Jovšić, Dragan

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Mineral composition of soil developed on volcanites of Fruška Gora (Serbia)

Tomić, Zorica; Kostić, Nikola; Jovšić, Dragan; Nešić, Ljiljana; Belić, Milivoj

(Unija bioloških naučnih društava Jugoslavije, Beograd, 2008) 

TY  - JOUR
AU  - Tomić, Zorica
AU  - Kostić, Nikola
AU  - Jovšić, Dragan
AU  - Nešić, Ljiljana
AU  - Belić, Milivoj
PY  - 2008
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/1658
AB  - The purpoose of this work was to study mineral composition of soil developed on quartz-latite and its tuffs over the ridge of Fruška Gora, near Rakovac. The samples are collected from an area that marks eutric-cambisol-'gajnjača' in pedological map of Vojvodina in scale 1: 50 000. After collection the samples were air-dried and sieved to pass a 2 mm sieve and were used for further laboratory analyses. Soil reaction was determined in water, 1M NaF and M KC1 suspensions. Phosphate retention is analyzed as well as a selective dissolution of Al, Fe and Si after acid ammonium oxalate and Na-pirophosphate treatments. Mineral composition of total soil was determined by use of the X-ray diffraction (XRD) analysis of powder specimens, and volcanic glass content was determined by Zeiss polarised light microscope. Clay minerals in the fraction  lt 0,002mm were determined by XRD methods by means of SIMENS 2 kW diffractometer. Fresh volcanic rock comprises of zonal plagioclase, quartz, hornblende and minor amounbts of monoclinic yroxene and biotite, which are present either as phenocrystals or as cryptoi-crystals in ground mass of dark volcanic glassa, and are associated with apatite and opaque (ore) minerals. All feromagnesian minerals are strongly altered to chlorite and calcite. Clay fraction of the soil comprizes of kaolinite/halloysite, illite and chlorite, and some amorphpus minerals and minor amounts of quartz and feldspars. The soil has shown the phosphate retention between 23.6 and 34.5%, and Si, Al and Fe extracted in ammonium-oxalate and oxalic acid, have shown moderate content of allophane of about 14% and very low ferrihydrite. The Alox + 1/2 Feox content varies between 0.90 do 1.08%, what for the soil developed on quarz latite classifies in to vitric-andisol.
AB  - U radu su prikazani rezultati proučavanja mineralnog sastava zemljišta razvijenog na kvarc-latitu i njegovim tufovima na grebenu Fruške Gore, kod Rakovca. Uzorci su sakupljeni sa područja obeleženom kao gajnjača na pedološkoj karti Vojvodine u razmeri 1:50 000. Posle uzorkovanja uzorci su osušeni na vazduhu i propušteni kroz sito od 2mm. Reakcija zemljišta je određena u vodi, u 1M NaF i 1M KC1 suspenziji. Retencija fosfata i selektivno rastvaranje Al, Fe i Si iz amorfnih mineralnih materija izvršeno je pomoću kiselog amonijum oksalata i Na-pirofosfata. Mineralogija ukupnog uzorka određena je pomoću polarizacionog mikroskopa i rendgen-difrakcione analize (XRD). Minerali frakcije gline su određeni pomoću XRD koristeći SIMENS 2 kW difractometar. Sveža vulkanska stena sastoji se od zonarnog plagioklasa, kvarca, hornblende kao i manjih količina monokliničnog piroksena i biotita, koji se nalaze u obliku feno- i kripto-kristala u osnovnoj masi tamnog vulkanskog stakla, a u asocijaciji sa apatitom i opakim (rudnim) mineralima. Svi feromagnezijski minerali su jako alterisani u hlorit i kalcit. Fraciju gline zemljišta čine kaolinit/halojzit, ilit, i hlorit, zatim amorfni minerali i manje količine kvarca i feldspata. Zemljište je pokazalo varijaciju retencije fosfata između 23.6 i 34.5%, a ekstrahovani Si, Al i Fe u NH4-oksalatu-oksalnoj kiselini, pokazali su umerene sadržaje alofana oko 14% i niske sadržaje ferihidrita. Sadržaj Alox + 1/2 Feox varira od 0.90 do 1.08%, što zemljište razvijeno na kvarc-latitu svrstava u vitrični-andosol.
PB  - Unija bioloških naučnih društava Jugoslavije, Beograd
T2  - Zemljište i biljka
T1  - Mineral composition of soil developed on volcanites of Fruška Gora (Serbia)
T1  - Mineralni sastav zemljišta razvijenog na vulkanitima Fruške Gore (Srbija)
EP  - 44
IS  - 1
SP  - 35
VL  - 57
UR  - https://hdl.handle.net/21.15107/rcub_agrospace_1658
ER  - 
@article{
author = "Tomić, Zorica and Kostić, Nikola and Jovšić, Dragan and Nešić, Ljiljana and Belić, Milivoj",
year = "2008",
abstract = "The purpoose of this work was to study mineral composition of soil developed on quartz-latite and its tuffs over the ridge of Fruška Gora, near Rakovac. The samples are collected from an area that marks eutric-cambisol-'gajnjača' in pedological map of Vojvodina in scale 1: 50 000. After collection the samples were air-dried and sieved to pass a 2 mm sieve and were used for further laboratory analyses. Soil reaction was determined in water, 1M NaF and M KC1 suspensions. Phosphate retention is analyzed as well as a selective dissolution of Al, Fe and Si after acid ammonium oxalate and Na-pirophosphate treatments. Mineral composition of total soil was determined by use of the X-ray diffraction (XRD) analysis of powder specimens, and volcanic glass content was determined by Zeiss polarised light microscope. Clay minerals in the fraction  lt 0,002mm were determined by XRD methods by means of SIMENS 2 kW diffractometer. Fresh volcanic rock comprises of zonal plagioclase, quartz, hornblende and minor amounbts of monoclinic yroxene and biotite, which are present either as phenocrystals or as cryptoi-crystals in ground mass of dark volcanic glassa, and are associated with apatite and opaque (ore) minerals. All feromagnesian minerals are strongly altered to chlorite and calcite. Clay fraction of the soil comprizes of kaolinite/halloysite, illite and chlorite, and some amorphpus minerals and minor amounts of quartz and feldspars. The soil has shown the phosphate retention between 23.6 and 34.5%, and Si, Al and Fe extracted in ammonium-oxalate and oxalic acid, have shown moderate content of allophane of about 14% and very low ferrihydrite. The Alox + 1/2 Feox content varies between 0.90 do 1.08%, what for the soil developed on quarz latite classifies in to vitric-andisol., U radu su prikazani rezultati proučavanja mineralnog sastava zemljišta razvijenog na kvarc-latitu i njegovim tufovima na grebenu Fruške Gore, kod Rakovca. Uzorci su sakupljeni sa područja obeleženom kao gajnjača na pedološkoj karti Vojvodine u razmeri 1:50 000. Posle uzorkovanja uzorci su osušeni na vazduhu i propušteni kroz sito od 2mm. Reakcija zemljišta je određena u vodi, u 1M NaF i 1M KC1 suspenziji. Retencija fosfata i selektivno rastvaranje Al, Fe i Si iz amorfnih mineralnih materija izvršeno je pomoću kiselog amonijum oksalata i Na-pirofosfata. Mineralogija ukupnog uzorka određena je pomoću polarizacionog mikroskopa i rendgen-difrakcione analize (XRD). Minerali frakcije gline su određeni pomoću XRD koristeći SIMENS 2 kW difractometar. Sveža vulkanska stena sastoji se od zonarnog plagioklasa, kvarca, hornblende kao i manjih količina monokliničnog piroksena i biotita, koji se nalaze u obliku feno- i kripto-kristala u osnovnoj masi tamnog vulkanskog stakla, a u asocijaciji sa apatitom i opakim (rudnim) mineralima. Svi feromagnezijski minerali su jako alterisani u hlorit i kalcit. Fraciju gline zemljišta čine kaolinit/halojzit, ilit, i hlorit, zatim amorfni minerali i manje količine kvarca i feldspata. Zemljište je pokazalo varijaciju retencije fosfata između 23.6 i 34.5%, a ekstrahovani Si, Al i Fe u NH4-oksalatu-oksalnoj kiselini, pokazali su umerene sadržaje alofana oko 14% i niske sadržaje ferihidrita. Sadržaj Alox + 1/2 Feox varira od 0.90 do 1.08%, što zemljište razvijeno na kvarc-latitu svrstava u vitrični-andosol.",
publisher = "Unija bioloških naučnih društava Jugoslavije, Beograd",
journal = "Zemljište i biljka",
title = "Mineral composition of soil developed on volcanites of Fruška Gora (Serbia), Mineralni sastav zemljišta razvijenog na vulkanitima Fruške Gore (Srbija)",
pages = "44-35",
number = "1",
volume = "57",
url = "https://hdl.handle.net/21.15107/rcub_agrospace_1658"
}
Tomić, Z., Kostić, N., Jovšić, D., Nešić, L.,& Belić, M.. (2008). Mineral composition of soil developed on volcanites of Fruška Gora (Serbia). in Zemljište i biljka
Unija bioloških naučnih društava Jugoslavije, Beograd., 57(1), 35-44.
https://hdl.handle.net/21.15107/rcub_agrospace_1658
Tomić Z, Kostić N, Jovšić D, Nešić L, Belić M. Mineral composition of soil developed on volcanites of Fruška Gora (Serbia). in Zemljište i biljka. 2008;57(1):35-44.
https://hdl.handle.net/21.15107/rcub_agrospace_1658 .
Tomić, Zorica, Kostić, Nikola, Jovšić, Dragan, Nešić, Ljiljana, Belić, Milivoj, "Mineral composition of soil developed on volcanites of Fruška Gora (Serbia)" in Zemljište i biljka, 57, no. 1 (2008):35-44,
https://hdl.handle.net/21.15107/rcub_agrospace_1658 .

Mineral composition of soils developed on vulcanites and tuffs at mountain Radocelo, Igros and Takovo

Kostić, Nikola; Tomić, Zorica; Gajić, Boško; Dugalić, Goran; Jovšić, Dragan

(Unija bioloških naučnih društava Jugoslavije, Beograd, 2008) 

TY  - JOUR
AU  - Kostić, Nikola
AU  - Tomić, Zorica
AU  - Gajić, Boško
AU  - Dugalić, Goran
AU  - Jovšić, Dragan
PY  - 2008
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/1642
AB  - The objective of this investigation was aimed to study the mineral composition of soils developed on dacito-andesite and their volcanic tuffs from Radocelo and Takovo and zeolitised andesite tuffs in village Igros in Zupa-Aleksandrovac. A selection of samples was collected from the area designated as Eutric Cambisol (Gajnjaca), Brown Forest and Brown Soils on the pedological maps. After collection the samples were air-dried and sieved to pass a 2 mm sieve and were used for further analyses. Soil reaction was determined in water as well as in 1M KC1 and in 1M NaF suspensions. Selective dissolution of Al, Fe and Si in non-crystalline materials was performed as follows: acid ammonium oxalate and sodium pyrophophate, as well as phosphate retention, determined according to BLACKMORE et al. (1987). The minerals in soil samples were studied by a combination of methods. The mineralogy of bulk soil samples was obtained by polarized microscopy and X-ray diffraction analysis (XRD). Minerals of clay fraction were also characterized by infrared spectroscopy and the XRD analysis. The XRD analyses were made on the clays  lt 2 μm specimens, as follows: air dried, ethylene glycol solvated, and progressively heated at 300°C and 500°C. Mineral composition of fresh volcanic rock is as follows: feldspars, zoned plagioclase, hornblende, pyroxenes and biotite, which are found either as phenocrysts or cryptocrystals in groundmass, in association of minor to traces of tourmaline, sphene, apatite and ore minerals. All ferromagnesian minerals are altered in various degrees to chlorite and clay minerals. Groundmass comprises of feldspar microlites in dark-grey volcanic glass and minor amounts of other minerals. The clay fraction of soils is composed mainly of halloysite/kaolinite, illite, chlorite, feldspars, and zeolite and poorly-ordered mineral-allophane and CT-opal. Only in the clay fraction from soil developed on a layer of zeolitised andesite tephra in Igros, heulandite-clinoptilolite-mordenite type zeolite was found as dominant resistant mineral associated with minor amounts of smectite and halloysite. Phosphate retention varies between 23.0 and 48.5% and the oxalate exchangeable active Alox + 1/2 Feox component varies between 0.50 and 1.58 as well as presence of the volcanic glass and about 9 to 11% of allpohane in the Bt horizon of the soils investigated have pointed to vitric-andosol type, with a lot of skeletal material.
AB  - Andosoli predstavljaju poseban tip u klasifikaciji zemljišta. Obrazuju se na vulkanskim stenama i njihovim tufovima. U cilju poznavanja mineralnog sastava zemljišta, razvijenog na andezitimna i njegovim tufovima, na području Radočela, na području kod sela Igroš (Aleksandrovačka Župa) i na području kod Takova, prikazane su njihove najbitnije karakteristike. Dacito-andazitski i labrador andazitski tufovi na planini Radočelo i kod Takova sastavljeni su od krupnih odlomaka kristala feldspata: sanidina, zonarnih plagioklasa sa 20-45% anortita, zatim biotita, muskovita, hornblende i retkih kristala augita, koji se pojavljuju kao fenokristali. Kao sastojci osnovne mase javljaju se turmalin, sfen, apatit i cirkon, kao i retki metalični minerali (magnetit i ilmenit). Kvarc se pojavljuje manjim količinama, kao sitna korodovane individua. Osnovna masa izgrađena je od mikrolita feldspata, vulkanskog stakla i ređe amfibola. Zemljišta sadrže značajne količine vulkanskog tufa kao skeleta u raznim fazama površinskog raspadanja. Frakcija gline sadrži mešavinu kaolinita i halojzita, ilita, i manjih količina smektita i mešovito slojevitih silikata po tipu ilit - smektit kao i tragova feldspata, getita i amfibola. Zemljište na Radočelu sadrži još i: kristobalit (0.405 nm), tridimit (0.411 nm) i opal, koji je zapažen po difuznom difrakcionom piku sa maksimumom oko 0.41 nm, što je indikativno je za CT - opal, neuređen i nisko temperaturni silicijski hidroksid, koji se nalazu u vulkanskim tufovima. Mineralni sastav zemljišta iz atara sela Igroš (Aleksandrovačka Župa), je drugačiji jer je matični supstrat zeolitisani tuf. Zeolitisani tuf se sastoji od devitrifikovanog vulkanskog stakla koje pokazuje različite stadijume zeolitizacije. Zeolit je iz grupe heilandit-klinoptilolit (Ca-Na zeoliti). U sastav tufa ulaze još feldspati i kvarc, praćeni manjim količinama hornblende, piroksena i biotita, zatim apatit i opake minerale. Zemljišta pokazuju distrični karakter, umereno ili slabo kiselu reakciju. Reakcija zemljišta u KC1 generalno je za čitavu jedinicu niža nego pH u vodi. Reakcija zemljišta u NaF je bila 10.07 do 10.71, odnosno značajno veća od 9.5 u dubljim horizontima, što je indikativno za andični material. Retencija fosfata je važan dijagnostički kriterijum za vitrične-andosole. Ispitivana zemljišta su pokazala varijaciju u retenciji fosfata između 23 i 48.5% što ih svrstava u vitrični-andosol. Sadržaj Alox + 1/2 Feox varira između 0.50 do 1.58 % što potvrđuje prethodne rezultate i ukazuje na vitrični-andosol sa tendencijom ka tipičnim andosolima na Radočelu. Nešto niže retencije fosfata mogu biti posledica intenzivnog đubrenja jer se parcele-njive koriste za poljoprivrednu proizvodnju. Sadržaj Siox varira između 0.17 to 1.46 %, pa zemljišta u Bt horizontu sadrže od 1.3 do 11.0% alofana. Prisustvo značajnih količina kaolinita/halojzita, kao i alofana (11.%), zatim vulkanskog stakla (15-20%), tipična asocijacija minerala u frakciji  lt  2 mm, indikativno je za zemljišta tipa vitrični-andosol, koja su nastala na starim izlivima neutralnih i bazičnih stena.
PB  - Unija bioloških naučnih društava Jugoslavije, Beograd
T2  - Zemljište i biljka
T1  - Mineral composition of soils developed on vulcanites and tuffs at mountain Radocelo, Igros and Takovo
T1  - Mineralni sastav zemljišta razvijenih na vulkanitima i tufovima Radočela, Igroša i Takova
EP  - 34
IS  - 1
SP  - 19
VL  - 57
UR  - https://hdl.handle.net/21.15107/rcub_agrospace_1642
ER  - 
@article{
author = "Kostić, Nikola and Tomić, Zorica and Gajić, Boško and Dugalić, Goran and Jovšić, Dragan",
year = "2008",
abstract = "The objective of this investigation was aimed to study the mineral composition of soils developed on dacito-andesite and their volcanic tuffs from Radocelo and Takovo and zeolitised andesite tuffs in village Igros in Zupa-Aleksandrovac. A selection of samples was collected from the area designated as Eutric Cambisol (Gajnjaca), Brown Forest and Brown Soils on the pedological maps. After collection the samples were air-dried and sieved to pass a 2 mm sieve and were used for further analyses. Soil reaction was determined in water as well as in 1M KC1 and in 1M NaF suspensions. Selective dissolution of Al, Fe and Si in non-crystalline materials was performed as follows: acid ammonium oxalate and sodium pyrophophate, as well as phosphate retention, determined according to BLACKMORE et al. (1987). The minerals in soil samples were studied by a combination of methods. The mineralogy of bulk soil samples was obtained by polarized microscopy and X-ray diffraction analysis (XRD). Minerals of clay fraction were also characterized by infrared spectroscopy and the XRD analysis. The XRD analyses were made on the clays  lt 2 μm specimens, as follows: air dried, ethylene glycol solvated, and progressively heated at 300°C and 500°C. Mineral composition of fresh volcanic rock is as follows: feldspars, zoned plagioclase, hornblende, pyroxenes and biotite, which are found either as phenocrysts or cryptocrystals in groundmass, in association of minor to traces of tourmaline, sphene, apatite and ore minerals. All ferromagnesian minerals are altered in various degrees to chlorite and clay minerals. Groundmass comprises of feldspar microlites in dark-grey volcanic glass and minor amounts of other minerals. The clay fraction of soils is composed mainly of halloysite/kaolinite, illite, chlorite, feldspars, and zeolite and poorly-ordered mineral-allophane and CT-opal. Only in the clay fraction from soil developed on a layer of zeolitised andesite tephra in Igros, heulandite-clinoptilolite-mordenite type zeolite was found as dominant resistant mineral associated with minor amounts of smectite and halloysite. Phosphate retention varies between 23.0 and 48.5% and the oxalate exchangeable active Alox + 1/2 Feox component varies between 0.50 and 1.58 as well as presence of the volcanic glass and about 9 to 11% of allpohane in the Bt horizon of the soils investigated have pointed to vitric-andosol type, with a lot of skeletal material., Andosoli predstavljaju poseban tip u klasifikaciji zemljišta. Obrazuju se na vulkanskim stenama i njihovim tufovima. U cilju poznavanja mineralnog sastava zemljišta, razvijenog na andezitimna i njegovim tufovima, na području Radočela, na području kod sela Igroš (Aleksandrovačka Župa) i na području kod Takova, prikazane su njihove najbitnije karakteristike. Dacito-andazitski i labrador andazitski tufovi na planini Radočelo i kod Takova sastavljeni su od krupnih odlomaka kristala feldspata: sanidina, zonarnih plagioklasa sa 20-45% anortita, zatim biotita, muskovita, hornblende i retkih kristala augita, koji se pojavljuju kao fenokristali. Kao sastojci osnovne mase javljaju se turmalin, sfen, apatit i cirkon, kao i retki metalični minerali (magnetit i ilmenit). Kvarc se pojavljuje manjim količinama, kao sitna korodovane individua. Osnovna masa izgrađena je od mikrolita feldspata, vulkanskog stakla i ređe amfibola. Zemljišta sadrže značajne količine vulkanskog tufa kao skeleta u raznim fazama površinskog raspadanja. Frakcija gline sadrži mešavinu kaolinita i halojzita, ilita, i manjih količina smektita i mešovito slojevitih silikata po tipu ilit - smektit kao i tragova feldspata, getita i amfibola. Zemljište na Radočelu sadrži još i: kristobalit (0.405 nm), tridimit (0.411 nm) i opal, koji je zapažen po difuznom difrakcionom piku sa maksimumom oko 0.41 nm, što je indikativno je za CT - opal, neuređen i nisko temperaturni silicijski hidroksid, koji se nalazu u vulkanskim tufovima. Mineralni sastav zemljišta iz atara sela Igroš (Aleksandrovačka Župa), je drugačiji jer je matični supstrat zeolitisani tuf. Zeolitisani tuf se sastoji od devitrifikovanog vulkanskog stakla koje pokazuje različite stadijume zeolitizacije. Zeolit je iz grupe heilandit-klinoptilolit (Ca-Na zeoliti). U sastav tufa ulaze još feldspati i kvarc, praćeni manjim količinama hornblende, piroksena i biotita, zatim apatit i opake minerale. Zemljišta pokazuju distrični karakter, umereno ili slabo kiselu reakciju. Reakcija zemljišta u KC1 generalno je za čitavu jedinicu niža nego pH u vodi. Reakcija zemljišta u NaF je bila 10.07 do 10.71, odnosno značajno veća od 9.5 u dubljim horizontima, što je indikativno za andični material. Retencija fosfata je važan dijagnostički kriterijum za vitrične-andosole. Ispitivana zemljišta su pokazala varijaciju u retenciji fosfata između 23 i 48.5% što ih svrstava u vitrični-andosol. Sadržaj Alox + 1/2 Feox varira između 0.50 do 1.58 % što potvrđuje prethodne rezultate i ukazuje na vitrični-andosol sa tendencijom ka tipičnim andosolima na Radočelu. Nešto niže retencije fosfata mogu biti posledica intenzivnog đubrenja jer se parcele-njive koriste za poljoprivrednu proizvodnju. Sadržaj Siox varira između 0.17 to 1.46 %, pa zemljišta u Bt horizontu sadrže od 1.3 do 11.0% alofana. Prisustvo značajnih količina kaolinita/halojzita, kao i alofana (11.%), zatim vulkanskog stakla (15-20%), tipična asocijacija minerala u frakciji  lt  2 mm, indikativno je za zemljišta tipa vitrični-andosol, koja su nastala na starim izlivima neutralnih i bazičnih stena.",
publisher = "Unija bioloških naučnih društava Jugoslavije, Beograd",
journal = "Zemljište i biljka",
title = "Mineral composition of soils developed on vulcanites and tuffs at mountain Radocelo, Igros and Takovo, Mineralni sastav zemljišta razvijenih na vulkanitima i tufovima Radočela, Igroša i Takova",
pages = "34-19",
number = "1",
volume = "57",
url = "https://hdl.handle.net/21.15107/rcub_agrospace_1642"
}
Kostić, N., Tomić, Z., Gajić, B., Dugalić, G.,& Jovšić, D.. (2008). Mineral composition of soils developed on vulcanites and tuffs at mountain Radocelo, Igros and Takovo. in Zemljište i biljka
Unija bioloških naučnih društava Jugoslavije, Beograd., 57(1), 19-34.
https://hdl.handle.net/21.15107/rcub_agrospace_1642
Kostić N, Tomić Z, Gajić B, Dugalić G, Jovšić D. Mineral composition of soils developed on vulcanites and tuffs at mountain Radocelo, Igros and Takovo. in Zemljište i biljka. 2008;57(1):19-34.
https://hdl.handle.net/21.15107/rcub_agrospace_1642 .
Kostić, Nikola, Tomić, Zorica, Gajić, Boško, Dugalić, Goran, Jovšić, Dragan, "Mineral composition of soils developed on vulcanites and tuffs at mountain Radocelo, Igros and Takovo" in Zemljište i biljka, 57, no. 1 (2008):19-34,
https://hdl.handle.net/21.15107/rcub_agrospace_1642 .