish larvae was: 1.550 mg Ba kg-1; 70.90 mg B kg-1; 21.40 mg Sr kg-1 and 1.829 mg As kg-1. The highest barium and strontium content in the studied fish larvae was found in samples taken in Omega Bay. The highest arsenic content was found in organisms from the bays Omega and Karantinnaya, while the largest content of boron was found in the larvae from the bays Omega and Golubaya. The values of the bioaccumulation coefficient for the analyzed elements in Atherinidae L. fish larvae can be ordered as follows: As >B> Ba> Sr. The most severely contaminated with Ba, Sr, As and B were the costal parts of Golubaya, Karantinnaya, Omega Bays. [ABSTRACT FROM AUTHOR]

Published

2018

21. ASSESSMENT OF LEAD AND CHROMIUM POLLUTION IN THE ECOSYSTEM OF THE DUNAJEC RIVER BASED ON BIOINDICATIVE METHODS.

Author

Niemiec, Marcin, Szeląg-Sikora, Anna, Sikora, Jakub, Cupiał, Michał, and Komorowska, Monika

Abstract

The Dunajec River is a right-bank tributary of the Vistula River. Main sources of pollution of the river include municipal and industrial sewage as well as domestic sewage discharged from the towns Zakopane, Nowy Targ, Nowy Sącz and Tarnów. The aim of this paper was to assess lead and chromium content in abiotic parts of the Dunajec's ecosystem as well as to determine the bioaccumulation factor for this element in selected organs: muscles, liver, skin, and bones of the bleak fish (Alburnus alburnus L.). The samples of water and bottom sediments were collected twice from the Dunajec River, in July and October 2011, in 5 measuring points: Szczepanowice, Janowice, Wróblowice, Lusławice and Zakliczyn. At the same time, bleaks (29 pieces) caught by members of the Polish Angling Association (PZW) in the studied section of the river in the second half of July were used in the research. The concentration of chromium in the solution was determined using atomic emission spectrometry with inductively coupled plasma in an apparatus Optima 7600 DV Perkin Elmer. Lead concentrations were determined on an atomic absorption spectrometer coupled with an electrothermal atomizer. The results indicate that the lead and chromium content in the water exceeded the values characteristic for unpolluted environments. The content of these elements in the sediment was lower than the geochemical background of the water sediments in Poland (10 mg Pb kg-1 and 5 mg Cr kg-1). The content of lead in different organs decreased in the following order: liver> skeleton> muscles> skin, while for the content of chromium the sequence was: liver> skeleton> skin> muscle. The values of the bioaccumulation coefficient of lead in the individual organs of the bleak, as compared to the concentration of this element in the water, ranged from 7770 to 18 909, and of chromium - from 1597 to 7895. [ABSTRACT FROM AUTHOR]

Published

2018

22. Ensembl core software resources: storage and programmatic access for DNA sequence and genome annotation.

Author

Ruffier, Magali, Kähäri, Andreas, Komorowska, Monika, Keenan, Stephen, Laird, Matthew, Longden, Ian, Proctor, Glenn, Searle, Steve, Staines, Daniel, Taylor, Kieron, Vullo, Alessandro, Yates, Andrew, Zerbino, Daniel, and Flicek, Paul

Subjects

NUCLEOTIDE sequence, APPLICATION program interfaces, PROTEOMICS, HUMAN genome, ANNOTATIONS

Abstract

The Ensembl software resources are a stable infrastructure to store, access and manipulate genome assemblies and their functional annotations. The Ensembl 'Core' database and Application Programming Interface (API) was our first major piece of software infrastructure and remains at the centre of all of our genome resources. Since its initial design more than fifteen years ago, the number of publicly available genomic, transcriptomic and proteomic datasets has grown enormously, accelerated by continuous advances in DNA-sequencing technology. Initially intended to provide annotation for the reference human genome, we have extended our framework to support the genomes of all species as well as richer assembly models. Cross-referenced links to other informatics resources facilitate searching our database with a variety of popular identifiers such as UniProt and RefSeq. Our comprehensive and robust framework storing a large diversity of genome annotations in one location serves as a platform for other groups to generate and maintain their own tailored annotation. We welcome reuse and contributions: our databases and APIs are publicly available, all of our source code is released with a permissive Apache v2.0 licence at http://github.com/Ensembl and we have an active developer mailing list (http://www.ensembl.org/info/about/contact/index.html). [ABSTRACT FROM AUTHOR]

Published

2017

23. Assessment of the Possibilities for the Use of Selected Waste in Terms of Biogas Yield and Further Use of Its Digestate in Agriculture.

Author

Niemiec, Marcin, Sikora, Jakub, Szeląg-Sikora, Anna, Gródek-Szostak, Zofia, and Komorowska, Monika

Subjects

BIOGAS, BIOGAS production, WASTE recycling, BIOMASS conversion, SILAGE, SEWAGE sludge

Abstract

The utilization of municipal waste and sewage sludge as a source of energy is technically very difficult due to high variability of their physical and chemical properties. The aim of this study was to evaluate the efficiency of the conversion of biomass contained in the whitewater fraction of municipal waste and sewage sludge by means of methanogenesis. The second objective was to assess the chemical composition of the digestate in the context of its use for fertilizer purposes. The whitewater fraction of municipal waste and sewage sludge was subjected to methanogenesis under static experimental conditions, according to DIM DIN 38414 methodology. The methanogenesis of concentrated substrates used in agricultural biogas plants was taken as a reference to evaluate the efficiency of the process. The organic fraction of the municipal waste was characterized by approximately 30% lower value of the soluble COD, with a comparable level of total COD compared to other materials. The total biogas yield, i.e., 404 dm3 per 1 kg of dry weight of the batch, was measured in the facility with sewage sludge. In COD value, this is 0.232 dm3·g O2 COD. In the case of corn, these values were, respectively, 324 dm3 and 0.193, and for the organic sub-sieve fraction of municipal waste, 287 dm3·kg−1 dw or 0.178 dm3·g O2 COD, respectively. The type of fermented material did not affect the intensity of biogas production. The maximum level of biogas production occurred between the 13th and 15th day of the process. The digestate obtained in the process of methanogenesis of corn silage and the organic fraction of municipal waste was characterized by good parameters in terms of possible use for fertilization purposes. [ABSTRACT FROM AUTHOR]

Published

2022

24. Assessment of the Multiannual Impact of the Grape Training System on GHG Emissions in North Tajikistan.

Author

Rashidov, Naim, Chowaniak, Maciej, Niemiec, Marcin, Mamurovich, Gulov Saidali, Gufronovich, Masaidov Jamshed, Gródek-Szostak, Zofia, Szeląg-Sikora, Anna, Sikora, Jakub, Kuboń, Maciej, and Komorowska, Monika

Subjects

NITROGEN fertilizers, FRUIT yield, PLANT yields, FACTORS of production, ENERGY consumption

Abstract

The overarching goal of agricultural sciences is to optimize production technology to rationalize the use of production resources, energy, and space. Due to its high fertilization and water requirements, the vine is a plant with a high potential for greenhouse gas (GHG) emissions. The modifying factor in the production technology is plantation management. To reach the assumed goal, a field experiment was conducted in the years 2001–2020, and the following training systems were used: multi-arm fan system (A) trunk height <30 cm, (B) 80 cm, (C) 120 cm, one-side multi-arm, paired planting (D) 120 cm, (E) 140 cm. The total amount of GHGs emitted in vine cultivation was calculated according to ISO 14040 and ISO 14044 standards. The system boundaries were: establishing the plantation, the production and use of fertilizers and pesticides, energy consumption for agricultural treatments, and gas emissions from the soil. The amount of GHG emissions for cultivation using the systems A, B, C ranged from 426.77 to 556.34 kg of CO2-eq Mg of yield−1, while in the case of D and E systems, the value was approx. 304.37 to 306.23 CO2-eq Mg of yield−1. When comparing this stage with total annual emissions related to cultivation (for 1 ha), the amount of emitted GHGs at this stage is from approx. 42% to 58% higher than from annual emission related to cultivation. Concrete poles are the main element related with GHG emission during stage of plantation establishment, from 97 to 98% of emission. In the case of annual production, nitrogen fertilizers are responsible for approx. 36%. Moreover, the results show that systems D and E increased the average annual fruit yield (per 19 years of research) by approx. 68% compared to the A, B, C systems. There was no difference in the yield of plants with different height of shoots in the D and E systems. The "one-side, multi-arm, paired planting system" was characterized by the highest production and environmental efficiency. [ABSTRACT FROM AUTHOR]

Published

2021

25. The Impact of a Controlled-Release Fertilizer on Greenhouse Gas Emissions and the Efficiency of the Production of Chinese Cabbage.

Author

Sikora, Jakub, Niemiec, Marcin, Szeląg-Sikora, Anna, Gródek-Szostak, Zofia, Kuboń, Maciej, and Komorowska, Monika

Subjects

CHINESE cabbage, GREENHOUSE gases, PLANT fertilization, SUSTAINABLE agriculture, CROP yields, FERTILIZERS

Abstract

Optimization of plant fertilization is an important element of all quality systems in primary production, such as Integrated Production, GLOBAL G.A.P. (Good Agriculture Practice) or SAI (Sustainable Agriculture Initiative). Fertilization is the most important element of agricultural treatments, affecting the quantity and quality of crops. The aim of the study was to assess greenhouse gas (GHG) emissions in the cultivation of Chinese cabbage, depending on the technological variant. The factor modifying the production technology was the use of fertilizers with a slow release of nutrients. One tonne of marketable Chinese cabbage crop was selected as the functional unit. To achieve the research goal, a strict field experiment was carried out. Calculation of the total amount of GHG emitted from the crop was made in accordance with ISO 14040 and ISO 14044. The system boundaries included the production and use of fertilizers and pesticides, energy consumption for agricultural practices and the emission of gases from soil resources and harvesting residue. The use of slow-release fertilizers resulted in a greater marketable yield of cabbage compared to conventional fertilizers. The results of the research indicate a significant potential for the use of slow-release fertilizers in reducing agricultural emissions. From the environmental and production point of view, the most favourable variant is the one with 108 kg N·ha−1 slow-release fertilizers. At a higher dose of this element, no increase in crop yield was observed. At this nitrogen dose, a 30% reduction in total GHG emissions and a 50% reduction in fertilizer emissions from the use of per product functional unit were observed. The reference object was fertilization in accordance with production practice in the test area. [ABSTRACT FROM AUTHOR]

Published

2020

26. The Effect of the Addition of a Fat Emulsifier on the Amount and Quality of the Obtained Biogas.

Author

Sikora, Jakub, Niemiec, Marcin, Szeląg-Sikora, Anna, Gródek-Szostak, Zofia, Kuboń, Maciej, and Komorowska, Monika

Subjects

STABILIZING agents, BIOGAS production, SOLID waste, ANIMAL waste, BIOGAS, METHANE fermentation, POULTRY processing

Abstract

Slaughterhouse waste management is an important technological, economic, and environmental challenge. Recently, more and more attention has been paid to the possibility of obtaining biogas from waste generated by slaughterhouses. The aim of the paper was to examine the effect of an emulsifier addition in the form of a carboxymethyl cellulose solution to create animal waste fermentation media based on the quantity and quality of the generated biogas. The adopted research goal was achieved based on a laboratory experiment of methane fermenting poultry processing waste. The waste was divided into two fractions: soft (tissue) and hard (bone). A fat emulsifier in a concentration of 1%, 2.5%, 5%, and 10% of fresh weight of the substrate was added to each substrate sample made from the above fractions. The emulsifier used was a 55% carboxymethyl cellulose solution, since this emulsifier is most commonly used in food production. The experiment was conducted in order to determine how the addition of an emulsifier (55% carboxymethylcellulose solution) affects the hydration of fats during methane fermentation, as demonstrated on poultry slaughterhouse waste. The samples were subjected to static methane fermentation, according to the methodology of DIM DIN 38414(DIN Deutches Institut für Normung). The experiment lasted 30 days. The total amount of biogas obtained after fermentation was 398 mL·g−1 for the soft fraction and 402 mL·g−1 for the hard fraction. In the case of the soft waste fraction, the addition of carboxymethylcellulose at 1% of the mass to the biogas process increased the amount of obtained biogas by 16%. In the case of the hard fraction, no effect of the addition of emulsifier on the total amount of biogas obtained was identified. In each case, the biogas from substrates with added emulsifier contained less methane and slightly more carbon. The emulsifier added to the soft fraction of slaughterhouse waste from poultry processing allowed cutting the process of methanogenesis by over 50% while maintaining the efficiency of biogas production. In the case of biogasification of bone tissue, no unambiguous effect of the addition of emulsifier on the improvement of process efficiency was identified. [ABSTRACT FROM AUTHOR]

Published

2020

27. Selected Properties of Soils for Long-Term Use in Organic Farming.

Author

Niemiec, Marcin, Chowaniak, Maciej, Sikora, Jakub, Szeląg-Sikora, Anna, Gródek-Szostak, Zofia, and Komorowska, Monika

Abstract

The goal of organic farming with respect to plant production is to create high-quality products while minimizing human impacts. The aim of this paper was to assess soil properties in selected organic farms in terms of the achievement of general and specific objectives of organic farming. Fifty five (55) organic farms were selected for the research; twenty five (25) of those farms additionally had conventional animal production with cattle breeding. Soil samples were collected from each farm and, the following parameters, deciding about the suitability for agriculture were determined: pH, content of organic carbon, available phosphorus and potassium, mineral nitrogen, and Total nitrogen content. The content of available phosphorus and mineral nitrogen was very low or low in most of the studied soils, which can lead to disturbance of homeostasis of agroecosystems. Potassium content in these soils was high. The properties of the studied soils indicate a high risk of chemical and biological degradation. Without implementing actions that control the pH and increase the content of nitrogen and phosphorus elements, the degradation will increase. Soil properties in the group of farms with animal production were more beneficial from the point of view of crop production, compared with farms that do not breed animals. [ABSTRACT FROM AUTHOR]

Published

2020

28. Assessment of the Efficiency of Nitrogen Slow-Release Fertilizers in Integrated Production of Carrot Depending on Fertilization Strategy.

Author

Sikora, Jakub, Niemiec, Marcin, Tabak, Monika, Gródek-Szostak, Zofia, Szeląg-Sikora, Anna, Kuboń, Maciej, and Komorowska, Monika

Abstract

Optimization of plant nutrition is a very important part of primary production quality systems. Crop fertilization is the most important agrotechnical measure because it determines the amount and quality of the yield. Moreover, excess fertilization intensifies the eutrophication processes and the greenhouse effect. The study aimed to assess the suitability of slow-release fertilizers in cultivation of carrot subspecies Daucus carota L. ssp. sativus in the integrated production system. The objective was realized on the basis of a strict field experiment set up on a clay loam soil with low nutrient content. The dose of fertilizer was the experimental factor. The fertilizers were applied during the formation of the ridges. Traditional fertilizers (ammonium phosphate, potassium salt, ammonium nitrate, and a multi-component fertilizer Polifoska 6), as well as a multi-component fertilizer with slow release of nutrients, NPK Mg (18-12-24-4), were used. In individual variants of the experiment, different fertilization strategies were applied: integrated production fertilization, traditional fertilization, and fertilization based on the use of slow-release fertilizers. The control treatment comprised of unfertilized plants. The efficiency of nitrogen fertilization was evaluated based on agronomic efficiency, partial factor productivity, physiological efficiency, and removal efficiency. Fertilization strategy significantly impacted the quantity of obtained yield. In the control sample, prior to mineral fertilization, the crop yield was 33.53 Mg·ha−1. The largest yield was 82.30 Mg·ha−1.The largest yields were obtained from plants fertilized with a combination of slow-release fertilizers, with nitrogen introduced in the form of ammonium phosphate, and through conventional fertilization. The highest productivity and environmental efficiency were obtained in treatments with fertilization according to the principles of integrated production and with slow-release fertilizers. In terms of environmental efficiency, the best results were obtained through nitrogen fertilization using 400 kg of slow-release fertilizers. The use of slow-release fertilizers in carrot cultivation can significantly improve the efficiency of fertilization, both in terms of production and environmental protection. [ABSTRACT FROM AUTHOR]

Published

2020

29. Impact of Integrated and Conventional Plant Production on Selected Soil Parameters in Carrot Production.

Author

Szeląg-Sikora, Anna, Sikora, Jakub, Niemiec, Marcin, Gródek-Szostak, Zofia, Kapusta-Duch, Joanna, Kuboń, Maciej, Komorowska, Monika, and Karcz, Joanna

Abstract

Currently, the level of efficiency of an effective agricultural production process is determined by how it reduces natural environmental hazards caused by various types of technologies and means of agricultural production. Compared to conventional production, the aim of integrated agricultural cultivation on commercial farms is to maximize yields while minimizing costs resulting from the limited use of chemical and mineral means of production. As a result, the factor determining the level of obtained yield is the soil's richness in nutrients. The purpose of this study was to conduct a comparative analysis of soil richness, depending on the production system appropriate for a given farm. The analysis was conducted for two comparative groups of farms with an integrated and conventional production system. The farms included in the research belonged to two groups of agricultural producers and specialized in carrot production. [ABSTRACT FROM AUTHOR]

Published

2019

30. Risk Assessment for Social Practices in Small Vegetable farms in Poland as a Tool for the Optimization of Quality Management Systems.

Author

Niemiec, Marcin, Komorowska, Monika, Szeląg-Sikora, Anna, Sikora, Jakub, Kuboń, Maciej, Gródek-Szostak, Zofia, and Kapusta-Duch, Joanna

Abstract

Globalization of the food market is associated with the possibility of selling products into newer markets. However, it is also associated with the necessity to ensure proper quality products. Quality defined by the ISO 9001:2015 standard consists of factors that are part of customers' expectations concerning the safety of products and the technology of their manufacture. Currently, consumers are looking for products with defined and reproducible sensory properties, in which the content of harmful substances is below the critical values specified by legislation. This is observable particularly in developed countries. The second quality factor is the use of a production technology where negative environmental impacts are reduced. Recently, issues associated with protecting workers' rights and social needs have also become very important. In successive versions of quality management systems, such as GLOBAL G.A.P. or SAI Platform, social issues are becoming more and more important. The aim of this study was to assess the role of risk analysis for social practices in small farms in building a quality management system. Surveys were conducted in 2018. The surveys covered 62 vegetables or fruit farms with a cultivated area of up to 20 ha. Their lack of staff was due to the character of production. Where mechanic production is possible in small farms, family members can secure workforce demand. To achieve the research objective, a risk analysis was carried out for the implementation of social practices according to the guidelines of the ISO 31000:2018 standard. The criteria and inventory of identified risks were carried out, based on the guidelines of GLOBAL G.A.P. Risk Assessments on Social Practice (GRASP). Based on the identified risks, the areas relating to social practices, which require improvement in order to satisfy compliance with the GLOBAL G.A.P. standard, were indicated. The results of the conducted research pointed to a high risk of good social practices not being carried out and not meeting compliance with the requirements of the GLOBAL G.A.P. standard. The most important identified problems are associated with the deficiency of competent workers as well as the lack of facilities where workers can rest, eat and drink. A considerable problem is the conformity of employment contracts with local legislation and ensuring that work time and rest time are consistent with the law. In conditions of small farms in Poland, the problem with ensuring compliance with the standard in question is often the small number of workers. Creating an organized quality management system in the area of social practices is difficult in these cases, and sometimes even impossible. [ABSTRACT FROM AUTHOR]

Published

2019

31. Preparation, Characterization of Granulated Sulfur Fertilizers and Their Effects on a Sandy Soils.

Author

Lisowska A, Filipek-Mazur B, Sołtys J, Niemiec M, Gorczyca O, Bar-Michalczyk D, Komorowska M, Gródek-Szostak Z, Szeląg-Sikora A, Sikora J, and Kuboń M

Abstract

There is a potential for using sulfur waste in agriculture. The main objective of this study was to design a granular fertilizer based on waste elemental sulfur. Humic acids and halloysite were used to improve the properties and their influence on soil properties. This is the first report on the use of proposed materials for fertilizer production. The following granular fertilizers were prepared (the percentage share of component weight is given in brackets): fertilizer A (waste sulfur (95%) + halloysite (5%)), fertilizer B (waste sulfur (81%) + halloysite (5%) + humic acids (14%)), fertilizer C (waste sulfur (50%) + halloysite (50%)) and fertilizer D (waste sulfur (46%) + halloysite (46%) + humic acids (8%)). Basic properties of the obtained granulates were determined. Furthermore, the effect of the addition of the prepared fertilizers on soil pH, electrolytic conductivity, and sulfate content was examined in a 90-day incubation experiment. Enrichment with humic acids and the higher amount of halloysite increased the fertilizer properties (especially the share of larger granules and bulk density). In addition, it stabilized soil pH and increased the sulfur content (extracted with 0.01 mol·L -1 CaCl 2 and Mehlich 3) in the soil.

Published

2022