Vesna Vukašinović‐Pešić scite author profile

1. Springs are distinct freshwater habitats that are threatened globally by human impacts, but are not included in standard freshwater assessment tools. This study analysed how the standard macroinvertebrate metrics currently used in biomonitoring programmes for running waters perform in springs with similar ecological qualities but with a different degree of hydromorphological modification.Macroinvertebrate assemblages were analysed in 50 riparian springs along the Crvcka River in the Dinaric karst.2. Most metrics analysed (ASPT, EPT fam , PTH fam , BMWP, STAR_ICMi, and Spring_ICMi) showed significant differences between hydromorphologically modified and natural, i.e. unmodified, springs.3. A self-organizing map (SOM), an unsupervised artificial neural network, was used for patterning and visualizing 10 environmental parameters and the metrics analysed.Most macroinvertebrate metrics, besides IBE (which did not show any pattern) and PTH fam (which showed an opposite trend), had significantly lower values in the spring group with the highest electrical conductivity and the lowest discharge.4. The study showed that hydromorphological modification does not necessarily lead to a loss of crenobiontic species, provided that the discharge and substrate composition remain suitable. Future coordinated conservation strategies must take into account the fact that spring species assemblages are sensitive to habitat structure and organic pollution, as has been achieved in Europe for rivers assessed under the Water Framework Directive. 5. Using multimetric indices, such as the new Spring_ICMi, may help to provide a framework for assessing the response of macroinvertebrate assemblages to human impacts. They may also help in assessing the success of measures used for the conservation and restoration of these threatened but highly valuable habitats. Further investigations should verify the suitability of such metrics in assessing the deterioration of springs globally.

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Enhanced Arsenic Sorption by Hydrated Iron (III) Oxide‐Coated Materials—Mechanism and Performances

Jovanovic

Vukašinović‐Pešić

Rajaković

2011

Water Environment Research

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BSTRACT: Mechanism and performances of arsenic(lll) [As(III)] and arsenic(V) [As(V)] sorption onto hydrated iron(lll) oxide (HFO)-coated materials were investigated at neutral pH where arsenic occurs in both molecular and ionic forms. Arsenic sorption by HFO-coated materials was proven to be a multistage process consisting of both macropore and intraparticle diffusion. Higher mass-transfer velocities were obtained for As(lII). which is attributed to the beneficial features of HFO. Equilibrium studies revealed the spontaneous and favorable nature of the arsenic sorption process. The maximum sorption capacity and the Gibbs free energy values indicated that HFO-coated materials exhibit more affinity towards As(IIl). The Langmuir and Freundlich isotherm models revealed both the chemical and physical nature of the sorption process, while the Dubinin-Radushkevich model indicated that physical sorption is a more dominant process with HFO-coated materials. Water Environ. Res., 83, 498 (2011).

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Wild Bilberry (Vaccinium myrtillus L., Ericaceae) from Montenegro as a Source of Antioxidants for Use in the Production of Nutraceuticals

et al. 2018

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The aim of this study was to establish correlation of chemical composition and antioxidant activity of bilberry plants from Montenegro. Total phenolic, tannin, flavonoid, procyanidin and anthocyanin contents were determined in fruits and leaves extracts using spectrophotometric methods, while the measurements of metal content was carried out in an Inductively Coupled Atomic Emission Spectrometer. Qualitative and quantitative analyses of major phenolics were achieved by HPLC. In the investigated extracts, the most abundant phenolic was chlorogenic acid, followed by protocatechuic acid, while resveratrol, isoquercetin, quecetin and hyperoside were also present in significant quantities. Antioxidant potential was evaluated using two in vitro assays—FRAP and DPPH—being in the accordance with the cyclic voltammetry tests, performed as well. The results revealed that all the investigated extracts were rich in phenolic and essential mineral constituents, with significant antioxidant activity, depending on the polyphenolic and mineral contents, which was confirmed by principal component analysis.

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Conclusions: Recent Advances and the Future Prospects of the Lake Skadar/Shkodra Environment

Pešić

Karaman

Kostianoy

et al. 2018

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Chemical Composition and Some Trace Element Contents in Coals and Coal Ash from Tamnava-Zapadno Polje Coal Field, Serbia

Vukašinović‐Pešić

Rajaković

2009

Energy Sources, Part A: Recovery, Utilization, and Environmenta

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