Your search keyword '"Jasmina Obhođaš"' showing total 4 results

1. APPLICATION OF GIS AND STATISTICAL METHODS IN ESTABLISHMENT OF THE RELATIONSHIPS BETWEEN GEOCHEMICAL CHARACTERISTICS OF THE ENVIRONMENT AND GEOGRAPHICAL DISTRIBUTION OF DISEASE INCIDENCE RATE

Author

Ante Kutle, Jasmina Obhođaš, Dario Perković, Josip Gregac, Dijana Petrović, and Frankica Kapor

Subjects

Environmental geochemistry, public health, GIS, statistics, Island of Krk, Neretva delta, Mining engineering. Metallurgy, TN1-997, Geology, QE1-996.5

Abstract

Geochemical environment can influence human health causing chronic medical problems related to long-term, low-level exposures to toxic agents such are trace elements. Humans can be directly exposed to toxic substances by inhalation of air dust or indirectly through food chain or by consumption of local water for drinking, cooking, personal hygiene and recreational purposes. Chronic medical problems related to geochemical characteristics of the environment can also be caused by chronic deficit of chemical elements essential for humans. In this paper we will present several applications of the GIS and statistical methods for relating the geographical distribution of diseases with geochemical characteristics of the environment. In addition, we are presenting methods applied for distinguishing natural distribution of elements from anthropogenic contribution, which is important information for establishing protective measures necessary for decreasing the health risk (the paper is published in Croatian).

Published

2012

2. Effects of microscale particles in red mud amended artificial soils on bioaccumulation of elements in E. fetida

Author

Marijan Marciuš, Neda Vdović, Andrija Vinković, Davorin Sudac, Tea Mišić Radić, Viktória Feigl, Vladivoj Valkovic, and Jasmina Obhođaš

Subjects

Eisenia fetida, Environmental Engineering, Health, Toxicology and Mutagenesis, Potassium, 0211 other engineering and technologies, chemistry.chemical_element, 02 engineering and technology, Absorption (skin), 010501 environmental sciences, Calcium, 01 natural sciences, Soil, NATURAL SCIENCES, Environmental Chemistry, Animals, Soil Pollutants, Oligochaeta, Waste Management and Disposal, Biology, 0105 earth and related environmental sciences, 021110 strategic, defence & security studies, biology, Ecology, Physics, Earthworm, biology.organism_classification, Pollution, Bioaccumulation, Red mud, chemistry, Environmental chemistry, Soil water, Microscale particles, Dorsal pores, Dermal pores, Elements uptake, Potential deficiency of K Ca and Fe, Artificial soil test, Biophysics and Medical Physics

Abstract

Red mud (RM) contains large quantities of microscale particles < 1 micrometer and high concentrations of potentially toxic elements. In this research, we have used two types of RM of similar chemical properties but containing different quantities of micro-particles, to test whether their size plays a role in the uptake of chemical elements by earthworm Eisenia fetida. Earthworms were exposed for seven days to artificial soils (prepared in the laboratory following a protocol) amended with increasing quantities of RM. Mortality of 86% occurred when earthworms were exposed to amended soil containing 46% of particles below 1 µm. Surprisingly, tissue analyses have shown decreased concentrations of metals instead of the expected toxic effect. SEM analysis revealed that micro-particles strongly adhere to the earthworm epidermis putting them under the large stress. Micro-particles in RM clog their minute dermal pores of 90 nm to 735 nm in diameter, which size depends on whether the earthworm’s body is contracted or stretched. Strong adhesion of micro-particles to earthworms’ epidermis and blockage of their microsize pores prevented normal dermal respiration and absorption of chemical elements through their epithelium resulting in a decrease of most measured metals, especially essential elements potassium, calcium and iron, followed by the lethal outcomes.

Published

2021

3. Concentration with nanofiltration of red wine Cabernet Sauvignon produced from conventionally and ecologically grown grapes: effect on volatile compounds and chemical composition

Author

Dubravko Pichler, Josip Mesić, Jasmina Obhođaš, Andrija Vinković, Anita Pichler, Mirela Kopjar, and Ivana Ivić

Subjects

Filtration and Separation, TP1-1185, 02 engineering and technology, Cabernet Sauvignon red wine, ecological wine, conventional wine, nanofiltration, volatile compounds, chemical composition, elements concentration, Article, chemistry.chemical_compound, Acetic acid, Chemical engineering, 0404 agricultural biotechnology, Chemical Engineering (miscellaneous), Chemical composition, Wine, Ethanol, Chemical technology, Process Chemistry and Technology, 04 agricultural and veterinary sciences, 021001 nanoscience & nanotechnology, Pulp and paper industry, 040401 food science, Membrane, chemistry, Food Technology, TP155-156, Composition (visual arts), Nanofiltration, Viticulture, 0210 nano-technology

Abstract

Ecological viticulture represent an upward trend in many countries. Unlike conventional viticulture, it avoids the use of chemical fertilizers and other additives, minimizing the impact of chemicals on the environment and human health. The aim of this study was to investigate the influence of nanofiltration (NF) process on volatiles and chemical composition of conventional and ecological Cabernet Sauvignon red wine. The NF process was conducted on laboratory Alfa Laval LabUnit M20 (De Danske Sukkerfabrikker, Nakskov, Denmark) equipped with six NF M20 membranes in a plate module, at two temperature regimes, with and without cooling and four pressures (2.5, 3.5, 4.5 and 5.5 MPa). Different processing parameters significantly influenced the permeate flux which increased when higher pressure was applied. In initial wines and obtained retentates, volatile compounds, chemical composition and elements concentration were determined. The results showed that the higher pressure and retentate cooling was more favourable for total volatiles retention than lower pressure and higher temperature. Individual compound retention depended on its chemical properties, applied processing parameters and wine composition. Nanofiltration process resulted in lower concentrations of ethanol, acetic acid (&gt, 50%), 4-ethylphenol and 4-ethylguaiacol (&gt, 90%). Different composition of initial feed (conventional and ecological wine) had an important impact on retention of elements.

Published

2021

4. The Effect of Aging on Composition and Surface of Translucent Zirconia Ceramic

Author

Korina Mešić, Igor Majnarić, Jasmina Obhodaš, Gorana Baršić, and Ketij Mehulić

Subjects

Zirconia, Dental Materials, Materials Testing, Surface Properties, Dental Polishing, Dentistry, RK1-715

Abstract

Objectives: To examine the effect of two aging protocols on the chemical and phase composition as well as the surface state of monolithic translucent zirconia ceramics. Material and Methods: Trans-lucent zirconia ceramics KATANA-Zirconia STML with different surface treatments (no treatment, K1, K2; glazed, G1-G8; polished, P1-P8) underwent testing in order to examine how the two aging protocols (three-hour hydrothermal degradation in an autoclave at 134 °C and 2 bars: G1-G4, P1-P4, and sixteen-hour chemical degradation in four-percent acetic acid at 80 °C (ISO 6872): G5-G8, P5-P8) affect chemical composition, particularly the share of stabilizing yttrium oxide (Energy Dispersive X-Ray Fluorescence – EDXRF), phase composition (X-ray diffraction – XRD) and surface state in terms of roughness and gloss. Results: Aging protocols did not affect the tested chemical composition stability of specimens and a high share of stabilizing yttrium-oxide (≥10% of total content), which correlates with the absence of monoclinic phase. A decrease in gloss on all specimens is statistically significant. Chemical degradation substantially increased the surface roughness of tested specimens. Conclusions: Translucent monolithic zirconia demonstrated a stable chemical composition and resistance to tetragonal-to-monoclinic transformation. Surface gloss was significantly reduced, especially in polished specimens. Contrary to glazed specimens, the tested polished specimens manifested an increase in surface roughness. Glazing the surface of translucent monolithic zirconia produces better esthetic, tribological and hygienic effects than polishing.

Published

2020