TY  - CONF
AU  - Hukić, E.
AU  - Subašić, M.
AU  - Tosti, Tomislav
AU  - Đogo Mračević, S.
AU  - Štrbac, S.
AU  - Stojadinović, Sanja M.
AU  - Kašanin-Grubin, Milica
PY  - 2021
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/4907
AB  - Research in forest ecosystems is focused on recent and past extreme events caused by drought, heat, storms and frost [1,2]. This research aims at exploring soil-specific processes of element leaching in relation to the impact of soil wetting cycles after freezing and heating. Loosely bound nutrients (ions/elements) react differently to thermodynamic conditions, which are interesting to analyze associated with climate change and soil water depletion. Soil drying is related to the increase in air temperature. Repeated drying and wetting increases mineralization of the organic matter, and thus increases the availability and losses of nutrients. The effect of freezing-wetting alters solution fluxes. Both processes are far from being predictable, and there is a lack of knowledge on this subject. The objective of this experiment was to investigate the effects of soil freezing-wetting and heating-wetting cycles on soil leaching processes. Our hypothesis is that freezing and heating of the soil, change the quality of the soil solute, i.e. mineral ions (Na+ , K+ , Ca2+, Mg2+, Al3+, Fe3+, Mn2+, NO2 - , SO4 2-, NO3 - , PO4 3-) concentrations in leachate. Two forest soil profiles, in European beech dominated stand on Mt Bjelašnica in Bosnia and Herzegovina (18˘15’44”E, 43˘42’25”N) were sampled. Soil type corresponded to Calcaric Cambisol (CA) and Chromic Cambisol (CH) according to IUSS Working Group WRB (2015). Soil was sampled by horizons (O, Ah, A/Brz, Brz1, Brz2). Porous plastic glasses were filled with 120g of air-dried soil, two representing different treatments (rewetting-freezing vs. rewetting-heating) and one representing the control. Treatments involved: a) four cycles of wetting the soil (2% intensity, 30’, 120cm3 ) and freezing (-10˘C) vs b) four cycles of wetting the soil (2% intensity, 30’, 120cm3 ) and heating for 3 hours at 40˘C. Control state involved wetting and drying at room temperature. After each wetting cycle, leachate was captured and left in freezer until determining concentrations of cations using Inductively coupled plasma optical emission spectrometer (Thermo scientific iCAP 6000 series) and anions using Dionex ICS 3000. We analyzed 16 samples per profile and per treatment, and 14 control samples, in total 78 samples. The results obtained through this study point that different thermodynamic conditions influence different leaching intensity of soil ions. On the one hand, higher intensity of leaching of Al, Fe and Mn in CH soil was linked with heating-wetting treatments. On the other hand, more intense leaching of Ca, Mg and Na in CC soil was observed after freezing-wetting treatment. The experiment also showed lower leaching intensity of anions after heating-rewetting compare to freezing-wetting. Freezing-wetting cycles, like in our experiment, seems to have higher effect on the ion losses from temperate forest soils.
PB  - Belgrade : Serbian Chemical Society
C3  - Book of Abstracts 21st; European Meeting on Environmental Chemistry
T1  - Do Freezing and Heating Cycles Influence Differently on Soil Elements Leaching?
SP  - 51
EP  - 51
UR  - https://hdl.handle.net/21.15107/rcub_cherry_4907
ER  - 

@conference{
author = "Hukić, E. and Subašić, M. and Tosti, Tomislav and Đogo Mračević, S. and Štrbac, S. and Stojadinović, Sanja M. and Kašanin-Grubin, Milica",
year = "2021",
abstract = "Research in forest ecosystems is focused on recent and past extreme events caused by drought, heat, storms and frost [1,2]. This research aims at exploring soil-specific processes of element leaching in relation to the impact of soil wetting cycles after freezing and heating. Loosely bound nutrients (ions/elements) react differently to thermodynamic conditions, which are interesting to analyze associated with climate change and soil water depletion. Soil drying is related to the increase in air temperature. Repeated drying and wetting increases mineralization of the organic matter, and thus increases the availability and losses of nutrients. The effect of freezing-wetting alters solution fluxes. Both processes are far from being predictable, and there is a lack of knowledge on this subject. The objective of this experiment was to investigate the effects of soil freezing-wetting and heating-wetting cycles on soil leaching processes. Our hypothesis is that freezing and heating of the soil, change the quality of the soil solute, i.e. mineral ions (Na+ , K+ , Ca2+, Mg2+, Al3+, Fe3+, Mn2+, NO2 - , SO4 2-, NO3 - , PO4 3-) concentrations in leachate. Two forest soil profiles, in European beech dominated stand on Mt Bjelašnica in Bosnia and Herzegovina (18˘15’44”E, 43˘42’25”N) were sampled. Soil type corresponded to Calcaric Cambisol (CA) and Chromic Cambisol (CH) according to IUSS Working Group WRB (2015). Soil was sampled by horizons (O, Ah, A/Brz, Brz1, Brz2). Porous plastic glasses were filled with 120g of air-dried soil, two representing different treatments (rewetting-freezing vs. rewetting-heating) and one representing the control. Treatments involved: a) four cycles of wetting the soil (2% intensity, 30’, 120cm3 ) and freezing (-10˘C) vs b) four cycles of wetting the soil (2% intensity, 30’, 120cm3 ) and heating for 3 hours at 40˘C. Control state involved wetting and drying at room temperature. After each wetting cycle, leachate was captured and left in freezer until determining concentrations of cations using Inductively coupled plasma optical emission spectrometer (Thermo scientific iCAP 6000 series) and anions using Dionex ICS 3000. We analyzed 16 samples per profile and per treatment, and 14 control samples, in total 78 samples. The results obtained through this study point that different thermodynamic conditions influence different leaching intensity of soil ions. On the one hand, higher intensity of leaching of Al, Fe and Mn in CH soil was linked with heating-wetting treatments. On the other hand, more intense leaching of Ca, Mg and Na in CC soil was observed after freezing-wetting treatment. The experiment also showed lower leaching intensity of anions after heating-rewetting compare to freezing-wetting. Freezing-wetting cycles, like in our experiment, seems to have higher effect on the ion losses from temperate forest soils.",
publisher = "Belgrade : Serbian Chemical Society",
journal = "Book of Abstracts 21st; European Meeting on Environmental Chemistry",
title = "Do Freezing and Heating Cycles Influence Differently on Soil Elements Leaching?",
pages = "51-51",
url = "https://hdl.handle.net/21.15107/rcub_cherry_4907"
}

Hukić, E., Subašić, M., Tosti, T., Đogo Mračević, S., Štrbac, S., Stojadinović, S. M.,& Kašanin-Grubin, M.. (2021). Do Freezing and Heating Cycles Influence Differently on Soil Elements Leaching?. in Book of Abstracts 21st; European Meeting on Environmental Chemistry
Belgrade : Serbian Chemical Society., 51-51.
https://hdl.handle.net/21.15107/rcub_cherry_4907

Hukić E, Subašić M, Tosti T, Đogo Mračević S, Štrbac S, Stojadinović SM, Kašanin-Grubin M. Do Freezing and Heating Cycles Influence Differently on Soil Elements Leaching?. in Book of Abstracts 21st; European Meeting on Environmental Chemistry. 2021;:51-51.
https://hdl.handle.net/21.15107/rcub_cherry_4907 .

Hukić, E., Subašić, M., Tosti, Tomislav, Đogo Mračević, S., Štrbac, S., Stojadinović, Sanja M., Kašanin-Grubin, Milica, "Do Freezing and Heating Cycles Influence Differently on Soil Elements Leaching?" in Book of Abstracts 21st; European Meeting on Environmental Chemistry (2021):51-51,
https://hdl.handle.net/21.15107/rcub_cherry_4907 .

TY  - CONF
AU  - Tosti, Tomislav
AU  - Veselinović, G.
AU  - Azavedo, J.
AU  - Fonseca, F.
AU  - Štrbac, S.
AU  - Stojadinović, Sanja M.
AU  - Kašanin-Grubin, Milica
PY  - 2021
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/4915
AB  - As the forests decrease in their size and quality, the forest ecosystems, as well as the ecosystems services and climate also change. Hence many of the animals and plants are relocated or brought into jeopardy of distinguishing. Directly and indirectly climate changes affect the growth and productivity of forests through changes in soil properties, temperature, draught, atmospehric falls and other factors. The effects of climate change on soils are expected mainly through alteration in soil moisture conditions and increase in soil temperature and CO2 levels [1]. These changes influence complex forest ecosystems since concentration of soil organic carbon, nitrogen cycles, water and nutrient retention, filter functions and erosion control are also affected. The hustle enviroment lead to forest extiction due to changes in the formation and conservation of soil structure, available water-holding capacity, soil nutrient cycling, and soil biodiversity transport of nutrients. The forest trees slowly extinct, decompose and change nitrogen cycles, content of organic carbon and other factors that influence the rest of forests ecosystems. In this study, the most abundant anions of European beech forest soils were investigated due to their specific roles in forests ecosystems. The carbonate and sulfate play important role in soil structure, water holding capacity and soil density. On the other hand, phosphate and nitrate ions can be regarded as markers of undisturbed forest ecosystems. The chloride is relatively uninvolved in neither biological nor inorganic chemical reactions [2]. Leaching in forest soils is limited by physco chemical reactions and roots needs. The framework of this study is to develop adequate database of forest ecosystems, and their response to climate change. This will involve analysis of physicochemical properties, anion and elemental composition. For that purpose, 80 soil samples from 15 soil profiles (0-10 cm, 10-20 cm, 20-40 cm and 40-80 cm) were collected from beech forests of Spain, Czech Republic, Slovakia, Germany, Poland, Romania, Serbia, Italy, Bosnia and Herzegovina and Slovenia (Figure 1). Dionex ICS 3000 was used for anion analysis. The obtained results pointed out relatioship of sulfate and carbonate according to the soil type, while others anions did not exhibit such behavior. Climate change leads to leaching of basic cations which leaves the soils more acidified and this can be even more severe in soils containing high concentrations of sulfates [3]. The database of the major anion profile can be used for building apropriate model for assessing and predicting the effects of the climate changes on forest ecosystems The outcomes of this study will be compiled with the research conducted on pollution induced and climate change effects regarding aquatic, atmospheric and terrestrial systems, which will be operationalized in a geo-spatial and temporal forecasting model. The obtained models may be used as screening techniques for predicting the environmental stress caused by climate change in forest mountain regions.
PB  - Belgrade : Serbian Chemical Society
C3  - Book of Abstracts 21st; European Meeting on Environmental Chemistry
T1  - The Anions Profile as an Important Property of Soil in European Beech Forests
SP  - 103
EP  - 103
UR  - https://hdl.handle.net/21.15107/rcub_cherry_4915
ER  - 

@conference{
author = "Tosti, Tomislav and Veselinović, G. and Azavedo, J. and Fonseca, F. and Štrbac, S. and Stojadinović, Sanja M. and Kašanin-Grubin, Milica",
year = "2021",
abstract = "As the forests decrease in their size and quality, the forest ecosystems, as well as the ecosystems services and climate also change. Hence many of the animals and plants are relocated or brought into jeopardy of distinguishing. Directly and indirectly climate changes affect the growth and productivity of forests through changes in soil properties, temperature, draught, atmospehric falls and other factors. The effects of climate change on soils are expected mainly through alteration in soil moisture conditions and increase in soil temperature and CO2 levels [1]. These changes influence complex forest ecosystems since concentration of soil organic carbon, nitrogen cycles, water and nutrient retention, filter functions and erosion control are also affected. The hustle enviroment lead to forest extiction due to changes in the formation and conservation of soil structure, available water-holding capacity, soil nutrient cycling, and soil biodiversity transport of nutrients. The forest trees slowly extinct, decompose and change nitrogen cycles, content of organic carbon and other factors that influence the rest of forests ecosystems. In this study, the most abundant anions of European beech forest soils were investigated due to their specific roles in forests ecosystems. The carbonate and sulfate play important role in soil structure, water holding capacity and soil density. On the other hand, phosphate and nitrate ions can be regarded as markers of undisturbed forest ecosystems. The chloride is relatively uninvolved in neither biological nor inorganic chemical reactions [2]. Leaching in forest soils is limited by physco chemical reactions and roots needs. The framework of this study is to develop adequate database of forest ecosystems, and their response to climate change. This will involve analysis of physicochemical properties, anion and elemental composition. For that purpose, 80 soil samples from 15 soil profiles (0-10 cm, 10-20 cm, 20-40 cm and 40-80 cm) were collected from beech forests of Spain, Czech Republic, Slovakia, Germany, Poland, Romania, Serbia, Italy, Bosnia and Herzegovina and Slovenia (Figure 1). Dionex ICS 3000 was used for anion analysis. The obtained results pointed out relatioship of sulfate and carbonate according to the soil type, while others anions did not exhibit such behavior. Climate change leads to leaching of basic cations which leaves the soils more acidified and this can be even more severe in soils containing high concentrations of sulfates [3]. The database of the major anion profile can be used for building apropriate model for assessing and predicting the effects of the climate changes on forest ecosystems The outcomes of this study will be compiled with the research conducted on pollution induced and climate change effects regarding aquatic, atmospheric and terrestrial systems, which will be operationalized in a geo-spatial and temporal forecasting model. The obtained models may be used as screening techniques for predicting the environmental stress caused by climate change in forest mountain regions.",
publisher = "Belgrade : Serbian Chemical Society",
journal = "Book of Abstracts 21st; European Meeting on Environmental Chemistry",
title = "The Anions Profile as an Important Property of Soil in European Beech Forests",
pages = "103-103",
url = "https://hdl.handle.net/21.15107/rcub_cherry_4915"
}

Tosti, T., Veselinović, G., Azavedo, J., Fonseca, F., Štrbac, S., Stojadinović, S. M.,& Kašanin-Grubin, M.. (2021). The Anions Profile as an Important Property of Soil in European Beech Forests. in Book of Abstracts 21st; European Meeting on Environmental Chemistry
Belgrade : Serbian Chemical Society., 103-103.
https://hdl.handle.net/21.15107/rcub_cherry_4915

Tosti T, Veselinović G, Azavedo J, Fonseca F, Štrbac S, Stojadinović SM, Kašanin-Grubin M. The Anions Profile as an Important Property of Soil in European Beech Forests. in Book of Abstracts 21st; European Meeting on Environmental Chemistry. 2021;:103-103.
https://hdl.handle.net/21.15107/rcub_cherry_4915 .

Tosti, Tomislav, Veselinović, G., Azavedo, J., Fonseca, F., Štrbac, S., Stojadinović, Sanja M., Kašanin-Grubin, Milica, "The Anions Profile as an Important Property of Soil in European Beech Forests" in Book of Abstracts 21st; European Meeting on Environmental Chemistry (2021):103-103,
https://hdl.handle.net/21.15107/rcub_cherry_4915 .

TY  - CONF
AU  - Sojadinović, S.
AU  - Veselinović, G.
AU  - Pržulj, S.
AU  - Šajnović, Aleksandra
AU  - Gajica, Gordana
AU  - Štrbac, S.
AU  - Jovančićević, Branimir
PY  - 2021
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/4922
AB  - The Vrbas River is an important river ecosystem in Bosnia and Herzegovina with a length of 250 km and catchment areas of 5900 km2 . Before reaching Banja Luka, the Vrbas River passes through a canyon and numerous gorges, which are from 1955 protected by the Law on the Protection of Natural Values. This river flows through many towns and villages along the entire course, but the main anthropogenic influence comes from Banja Luka, one of the largest cities in Bosnia and Herzegovina.The aim of this research was to characterise extractable organic matter of sediments from the Vrbas River in the city area of Banja Luka. Six samples were collected at locations which were selected based on the vicinity of potential sources of anthropogenic pollution: 1 and 3 – sites near bridge and frequent traffic, 2 – city’s promenade, 6 – site in the vicinity of the thermal power plant, 7 – site close to Banja Luka Brewery and the bridge on frequent road, and 8 – site close to the food industry “Vitaminka”. Extractable organic matter was isolated with dichloromethane/ methanol mixture using a Soxhlet apparatus. Hydrocarbons were isolated from the extracts using a column chromatography and analyzed by gas chromatography – mass spectrometry (GC-MS). Detailed analysis of n-alkanes (m/z 71), diterpanes (m/z 123), hopanes (m/z 191) and steranes (m/z 217) was done. The individual peaks were identified by comparison with literature data [1] and based on their mass spectra (library: NIST11). Among saturated hydrocarbons diterpane, 16α(H)phyllocladane is the most dominant component in almost all samples (Fig.1). The exception is a sample 7. This diterpane is followed by n-alkanes with a predominance of higher odd homologues.  It indicates predominately native organic matter of Vrbas river sediments, originated mostly from terrestrial plants. That was noticed the predominant presence of native organic material in noticed in samples 2, 3, 6, while the presence of oil type pollutants was confirmed in other samples (1, 7, 8), which are near the bridge and frequent traffic roads. Fig 1. Total ion current (TIC) of saturated fraction. The previous study regarding the contents distribution of heavy metals in these sediments showed that most contaminated samples are at sampling points 2 and 6 [2]. That is not the case with oil contamination pointing to probably different sources of anthropogenic pollution.
PB  - Belgrade : Serbian Chemical Society
C3  - Book of Abstracts 21st; European Meeting on Environmental Chemistry
T1  - Determination of Extractable Organic Matter Type from Urban Sediments of Vrbas River (Banja Luka, Bosnia and Herzegovina)
SP  - 138
EP  - 138
UR  - https://hdl.handle.net/21.15107/rcub_cherry_4922
ER  - 

@conference{
author = "Sojadinović, S. and Veselinović, G. and Pržulj, S. and Šajnović, Aleksandra and Gajica, Gordana and Štrbac, S. and Jovančićević, Branimir",
year = "2021",
abstract = "The Vrbas River is an important river ecosystem in Bosnia and Herzegovina with a length of 250 km and catchment areas of 5900 km2 . Before reaching Banja Luka, the Vrbas River passes through a canyon and numerous gorges, which are from 1955 protected by the Law on the Protection of Natural Values. This river flows through many towns and villages along the entire course, but the main anthropogenic influence comes from Banja Luka, one of the largest cities in Bosnia and Herzegovina.The aim of this research was to characterise extractable organic matter of sediments from the Vrbas River in the city area of Banja Luka. Six samples were collected at locations which were selected based on the vicinity of potential sources of anthropogenic pollution: 1 and 3 – sites near bridge and frequent traffic, 2 – city’s promenade, 6 – site in the vicinity of the thermal power plant, 7 – site close to Banja Luka Brewery and the bridge on frequent road, and 8 – site close to the food industry “Vitaminka”. Extractable organic matter was isolated with dichloromethane/ methanol mixture using a Soxhlet apparatus. Hydrocarbons were isolated from the extracts using a column chromatography and analyzed by gas chromatography – mass spectrometry (GC-MS). Detailed analysis of n-alkanes (m/z 71), diterpanes (m/z 123), hopanes (m/z 191) and steranes (m/z 217) was done. The individual peaks were identified by comparison with literature data [1] and based on their mass spectra (library: NIST11). Among saturated hydrocarbons diterpane, 16α(H)phyllocladane is the most dominant component in almost all samples (Fig.1). The exception is a sample 7. This diterpane is followed by n-alkanes with a predominance of higher odd homologues.  It indicates predominately native organic matter of Vrbas river sediments, originated mostly from terrestrial plants. That was noticed the predominant presence of native organic material in noticed in samples 2, 3, 6, while the presence of oil type pollutants was confirmed in other samples (1, 7, 8), which are near the bridge and frequent traffic roads. Fig 1. Total ion current (TIC) of saturated fraction. The previous study regarding the contents distribution of heavy metals in these sediments showed that most contaminated samples are at sampling points 2 and 6 [2]. That is not the case with oil contamination pointing to probably different sources of anthropogenic pollution.",
publisher = "Belgrade : Serbian Chemical Society",
journal = "Book of Abstracts 21st; European Meeting on Environmental Chemistry",
title = "Determination of Extractable Organic Matter Type from Urban Sediments of Vrbas River (Banja Luka, Bosnia and Herzegovina)",
pages = "138-138",
url = "https://hdl.handle.net/21.15107/rcub_cherry_4922"
}

Sojadinović, S., Veselinović, G., Pržulj, S., Šajnović, A., Gajica, G., Štrbac, S.,& Jovančićević, B.. (2021). Determination of Extractable Organic Matter Type from Urban Sediments of Vrbas River (Banja Luka, Bosnia and Herzegovina). in Book of Abstracts 21st; European Meeting on Environmental Chemistry
Belgrade : Serbian Chemical Society., 138-138.
https://hdl.handle.net/21.15107/rcub_cherry_4922

Sojadinović S, Veselinović G, Pržulj S, Šajnović A, Gajica G, Štrbac S, Jovančićević B. Determination of Extractable Organic Matter Type from Urban Sediments of Vrbas River (Banja Luka, Bosnia and Herzegovina). in Book of Abstracts 21st; European Meeting on Environmental Chemistry. 2021;:138-138.
https://hdl.handle.net/21.15107/rcub_cherry_4922 .

Sojadinović, S., Veselinović, G., Pržulj, S., Šajnović, Aleksandra, Gajica, Gordana, Štrbac, S., Jovančićević, Branimir, "Determination of Extractable Organic Matter Type from Urban Sediments of Vrbas River (Banja Luka, Bosnia and Herzegovina)" in Book of Abstracts 21st; European Meeting on Environmental Chemistry (2021):138-138,
https://hdl.handle.net/21.15107/rcub_cherry_4922 .

TY  - CONF
AU  - Štrbac, S.
AU  - Ranđelović, Danijela
AU  - Gajica, G.
AU  - Stojadinović, Sanja M.
AU  - Veselinović, G.
AU  - Orlić, Jovana
AU  - Kašanin-Grubin, Milica
PY  - 2021
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/4920
AB  - Forests cover about 40% of Earth’s surface, while is 42% of the European Unions’ total land area is covered by forests and wooded land [1]. Forest ecosystems are open and dynamic systems that exchange matter with other systems such as the atmosphere, hydrosphere, and biosphere [1]. Nowadays, in addition to the exchange of substances necessary for its functioning, there is also an exchange of polluting substances. Heavy metals in forest soil can originate from natural and anthropogenic processes and their high concentration can be toxic for ecosystems and humans [2]. The aim of this study is to determine: (i) heavy metal distribution in forest soil; (ii) environmental and health risk; (iii) the source of heavy metals; (iv) the origin of heavy metals; and (v) influence of the geological substrate on heavy metal contents. Soil samples were collected from European mountain beech forests in 11 countries: Bosnia and Herzegovina, Bulgaria, Czech Republic, Germany, Italy, Poland, Romania, Serbia, Slovakia, Slovenia, and Spain. Since European beech forests grow on a wide range of geological settings, during this research terrestrial ecosystems that lie on five major bedrock groups (andesite, carbonate, conglomerate, granite, and sandstone) were investigated. The average abundance order of heavy metal contents in forest soil samples is Cr > Zn > Ni > Pb > Cu > Co > Cd. According to geo-statistical analysis soil samples with the lowest heavy metal contents belong to cambisol soil type, on sandstone, and granite substrate, and with the highest contents belong luvisols and rendzina soil types on limestone and dolomite substrate. The concentration of most heavy metals doesn’t show a systematic pattern with depth. Considering enrichment factor (EF) Pb, Sb, Cd and As, have moderate enrichment, or moderately severe enrichment in the surface soil layer. Mercury has severe enrichment. The highest values of hazard quotient pathways are noticed for ingestion in the children population, especially in the case of Pb. The Pearson correlation coefficient revealed a positive correlation among most of the elements indicating one or more common sources of heavy metals. Based on the Positive Matrix Factorization (PMF) V, Ni, Cu and Th were provided the highest percentage contribution for Factor 1, As, and Se for Factor 1 and Factor 3, Hg for Factor 4, and Cd for Factor 5. Principal Component Analysis (PCA) showed that Principle Component 1 (PC1) was mainly loaded with V, Ni, Cu, As, Se, and Th with similar high values, and Cd and Hg were strongly correlated in the Principle Component 2 (PC2). Taking into account all results it can be concluded that heavy metal concentrations in European beech forests soil are mainly determined by the geological substrate.
PB  - Belgrade : Serbian Chemical Society
C3  - Book of Abstracts 21st; European Meeting on Environmental Chemistry
T1  - Heavy Metals Distribution, Environmental and Health Risk, Sources, and Origin in Soil from European Beech Forests
SP  - 130
EP  - 130
UR  - https://hdl.handle.net/21.15107/rcub_cherry_4920
ER  - 

@conference{
author = "Štrbac, S. and Ranđelović, Danijela and Gajica, G. and Stojadinović, Sanja M. and Veselinović, G. and Orlić, Jovana and Kašanin-Grubin, Milica",
year = "2021",
abstract = "Forests cover about 40% of Earth’s surface, while is 42% of the European Unions’ total land area is covered by forests and wooded land [1]. Forest ecosystems are open and dynamic systems that exchange matter with other systems such as the atmosphere, hydrosphere, and biosphere [1]. Nowadays, in addition to the exchange of substances necessary for its functioning, there is also an exchange of polluting substances. Heavy metals in forest soil can originate from natural and anthropogenic processes and their high concentration can be toxic for ecosystems and humans [2]. The aim of this study is to determine: (i) heavy metal distribution in forest soil; (ii) environmental and health risk; (iii) the source of heavy metals; (iv) the origin of heavy metals; and (v) influence of the geological substrate on heavy metal contents. Soil samples were collected from European mountain beech forests in 11 countries: Bosnia and Herzegovina, Bulgaria, Czech Republic, Germany, Italy, Poland, Romania, Serbia, Slovakia, Slovenia, and Spain. Since European beech forests grow on a wide range of geological settings, during this research terrestrial ecosystems that lie on five major bedrock groups (andesite, carbonate, conglomerate, granite, and sandstone) were investigated. The average abundance order of heavy metal contents in forest soil samples is Cr > Zn > Ni > Pb > Cu > Co > Cd. According to geo-statistical analysis soil samples with the lowest heavy metal contents belong to cambisol soil type, on sandstone, and granite substrate, and with the highest contents belong luvisols and rendzina soil types on limestone and dolomite substrate. The concentration of most heavy metals doesn’t show a systematic pattern with depth. Considering enrichment factor (EF) Pb, Sb, Cd and As, have moderate enrichment, or moderately severe enrichment in the surface soil layer. Mercury has severe enrichment. The highest values of hazard quotient pathways are noticed for ingestion in the children population, especially in the case of Pb. The Pearson correlation coefficient revealed a positive correlation among most of the elements indicating one or more common sources of heavy metals. Based on the Positive Matrix Factorization (PMF) V, Ni, Cu and Th were provided the highest percentage contribution for Factor 1, As, and Se for Factor 1 and Factor 3, Hg for Factor 4, and Cd for Factor 5. Principal Component Analysis (PCA) showed that Principle Component 1 (PC1) was mainly loaded with V, Ni, Cu, As, Se, and Th with similar high values, and Cd and Hg were strongly correlated in the Principle Component 2 (PC2). Taking into account all results it can be concluded that heavy metal concentrations in European beech forests soil are mainly determined by the geological substrate.",
publisher = "Belgrade : Serbian Chemical Society",
journal = "Book of Abstracts 21st; European Meeting on Environmental Chemistry",
title = "Heavy Metals Distribution, Environmental and Health Risk, Sources, and Origin in Soil from European Beech Forests",
pages = "130-130",
url = "https://hdl.handle.net/21.15107/rcub_cherry_4920"
}

Štrbac, S., Ranđelović, D., Gajica, G., Stojadinović, S. M., Veselinović, G., Orlić, J.,& Kašanin-Grubin, M.. (2021). Heavy Metals Distribution, Environmental and Health Risk, Sources, and Origin in Soil from European Beech Forests. in Book of Abstracts 21st; European Meeting on Environmental Chemistry
Belgrade : Serbian Chemical Society., 130-130.
https://hdl.handle.net/21.15107/rcub_cherry_4920

Štrbac S, Ranđelović D, Gajica G, Stojadinović SM, Veselinović G, Orlić J, Kašanin-Grubin M. Heavy Metals Distribution, Environmental and Health Risk, Sources, and Origin in Soil from European Beech Forests. in Book of Abstracts 21st; European Meeting on Environmental Chemistry. 2021;:130-130.
https://hdl.handle.net/21.15107/rcub_cherry_4920 .

Štrbac, S., Ranđelović, Danijela, Gajica, G., Stojadinović, Sanja M., Veselinović, G., Orlić, Jovana, Kašanin-Grubin, Milica, "Heavy Metals Distribution, Environmental and Health Risk, Sources, and Origin in Soil from European Beech Forests" in Book of Abstracts 21st; European Meeting on Environmental Chemistry (2021):130-130,
https://hdl.handle.net/21.15107/rcub_cherry_4920 .

TY  - CONF
AU  - Veselinović, G.
AU  - Kašanin-Grubin, Milica
AU  - Radojičić, A.
AU  - Orlić, Jovana
AU  - Dimović, D.
AU  - Stojadinović, Sanja M.
AU  - Štrbac, S.
PY  - 2021
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/4932
AB  - Healthy natural ecosystems, such as protected areas (PA), support and sustain biodiversity and human well-being by providing essential ecosystem services and health benefits. However, maintaining such ecosystems to provide these environmental benefits becomes a more and more challenging issue with climate changes, biodiversity loss, land degradation and the continued erosion of the natural capital, particularly in the developing world. The main objective of this research is to establish a methodology for achieving the United Nations Sustainable Development Goal 15 “Life on Land”. The methodology will include the determination of heavy metals in soil and needle samples, and questioners for different stakeholders: local people, local businesses, government, civil society organizations (CSO), and the academic community. Soils are integral components of protected area ecosystems. Soil health has been defined as “the capacity of soil to function as a vital living system, within an ecosystem and land-use boundaries, to sustain plant and animal productivity, maintain or enhance water and air quality, and promote plant and animal health” [1]. This definition speaks to the importance of managing soils, so they remain sustainable for future generations. On the other hand, the conifer needles are good bioindicators of ecosystem conditions. The questioner will allow obtaining data about the social and economic benefits of the PAs. The soil and needle samples from four protected areas in Serbia (Zlatibor, Golija, Tara, Đerdap) were analyzed using Inductively coupled plasma –optical emission spectrometry (ICP-OES) and X-Ray Fluorescence (XRF). Quantitative pollution indices were calculated (Enrichment factor (EF), Contamination factor (Cf), Geoaccumulation index (Igeo), Pollution load index (PLI), and Degree of contamination (Cd)), since they are effective tools for converting the raw environmental data into information relevant to support decision-making [2]. Results of this study provide a scientifically-based overview of the conditions of soil health and health of the forest ecosystem and help to propose nature-based solutions (NBS) for enhancing the sustainability of management, especially in the context of improving ecosystem services and climate change adaptation and mitigation. NBS provide affordable, sustainable, and feasible benefits that contribute to improving soil quality and support several ecosystem services relevant to support public health and social well-being [4]. Results of this study use the United Nations Sustainable Development Goals 15 “Life on Land” as a global framework for establishing the partnership between PA managers, conservationists and local authorities that would enhance health and increase environmental, social and economic benefits of the PAs.
PB  - Belgrade : Serbian Chemical Society
C3  - Book of Abstracts 21st; European Meeting on Environmental Chemistry
T1  - Application of Nature-Based Solutions in Serbian Protected Area Management for the Attainment of Sustainable Development Goals
SP  - 167
EP  - 167
UR  - https://hdl.handle.net/21.15107/rcub_cherry_4932
ER  - 

@conference{
author = "Veselinović, G. and Kašanin-Grubin, Milica and Radojičić, A. and Orlić, Jovana and Dimović, D. and Stojadinović, Sanja M. and Štrbac, S.",
year = "2021",
abstract = "Healthy natural ecosystems, such as protected areas (PA), support and sustain biodiversity and human well-being by providing essential ecosystem services and health benefits. However, maintaining such ecosystems to provide these environmental benefits becomes a more and more challenging issue with climate changes, biodiversity loss, land degradation and the continued erosion of the natural capital, particularly in the developing world. The main objective of this research is to establish a methodology for achieving the United Nations Sustainable Development Goal 15 “Life on Land”. The methodology will include the determination of heavy metals in soil and needle samples, and questioners for different stakeholders: local people, local businesses, government, civil society organizations (CSO), and the academic community. Soils are integral components of protected area ecosystems. Soil health has been defined as “the capacity of soil to function as a vital living system, within an ecosystem and land-use boundaries, to sustain plant and animal productivity, maintain or enhance water and air quality, and promote plant and animal health” [1]. This definition speaks to the importance of managing soils, so they remain sustainable for future generations. On the other hand, the conifer needles are good bioindicators of ecosystem conditions. The questioner will allow obtaining data about the social and economic benefits of the PAs. The soil and needle samples from four protected areas in Serbia (Zlatibor, Golija, Tara, Đerdap) were analyzed using Inductively coupled plasma –optical emission spectrometry (ICP-OES) and X-Ray Fluorescence (XRF). Quantitative pollution indices were calculated (Enrichment factor (EF), Contamination factor (Cf), Geoaccumulation index (Igeo), Pollution load index (PLI), and Degree of contamination (Cd)), since they are effective tools for converting the raw environmental data into information relevant to support decision-making [2]. Results of this study provide a scientifically-based overview of the conditions of soil health and health of the forest ecosystem and help to propose nature-based solutions (NBS) for enhancing the sustainability of management, especially in the context of improving ecosystem services and climate change adaptation and mitigation. NBS provide affordable, sustainable, and feasible benefits that contribute to improving soil quality and support several ecosystem services relevant to support public health and social well-being [4]. Results of this study use the United Nations Sustainable Development Goals 15 “Life on Land” as a global framework for establishing the partnership between PA managers, conservationists and local authorities that would enhance health and increase environmental, social and economic benefits of the PAs.",
publisher = "Belgrade : Serbian Chemical Society",
journal = "Book of Abstracts 21st; European Meeting on Environmental Chemistry",
title = "Application of Nature-Based Solutions in Serbian Protected Area Management for the Attainment of Sustainable Development Goals",
pages = "167-167",
url = "https://hdl.handle.net/21.15107/rcub_cherry_4932"
}

Veselinović, G., Kašanin-Grubin, M., Radojičić, A., Orlić, J., Dimović, D., Stojadinović, S. M.,& Štrbac, S.. (2021). Application of Nature-Based Solutions in Serbian Protected Area Management for the Attainment of Sustainable Development Goals. in Book of Abstracts 21st; European Meeting on Environmental Chemistry
Belgrade : Serbian Chemical Society., 167-167.
https://hdl.handle.net/21.15107/rcub_cherry_4932

Veselinović G, Kašanin-Grubin M, Radojičić A, Orlić J, Dimović D, Stojadinović SM, Štrbac S. Application of Nature-Based Solutions in Serbian Protected Area Management for the Attainment of Sustainable Development Goals. in Book of Abstracts 21st; European Meeting on Environmental Chemistry. 2021;:167-167.
https://hdl.handle.net/21.15107/rcub_cherry_4932 .

Veselinović, G., Kašanin-Grubin, Milica, Radojičić, A., Orlić, Jovana, Dimović, D., Stojadinović, Sanja M., Štrbac, S., "Application of Nature-Based Solutions in Serbian Protected Area Management for the Attainment of Sustainable Development Goals" in Book of Abstracts 21st; European Meeting on Environmental Chemistry (2021):167-167,
https://hdl.handle.net/21.15107/rcub_cherry_4932 .