Marián Kováčik scite author profile

Contamination of soil by toxic elements is a global issue of growing importance due to the increased anthropogenic impact on the natural environment. Conventional methods of soil decontamination possess disadvantages in forms of environmental and financial burdens. This fact leads to the search for alternative approaches of remediation of contaminated sites. One such approach includes phytoremediation. Phytoremediation advantages consist of low costs and small environmental impact. Several fast-growing energy plant species are suitable for phytoremediation purposes. Our article focuses on the phytoremediation potential of energy woody crops of Salix and Populus, and energy grasses Miscanthus and Arundo, which are grown primarily for biomass production. This approach links the environmentally friendly and economically less demanding remediation approach with the production of the local sustainable form of energy that decreases dependency on external energy supplies. Energy plants are able to provide high biomass yields in a short period of time, they are resistant against abiotic stress conditions and have the ability to accumulate toxic substances, thus helping to restore the desirable soil properties. The phytoremediation research is very interdisciplinary in its nature. In order to implement phytoremediation practices together with bioenergy successfully, it is crucial to involve site owners, local people, farmers, technology providers and consultants, remediation experts, sustainability assessors, regulatory agencies and certification bodies, biorefineries, financial sponsors, NGOs and other voluntary organizations. Some disadvantages and challenges of phytoremediation are also indicated.

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Bioenergy potential of agricultural phytomass production in Slovakia

Hauptvogl

Fehér

Prčík

et al. 2022

Ecocycles

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Biomass is a highly versatile renewable energy source used on a global scale. The paper discusses the current state of biomass energy use in the EU and Slovakia. Residual biomass was found as a key feedstock for the European bioeconomy. Slovakia is one of the most forested and rural countries in the EU. Therefore, biomass energy has the highest technical potential from all renewables in Slovakia. The main objective of the paper was to evaluate the phytomass production of the selected crops and their energy potential in individual self-governing regions of Slovakia. It is focused on the production of usable post-harvest residues theoretically used for energy purposes from the following studied main crops: wheat, rye, oats, barley, maize, potatoes, oilseed rape and sugar beet. The results show the estimated production of usable post-harvest residues of the selected crops and their energy potential in individual self-governing regions in Slovakia in 2019. The total production of usable post-harvest residues from the studied crops was 4,854,017 t and their estimated energy potential was 68 PJ. This amount of energy would cover 10% of the total energy consumption in Slovakia. The top three productive crops were maize, wheat, and sugar beet. Maize had the highest energy potential of 28.1 PJ, followed by wheat at 19 PJ and sugar beet at 14.2 PJ. The highest yields of post-harvest residues, as well as energy potential, were found in the Nitra region.

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Cohesion policy

Schwartz¹,

Takáč²,

Kováčik³

2020

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Urban Structure as a Precondition of Regional Development. Evidence from Slovakia

Mariš

Kováčik

2022

JSSP

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The main objective of the paper was to investigate a possible link between the urban structure and regional economic performance in Slovakia, at district level (LAU1). Based on the selected urban indicators, we identified distinct patterns in terms of urban structure and economic performance in Slovakia through the Agglomerative Hierarchical Clustering (AHC) method. The “inner” urban pattern includes districts located predominantly in the central part of the country with some extension to the west and east. Common characteristics of this pattern are higher centrality, clustering, and monocentric urban cores. The “outer” urban pattern includes districts located predominantly at the periphery, along the borders. The common characteristics of this pattern are the dispersed urban patterns and polycentric settlement structures. The underlying urban structure was matched with the economic conditions prevailing in each district for evaluating the degree of concordance. The kappa coefficient of concordance has shown a scant relation between the urban structure and economic performance of regions at the district level (LAU1). According to the main findings, underlying urban pattern (clustered or dispersed one) in any particular district does not preclude economic success or failure of its regional economy.

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Development of Selected Aspects of Small Farms in Chosen EU Countries

Kováčik¹

2022

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