TY  - CHAP
AU  - Kaya, Y.
AU  - Balalić, Igor
AU  - Milić, Vera M.
PY  - 2015
UR  - http://fiver.ifvcns.rs/handle/123456789/1494
AB  - After the major producer, Argentina, turned to more soybean and corn in recent years, Eastern European countries, especially Ukraine and Russia, lead the production and crushing of sunflower in the world. Eastern European sunflower producers comprise the Russian Federation, Ukraine, Turkey, Bulgaria, Romania, Moldova, Serbia, and others. While sunflower is one of the main crops in the rotation system and the main oil crop in Eastern Europe, European countries share only 14% of world's arable land areas, even including Russia's vast land area in addition to the Black Sea basin. All sunflower production in Eastern Europe is of the linoleic type, as opposed to the new trend for oleic-type sunflower in the rest of the world.
PB  - Elsevier Inc.
T2  - Sunflower: Chemistry, Production, Processing, & Utilization
T1  - Eastern Europe Perspectives on Sunflower Production and Processing
EP  - 637
SP  - 575
DO  - 10.1016/B978-1-893997-94-3.50025-8
ER  - 

@inbook{
author = "Kaya, Y. and Balalić, Igor and Milić, Vera M.",
year = "2015",
abstract = "After the major producer, Argentina, turned to more soybean and corn in recent years, Eastern European countries, especially Ukraine and Russia, lead the production and crushing of sunflower in the world. Eastern European sunflower producers comprise the Russian Federation, Ukraine, Turkey, Bulgaria, Romania, Moldova, Serbia, and others. While sunflower is one of the main crops in the rotation system and the main oil crop in Eastern Europe, European countries share only 14% of world's arable land areas, even including Russia's vast land area in addition to the Black Sea basin. All sunflower production in Eastern Europe is of the linoleic type, as opposed to the new trend for oleic-type sunflower in the rest of the world.",
publisher = "Elsevier Inc.",
journal = "Sunflower: Chemistry, Production, Processing, & Utilization",
booktitle = "Eastern Europe Perspectives on Sunflower Production and Processing",
pages = "637-575",
doi = "10.1016/B978-1-893997-94-3.50025-8"
}

Kaya, Y., Balalić, I.,& Milić, V. M.. (2015). Eastern Europe Perspectives on Sunflower Production and Processing. in Sunflower: Chemistry, Production, Processing, & Utilization
Elsevier Inc.., 575-637.
https://doi.org/10.1016/B978-1-893997-94-3.50025-8

Kaya Y, Balalić I, Milić VM. Eastern Europe Perspectives on Sunflower Production and Processing. in Sunflower: Chemistry, Production, Processing, & Utilization. 2015;:575-637.
doi:10.1016/B978-1-893997-94-3.50025-8 .

Kaya, Y., Balalić, Igor, Milić, Vera M., "Eastern Europe Perspectives on Sunflower Production and Processing" in Sunflower: Chemistry, Production, Processing, & Utilization (2015):575-637,
https://doi.org/10.1016/B978-1-893997-94-3.50025-8 . .

TY  - JOUR
AU  - Milić, Vera M.
AU  - Hrustić, Milica
AU  - Marinković, Jelena
PY  - 2006
UR  - http://fiver.ifvcns.rs/handle/123456789/431
AB  - Soil fertility is associated with the activity of soil microflora, which in its turn depends on the content of organic matter in soil, soil moisture, temperature and pH, mineral nutrition, effectiveness of nodular bacteria and the crop grown. An experiment was established in 2002 at Rimski Šančevi experiment field of Institute of Field and Vegetable Crops in which the soybean variety Afrodita was treated with microbial fertilizers NS-Nitragin and BactoFil B. The soybean variety and NS-Nitragin have been developed at the Institute, while BactoFil B comes from Hungary. The experimental design was random blocks with four replications. Each replication consisted of six 5-m rows spaced 0.5 m apart. Seed inoculation variants were: noninoculated control (Ø); inoculation with NS-Nitragin for soybean (N) immediately before planting; inoculation with NS-Nitragin and BaktoFil B incorporation in soil (N+Bac.B). We monitored the effect of inoculation on soil biological activity and effectiveness of the symbiotic association. The microbial fertilizers NS-Nitragin and BactoFil B positively affected the presence of the analyzed microbial groups in the soil. The microbial fertilizers improved the agrochemical and biological properties of the soil. The incorporation of the microorganisms also affected the effectiveness of the symbiotic association. Soybean yield was highest in the variant of inoculation with NS-Nitragin and BactoFil B incorporation in the soil. .
AB  - Plodnost zemljišta vezana je sa aktivnošću njene mikroflore, koja zavisi od sadržaja organske materije u zemljištu, vlažnosti zemljišta, temperature, pH sredine, mineralne ishrane, efektivnosti kvržičnih bakterija kao i od biljke domaćina. Na Oglednim poljima Naučnog instituta za ratarstvo i povrtarstvo na Rimskim Šančevima u toku 2002 godine je postavljen ogled sa sojom (Afrodita) uz primenu mikrobiološkog đubriva NS-Nitragina i BactoFila B. Genotip soje poreklom je iz Instituta kao i mikrobiološki preparat NS-Nitragin za soju, a BactoFil B poreklom je iz Mađarske Ogled je postavljen po slučajnom blok sistemu u 4 ponavljanja, svako ponavljanje sadržalo je šest redova, dužine 5m, razmak između redova bio je 0,5m. Varijante inokulacije semena su bile: kontrolna (Ø) (neinokulisana); varijanta inokulisano seme neposredno pred setvu NS-Nitraginom za soju (N); inokulisano seme sa NS-Nitraginom i inkorporirani BaktoFil B u zemljište (N+Bac.B) Praćen je efekat inokulacije na biološku aktivnost zemljišta i efektivnost simbiotske zajednice. Mikrobiološka đubriva NS-Nitragin i BactoFil B utiču pozitivno na zastupljenost ispitivanih grupa mikroorganizama u zemljištu. Primenom mikrobioloških đubriva poboljšavaju se agrohemijske i biološke osobine zemljišta, unošenjem mikroorganizama koji obavljaju određene procese u zemljištu utiče se i na efektivnost simbiotske zajednice. Prinos zrna soje najveći je kod inokulacije semena sa NS-Nitraginom i inkorporiranim BactoFilom B u zemljište. .
PB  - Unija bioloških naučnih društava Jugoslavije, Beograd
T2  - Zemljište i biljka
T1  - Effect of soybean inoculation on soil microbial activity
T1  - Uticaj inokulacije soje na mikrobiološku aktivnost zemljišta
EP  - 60
IS  - 1
SP  - 53
VL  - 55
UR  - https://hdl.handle.net/21.15107/rcub_fiver_431
ER  - 

@article{
author = "Milić, Vera M. and Hrustić, Milica and Marinković, Jelena",
year = "2006",
abstract = "Soil fertility is associated with the activity of soil microflora, which in its turn depends on the content of organic matter in soil, soil moisture, temperature and pH, mineral nutrition, effectiveness of nodular bacteria and the crop grown. An experiment was established in 2002 at Rimski Šančevi experiment field of Institute of Field and Vegetable Crops in which the soybean variety Afrodita was treated with microbial fertilizers NS-Nitragin and BactoFil B. The soybean variety and NS-Nitragin have been developed at the Institute, while BactoFil B comes from Hungary. The experimental design was random blocks with four replications. Each replication consisted of six 5-m rows spaced 0.5 m apart. Seed inoculation variants were: noninoculated control (Ø); inoculation with NS-Nitragin for soybean (N) immediately before planting; inoculation with NS-Nitragin and BaktoFil B incorporation in soil (N+Bac.B). We monitored the effect of inoculation on soil biological activity and effectiveness of the symbiotic association. The microbial fertilizers NS-Nitragin and BactoFil B positively affected the presence of the analyzed microbial groups in the soil. The microbial fertilizers improved the agrochemical and biological properties of the soil. The incorporation of the microorganisms also affected the effectiveness of the symbiotic association. Soybean yield was highest in the variant of inoculation with NS-Nitragin and BactoFil B incorporation in the soil. ., Plodnost zemljišta vezana je sa aktivnošću njene mikroflore, koja zavisi od sadržaja organske materije u zemljištu, vlažnosti zemljišta, temperature, pH sredine, mineralne ishrane, efektivnosti kvržičnih bakterija kao i od biljke domaćina. Na Oglednim poljima Naučnog instituta za ratarstvo i povrtarstvo na Rimskim Šančevima u toku 2002 godine je postavljen ogled sa sojom (Afrodita) uz primenu mikrobiološkog đubriva NS-Nitragina i BactoFila B. Genotip soje poreklom je iz Instituta kao i mikrobiološki preparat NS-Nitragin za soju, a BactoFil B poreklom je iz Mađarske Ogled je postavljen po slučajnom blok sistemu u 4 ponavljanja, svako ponavljanje sadržalo je šest redova, dužine 5m, razmak između redova bio je 0,5m. Varijante inokulacije semena su bile: kontrolna (Ø) (neinokulisana); varijanta inokulisano seme neposredno pred setvu NS-Nitraginom za soju (N); inokulisano seme sa NS-Nitraginom i inkorporirani BaktoFil B u zemljište (N+Bac.B) Praćen je efekat inokulacije na biološku aktivnost zemljišta i efektivnost simbiotske zajednice. Mikrobiološka đubriva NS-Nitragin i BactoFil B utiču pozitivno na zastupljenost ispitivanih grupa mikroorganizama u zemljištu. Primenom mikrobioloških đubriva poboljšavaju se agrohemijske i biološke osobine zemljišta, unošenjem mikroorganizama koji obavljaju određene procese u zemljištu utiče se i na efektivnost simbiotske zajednice. Prinos zrna soje najveći je kod inokulacije semena sa NS-Nitraginom i inkorporiranim BactoFilom B u zemljište. .",
publisher = "Unija bioloških naučnih društava Jugoslavije, Beograd",
journal = "Zemljište i biljka",
title = "Effect of soybean inoculation on soil microbial activity, Uticaj inokulacije soje na mikrobiološku aktivnost zemljišta",
pages = "60-53",
number = "1",
volume = "55",
url = "https://hdl.handle.net/21.15107/rcub_fiver_431"
}

Milić, V. M., Hrustić, M.,& Marinković, J.. (2006). Effect of soybean inoculation on soil microbial activity. in Zemljište i biljka
Unija bioloških naučnih društava Jugoslavije, Beograd., 55(1), 53-60.
https://hdl.handle.net/21.15107/rcub_fiver_431

Milić VM, Hrustić M, Marinković J. Effect of soybean inoculation on soil microbial activity. in Zemljište i biljka. 2006;55(1):53-60.
https://hdl.handle.net/21.15107/rcub_fiver_431 .

Milić, Vera M., Hrustić, Milica, Marinković, Jelena, "Effect of soybean inoculation on soil microbial activity" in Zemljište i biljka, 55, no. 1 (2006):53-60,
https://hdl.handle.net/21.15107/rcub_fiver_431 .

TY  - JOUR
AU  - Jarak, Mirjana
AU  - Milošević, Nada
AU  - Milić, Vera M.
AU  - Mrkovački, Nastasija
AU  - Đurić, Simonida
AU  - Marinković, Jelena
PY  - 2005
UR  - http://fiver.ifvcns.rs/handle/123456789/341
AB  - U zemljištu su u velikom broju zastupljene sve do sada poznate sistematske grupe mikroorganizama (bakterije, gljive, alge, protozoe, virusi). U jednom gramu zemljišta u prošeku se nalazi oko milijardu bakterija, stotine hiljada gljiva, stotine algi i desetine protozoa. Biomasa mikroorganizama iznosi 0,5 do 5 tona po hektaru oraničnog sloja plodnog zemljišta a prema rezultatima Zavjagincev (1994), sveza biomasa mikrobiološkog porekla može da dostigne i do 20 tona po hektaru. Mikroorganizmi čine veoma funkcionalne mikrobiocenoze koje su prilagođene uslovima u zemljištu i zajedno sa florom i faunom daju zemljištu svojstva živog organizama.
PB  - Naučno društvo agrarnih ekonomista Balkana, Beograd, Institut za ekonomiku poljoprivrede, Beograd i Akademija ekonomskih nauka, Bukurešt
T2  - Ekonomika poljoprivrede
T1  - Microbiological activities: Fertility and soil degradation indicators
T1  - Mikrobiološka aktivnost - pokazatelj plodnosti i degradacije zemljišta
EP  - 493
IS  - 4
SP  - 483
VL  - 52
UR  - https://hdl.handle.net/21.15107/rcub_fiver_341
ER  - 

@article{
author = "Jarak, Mirjana and Milošević, Nada and Milić, Vera M. and Mrkovački, Nastasija and Đurić, Simonida and Marinković, Jelena",
year = "2005",
abstract = "U zemljištu su u velikom broju zastupljene sve do sada poznate sistematske grupe mikroorganizama (bakterije, gljive, alge, protozoe, virusi). U jednom gramu zemljišta u prošeku se nalazi oko milijardu bakterija, stotine hiljada gljiva, stotine algi i desetine protozoa. Biomasa mikroorganizama iznosi 0,5 do 5 tona po hektaru oraničnog sloja plodnog zemljišta a prema rezultatima Zavjagincev (1994), sveza biomasa mikrobiološkog porekla može da dostigne i do 20 tona po hektaru. Mikroorganizmi čine veoma funkcionalne mikrobiocenoze koje su prilagođene uslovima u zemljištu i zajedno sa florom i faunom daju zemljištu svojstva živog organizama.",
publisher = "Naučno društvo agrarnih ekonomista Balkana, Beograd, Institut za ekonomiku poljoprivrede, Beograd i Akademija ekonomskih nauka, Bukurešt",
journal = "Ekonomika poljoprivrede",
title = "Microbiological activities: Fertility and soil degradation indicators, Mikrobiološka aktivnost - pokazatelj plodnosti i degradacije zemljišta",
pages = "493-483",
number = "4",
volume = "52",
url = "https://hdl.handle.net/21.15107/rcub_fiver_341"
}

Jarak, M., Milošević, N., Milić, V. M., Mrkovački, N., Đurić, S.,& Marinković, J.. (2005). Microbiological activities: Fertility and soil degradation indicators. in Ekonomika poljoprivrede
Naučno društvo agrarnih ekonomista Balkana, Beograd, Institut za ekonomiku poljoprivrede, Beograd i Akademija ekonomskih nauka, Bukurešt., 52(4), 483-493.
https://hdl.handle.net/21.15107/rcub_fiver_341

Jarak M, Milošević N, Milić VM, Mrkovački N, Đurić S, Marinković J. Microbiological activities: Fertility and soil degradation indicators. in Ekonomika poljoprivrede. 2005;52(4):483-493.
https://hdl.handle.net/21.15107/rcub_fiver_341 .

Jarak, Mirjana, Milošević, Nada, Milić, Vera M., Mrkovački, Nastasija, Đurić, Simonida, Marinković, Jelena, "Microbiological activities: Fertility and soil degradation indicators" in Ekonomika poljoprivrede, 52, no. 4 (2005):483-493,
https://hdl.handle.net/21.15107/rcub_fiver_341 .

TY  - JOUR
AU  - Milić, Vera M.
AU  - Jarak, Mirjana
AU  - Mrkovački, Nastasija
AU  - Milošević, Nada
AU  - Govedarica, Mitar M.
AU  - Đurić, Simonida
AU  - Marinković, Jelena
PY  - 2004
UR  - http://fiver.ifvcns.rs/handle/123456789/241
AB  - Microorganisms are widely spread around nature in the soil, water and air as well as on plants and animals and are a crucial link in the chain of matter circulation on the planet. They are the most important component of the biological soil phase and an important indicator of soil fertility and soil degradation. Soil microbiological processes are dependant on the organic matter content, while the fertility of a given soil type is connected with the activity of its microflora. Knowing the metabolism of a microorganism enables the direction of microbiological processes by application of useful microorganisms to maintain and enhance soil biological activity, i.e. soil biogenicity. An increase of acreage in legumes requires that a wider use of microbiological fertilizers to maintain and increase soil fertility be considered. Results of legume nitrogen fixation suggest that fixed nitrogen makes a large annual contribution to yield, which justifies the use of highly effective strains in microbiological fertilizers, enables the replacement of nitrogen from mineral fertilizer with biological nitrogen and has economic and environmental effects as well. The incorporation of microorganisms causes no soil pollution, reduces the use of mineral nitrogen fertilizer, contributes to the production of environmentally safe food improves the soil structure, increases the organic matter content and positively affects physical soil properties.
AB  - Mikroorganizmi su široko rasprostranjeni u prirodi u zemljištu, vodi vazduhu, na i u biljkama i životinjama i oni su nezaobilazna karika u kruženju materija na našoj planeti. Najznačajnija komponenta biološke faze zemljišta su mikroorganizmi koji su važan indikator plodnosti i procesa degradacije zemljišta. Mikrobiološki procesi u zemljištu uslovljeni su sadržajem organske materije, a plodnost svakog tipa zemljišta je vezana sa aktivnošću njene mikroflore. Poznavanjem metabolizma mikroorganizama, mogu se usmeriti mikrobiološki procesi tako što će se primenom korisnih mikrooragizama održati i poboljšati biološka aktivnost, odnosno biogenost zemljišta. Širenje površina pod leguminozama zahteva razmišljanje o široj primeni mikrobioloških đubriva u cilju očuvanja i povećanja plodnosti zemljišta. Rezultat azotofiksacije leguminoznih biljaka pokazuje da je godišnji udeo fiksiranog azota u prinosu veliki, što opravdava primenu visokoefektivnih sojeva u mikrobiološkim đubrivima, omogućuje zamenu azota iz mineralnog đubriva biološkim azotom, a ima i ekonomski i ekološki efekat. Unetim mikroorganizmima ne zagađuje se zemljište, smanjuje se upotreba mineralnih azotnih đubriva, doprinosi proizvodnji ekološki zdrave hrane poboljšava struktura zemljišta, povećava sadržaj organske materije i pozitivno utiče na fizičke osobine zemljišta.
PB  - Institut za ratarstvo i povrtarstvo, Novi Sad
T2  - Zbornik radova Instituta za ratarstvo i povrtarstvo
T1  - Microbiological fertilizer use and study of biological activity for soil protection purposes
T1  - Primena mikrobioloških đubriva i ispitivanje biološke aktivnosti u cilju zaštite zemljišta
EP  - 169
IS  - 40
SP  - 153
UR  - https://hdl.handle.net/21.15107/rcub_fiver_241
ER  - 

@article{
author = "Milić, Vera M. and Jarak, Mirjana and Mrkovački, Nastasija and Milošević, Nada and Govedarica, Mitar M. and Đurić, Simonida and Marinković, Jelena",
year = "2004",
abstract = "Microorganisms are widely spread around nature in the soil, water and air as well as on plants and animals and are a crucial link in the chain of matter circulation on the planet. They are the most important component of the biological soil phase and an important indicator of soil fertility and soil degradation. Soil microbiological processes are dependant on the organic matter content, while the fertility of a given soil type is connected with the activity of its microflora. Knowing the metabolism of a microorganism enables the direction of microbiological processes by application of useful microorganisms to maintain and enhance soil biological activity, i.e. soil biogenicity. An increase of acreage in legumes requires that a wider use of microbiological fertilizers to maintain and increase soil fertility be considered. Results of legume nitrogen fixation suggest that fixed nitrogen makes a large annual contribution to yield, which justifies the use of highly effective strains in microbiological fertilizers, enables the replacement of nitrogen from mineral fertilizer with biological nitrogen and has economic and environmental effects as well. The incorporation of microorganisms causes no soil pollution, reduces the use of mineral nitrogen fertilizer, contributes to the production of environmentally safe food improves the soil structure, increases the organic matter content and positively affects physical soil properties., Mikroorganizmi su široko rasprostranjeni u prirodi u zemljištu, vodi vazduhu, na i u biljkama i životinjama i oni su nezaobilazna karika u kruženju materija na našoj planeti. Najznačajnija komponenta biološke faze zemljišta su mikroorganizmi koji su važan indikator plodnosti i procesa degradacije zemljišta. Mikrobiološki procesi u zemljištu uslovljeni su sadržajem organske materije, a plodnost svakog tipa zemljišta je vezana sa aktivnošću njene mikroflore. Poznavanjem metabolizma mikroorganizama, mogu se usmeriti mikrobiološki procesi tako što će se primenom korisnih mikrooragizama održati i poboljšati biološka aktivnost, odnosno biogenost zemljišta. Širenje površina pod leguminozama zahteva razmišljanje o široj primeni mikrobioloških đubriva u cilju očuvanja i povećanja plodnosti zemljišta. Rezultat azotofiksacije leguminoznih biljaka pokazuje da je godišnji udeo fiksiranog azota u prinosu veliki, što opravdava primenu visokoefektivnih sojeva u mikrobiološkim đubrivima, omogućuje zamenu azota iz mineralnog đubriva biološkim azotom, a ima i ekonomski i ekološki efekat. Unetim mikroorganizmima ne zagađuje se zemljište, smanjuje se upotreba mineralnih azotnih đubriva, doprinosi proizvodnji ekološki zdrave hrane poboljšava struktura zemljišta, povećava sadržaj organske materije i pozitivno utiče na fizičke osobine zemljišta.",
publisher = "Institut za ratarstvo i povrtarstvo, Novi Sad",
journal = "Zbornik radova Instituta za ratarstvo i povrtarstvo",
title = "Microbiological fertilizer use and study of biological activity for soil protection purposes, Primena mikrobioloških đubriva i ispitivanje biološke aktivnosti u cilju zaštite zemljišta",
pages = "169-153",
number = "40",
url = "https://hdl.handle.net/21.15107/rcub_fiver_241"
}

Milić, V. M., Jarak, M., Mrkovački, N., Milošević, N., Govedarica, M. M., Đurić, S.,& Marinković, J.. (2004). Microbiological fertilizer use and study of biological activity for soil protection purposes. in Zbornik radova Instituta za ratarstvo i povrtarstvo
Institut za ratarstvo i povrtarstvo, Novi Sad.(40), 153-169.
https://hdl.handle.net/21.15107/rcub_fiver_241

Milić VM, Jarak M, Mrkovački N, Milošević N, Govedarica MM, Đurić S, Marinković J. Microbiological fertilizer use and study of biological activity for soil protection purposes. in Zbornik radova Instituta za ratarstvo i povrtarstvo. 2004;(40):153-169.
https://hdl.handle.net/21.15107/rcub_fiver_241 .

Milić, Vera M., Jarak, Mirjana, Mrkovački, Nastasija, Milošević, Nada, Govedarica, Mitar M., Đurić, Simonida, Marinković, Jelena, "Microbiological fertilizer use and study of biological activity for soil protection purposes" in Zbornik radova Instituta za ratarstvo i povrtarstvo, no. 40 (2004):153-169,
https://hdl.handle.net/21.15107/rcub_fiver_241 .

TY  - JOUR
AU  - Milić, Vera M.
AU  - Vasić, Mirjana
AU  - Marinković, Jelena
PY  - 2003
UR  - http://fiver.ifvcns.rs/handle/123456789/188
AB  - The legume family is comprised of a highly diverse set of plant species essential to animal and human nutrition. The introduction of effective strains of nodule bacteria during bean sowing increases nitrogen fixation and enables these plant species to be grown even on less fertile soils. This paper has studied the effects of inoculation and fertilization on nitrogen fixation parameters in the bean variety Belko. Sowing was done by hand and the seeds were inoculated using the microbiological fertilizer NS-Nitragin which contained a mixture of Rhizobium leguminosarum bv. Phaseoli strains specific to bean as a crop species. Both the bean genotype and NS-Nitragin fertilizer used originate from the Institute. Plant dry matter mass and nitrogen content were determined at flowering, while grain dry matter mass per plant, number of pods formed, and grain number per pod were measured at physiological maturity. The basic agrochemical soil analyses were performed just before sowing, at flowering and at physiological maturity. Plant nitrogen was determined according to Kjeldahl. The trial was established at the Rimski Šančevi Experiment Field and the trial treatments were as follows 1) 0 kg/ha + HR + 50 kg/ha N every three years; 2) 50 kg/ha + HR + 50 kg/ha N every three years; 3) 100 kg/ha + HR + 50 kg/ha N every three years; 4) 50 kg/ha + HR + 50 kg/ha N every three years; 5) 200 kg/ha + HR + 50 kg/ha N every three years; 6) 250 kg/ha + HR + 50 kg/ha N every three years; 7) 0 kg/ha; 8) 100 kg/ha; and 9) 200 kg/ha. No NPK mineral fertilizers were incorporated and the phosphorus and potassium rates were the same (80 kg/ha P2O5 and K2O) in all of the treatments. In treatments 1 through 6 harvest residues (HR) were incorporated by plowing under, and every three years 50 kg/ha N were added after wheat. In treatments 7, 8 and 9 harvest residues were removed. Each treatment consisted of an inoculated and a noninoculated version. The study results showed that inoculation had a positive effect on the symbiotic association parameters concerned, i.e. the plant length, dry matter mass, pod number per plant, grain number per pod and plant nitrogen content of the inoculated plants from all of the treatments were on average greater than those of the noninoculated ones. The different fertilization treatments had different effects on the effectiveness of the symbiotic association as well. The amount of nitrogen fixed ranged from 13.68 to 68.97 kg N/ha, averaging 23.31 kg N/ha. No nitrogen fixation occurred in treatments 5 and 9.
AB  - U radu je ispitan uticaj inokulacije i đubrenja na parametre azotofiksacije kod sorte pasulja Belko. Ogled je izveden na oglednim poljima Naučnog instituta za ratarstvo i povrtarstvo. Inokulacija semena je izvršena sa mikrobiološkim đubrivom NS-Nitraginom za pasulj. Genotip pasulja Belko i NS-Nitragin poreklom su iz Instituta. U fazi cvetanja i u fazi fiziološke zrelosti urađena je i osnovna agrohemijska analiza zemljišta. U obe faze analizirana je masa biljke (nadzemni deo, koren i kvržice), sadržaj azota u biljci, masa zrna po biljci, broj formiranih mahuna i broj zrna po mahuni. Inokulacija je uticala na povećanje sadržaja humusa i sadržaj ukupanog azota u zemljištu u većini kombinacija đubrenja. U proseku na svim varijantama đubrenja kod inokulisanih biljaka veća je masa suve materije biljke (korena nadzemnog dela i zrna), broj mahuna po biljci, broj zrna po mahuni i sadržaj azota u biljci.
PB  - Institut za ratarstvo i povrtarstvo, Novi Sad
T2  - Zbornik radova Instituta za ratarstvo i povrtarstvo
T1  - Effect of inoculation and fertilizer application on nitrogen fixation in bean
T1  - Uticaj inokulacije i đubrenja na efektivnost azotofiksacije kod pasulja
EP  - 29
IS  - 39
SP  - 21
UR  - https://hdl.handle.net/21.15107/rcub_fiver_188
ER  - 

@article{
author = "Milić, Vera M. and Vasić, Mirjana and Marinković, Jelena",
year = "2003",
abstract = "The legume family is comprised of a highly diverse set of plant species essential to animal and human nutrition. The introduction of effective strains of nodule bacteria during bean sowing increases nitrogen fixation and enables these plant species to be grown even on less fertile soils. This paper has studied the effects of inoculation and fertilization on nitrogen fixation parameters in the bean variety Belko. Sowing was done by hand and the seeds were inoculated using the microbiological fertilizer NS-Nitragin which contained a mixture of Rhizobium leguminosarum bv. Phaseoli strains specific to bean as a crop species. Both the bean genotype and NS-Nitragin fertilizer used originate from the Institute. Plant dry matter mass and nitrogen content were determined at flowering, while grain dry matter mass per plant, number of pods formed, and grain number per pod were measured at physiological maturity. The basic agrochemical soil analyses were performed just before sowing, at flowering and at physiological maturity. Plant nitrogen was determined according to Kjeldahl. The trial was established at the Rimski Šančevi Experiment Field and the trial treatments were as follows 1) 0 kg/ha + HR + 50 kg/ha N every three years; 2) 50 kg/ha + HR + 50 kg/ha N every three years; 3) 100 kg/ha + HR + 50 kg/ha N every three years; 4) 50 kg/ha + HR + 50 kg/ha N every three years; 5) 200 kg/ha + HR + 50 kg/ha N every three years; 6) 250 kg/ha + HR + 50 kg/ha N every three years; 7) 0 kg/ha; 8) 100 kg/ha; and 9) 200 kg/ha. No NPK mineral fertilizers were incorporated and the phosphorus and potassium rates were the same (80 kg/ha P2O5 and K2O) in all of the treatments. In treatments 1 through 6 harvest residues (HR) were incorporated by plowing under, and every three years 50 kg/ha N were added after wheat. In treatments 7, 8 and 9 harvest residues were removed. Each treatment consisted of an inoculated and a noninoculated version. The study results showed that inoculation had a positive effect on the symbiotic association parameters concerned, i.e. the plant length, dry matter mass, pod number per plant, grain number per pod and plant nitrogen content of the inoculated plants from all of the treatments were on average greater than those of the noninoculated ones. The different fertilization treatments had different effects on the effectiveness of the symbiotic association as well. The amount of nitrogen fixed ranged from 13.68 to 68.97 kg N/ha, averaging 23.31 kg N/ha. No nitrogen fixation occurred in treatments 5 and 9., U radu je ispitan uticaj inokulacije i đubrenja na parametre azotofiksacije kod sorte pasulja Belko. Ogled je izveden na oglednim poljima Naučnog instituta za ratarstvo i povrtarstvo. Inokulacija semena je izvršena sa mikrobiološkim đubrivom NS-Nitraginom za pasulj. Genotip pasulja Belko i NS-Nitragin poreklom su iz Instituta. U fazi cvetanja i u fazi fiziološke zrelosti urađena je i osnovna agrohemijska analiza zemljišta. U obe faze analizirana je masa biljke (nadzemni deo, koren i kvržice), sadržaj azota u biljci, masa zrna po biljci, broj formiranih mahuna i broj zrna po mahuni. Inokulacija je uticala na povećanje sadržaja humusa i sadržaj ukupanog azota u zemljištu u većini kombinacija đubrenja. U proseku na svim varijantama đubrenja kod inokulisanih biljaka veća je masa suve materije biljke (korena nadzemnog dela i zrna), broj mahuna po biljci, broj zrna po mahuni i sadržaj azota u biljci.",
publisher = "Institut za ratarstvo i povrtarstvo, Novi Sad",
journal = "Zbornik radova Instituta za ratarstvo i povrtarstvo",
title = "Effect of inoculation and fertilizer application on nitrogen fixation in bean, Uticaj inokulacije i đubrenja na efektivnost azotofiksacije kod pasulja",
pages = "29-21",
number = "39",
url = "https://hdl.handle.net/21.15107/rcub_fiver_188"
}

Milić, V. M., Vasić, M.,& Marinković, J.. (2003). Effect of inoculation and fertilizer application on nitrogen fixation in bean. in Zbornik radova Instituta za ratarstvo i povrtarstvo
Institut za ratarstvo i povrtarstvo, Novi Sad.(39), 21-29.
https://hdl.handle.net/21.15107/rcub_fiver_188

Milić VM, Vasić M, Marinković J. Effect of inoculation and fertilizer application on nitrogen fixation in bean. in Zbornik radova Instituta za ratarstvo i povrtarstvo. 2003;(39):21-29.
https://hdl.handle.net/21.15107/rcub_fiver_188 .

Milić, Vera M., Vasić, Mirjana, Marinković, Jelena, "Effect of inoculation and fertilizer application on nitrogen fixation in bean" in Zbornik radova Instituta za ratarstvo i povrtarstvo, no. 39 (2003):21-29,
https://hdl.handle.net/21.15107/rcub_fiver_188 .

TY  - JOUR
AU  - Milić, Vera M.
AU  - Hrustić, Milica
AU  - Vasić, Mirjana
AU  - Starčević, Ljubinko
AU  - Marinković, Jelena
PY  - 2003
UR  - http://fiver.ifvcns.rs/handle/123456789/208
AB  - The objective of this paper was to study the effects of several microbiological fertilizers (NS-Nitragina, Azotobaktera, BactoFil A and B Phylazonit MC) on biological and agrochemical soil properties in order to determine if these preparations can provide conditions suitable for increased plant production. Three trials were established at the Rimski Sančevi Experiment Field of the Institute of Field and Vegetable Crops in Novi Sad during 2002. In two of them (the ones with soybean and bean), the seed was inoculated with various microbiological fertilizers, whereas in the check treatment, it was not. The third trial involved maize (the NS-640 hybrid (FAO 600)) and various fertilization levels accompanied by the application of the microbiological fertilizer BactoFil A. The results of the study show that microbiological fertilizers influence the relative abundance of the various microbial groups studied depending both on the genotype and the type of inoculation. The use of microbiological fertilizers in the soybean and bean trials increased the total number of microorganisms and the abundance of free nitrogen-fixers, azotobacters, actinomycetes, and microorganisms affecting the release of inorganic phosphates in the soil. The various inoculation treatments of soybean increased the dry matter mass nodule number per plant, pod number per plant, grain number per plant and grain weight. The largest grain yields were obtained using double inoculation with NS-Nitragin (N+N) and the microbiological fertilizer NS-Nitragin and an Azotobacter mixture (N+A) and the lowest using BactoFil B. With beans, NS-Nitragin and Phylazonit MC produced the greatest effect both on grain yield and the parameters of nitrogen fixation and there was also an increase in nodule number, grain weight, dry matter mass, while the smallest grain yield was found in the treatment with the Azotobacter mixture. Our results showed that there was an increase of yield in all of the fertilization treatments in the maize trial relative to the control. However, when only barnyard manure plus the recommended dosage of BactoFil A were used the increase was 55%, whereas the same treatment with no fertilization produced an increase of 47%.
AB  - Cilj ovog rada bio je da se ispita uticaj mikrobioloških đubriva (NS-Nitragina, Azotobaktera, BactoFila A i B, Phylazonit MC) na biološke i agrohemijske osobine zemljišta kako bi se došlo do zaključka da li ovi preparati mogu da obezbede pogodne uslove za veću produkciju biljaka. Na osnovu rezultata bioloških ogleda može se zaključiti da mikrobiološka đubriva utiču pozitivno na biogenost zemljišta. Najveći prinos zrna soje ostvaren je kod dvostruke inokulacije soje sa NS-Nitraginom (N+N) i uz primenu Azotobaktera. Kod pasulja najveći efekat je bio kako na prinos zrna tako i na paramètre azotofiksaeije, na varijantama sa NS-Nitraginom i Phylazonitom MC, a najmanji sa dodatim Azotobakterom. Dobiveni rezultati pokazuju da je na svim varijantama đubrenja kukuruza došlo do povećanja prinosa u odnosu na kontrolnu varijantu. Na varijanti bez dubrenja ali uz primenu preporučene količine BactoFila A dobiveno je naveće povećanje prinosa zrna kukuruza (47%). Na varijanti gde je đubreno samo sa stajnjakom uz preporučenu dozu BactoFila A povećanje prinosa bilo je 55%.
PB  - Institut za ratarstvo i povrtarstvo, Novi Sad
T2  - Zbornik radova Instituta za ratarstvo i povrtarstvo
T1  - Use of microbiological fertilizers in bean, soybean and maize production
T1  - Primena mikrobioloških đubriva u proizvodnji pasulja, soje i kukuruza
EP  - 270
IS  - 38
SP  - 259
UR  - https://hdl.handle.net/21.15107/rcub_fiver_208
ER  - 

@article{
author = "Milić, Vera M. and Hrustić, Milica and Vasić, Mirjana and Starčević, Ljubinko and Marinković, Jelena",
year = "2003",
abstract = "The objective of this paper was to study the effects of several microbiological fertilizers (NS-Nitragina, Azotobaktera, BactoFil A and B Phylazonit MC) on biological and agrochemical soil properties in order to determine if these preparations can provide conditions suitable for increased plant production. Three trials were established at the Rimski Sančevi Experiment Field of the Institute of Field and Vegetable Crops in Novi Sad during 2002. In two of them (the ones with soybean and bean), the seed was inoculated with various microbiological fertilizers, whereas in the check treatment, it was not. The third trial involved maize (the NS-640 hybrid (FAO 600)) and various fertilization levels accompanied by the application of the microbiological fertilizer BactoFil A. The results of the study show that microbiological fertilizers influence the relative abundance of the various microbial groups studied depending both on the genotype and the type of inoculation. The use of microbiological fertilizers in the soybean and bean trials increased the total number of microorganisms and the abundance of free nitrogen-fixers, azotobacters, actinomycetes, and microorganisms affecting the release of inorganic phosphates in the soil. The various inoculation treatments of soybean increased the dry matter mass nodule number per plant, pod number per plant, grain number per plant and grain weight. The largest grain yields were obtained using double inoculation with NS-Nitragin (N+N) and the microbiological fertilizer NS-Nitragin and an Azotobacter mixture (N+A) and the lowest using BactoFil B. With beans, NS-Nitragin and Phylazonit MC produced the greatest effect both on grain yield and the parameters of nitrogen fixation and there was also an increase in nodule number, grain weight, dry matter mass, while the smallest grain yield was found in the treatment with the Azotobacter mixture. Our results showed that there was an increase of yield in all of the fertilization treatments in the maize trial relative to the control. However, when only barnyard manure plus the recommended dosage of BactoFil A were used the increase was 55%, whereas the same treatment with no fertilization produced an increase of 47%., Cilj ovog rada bio je da se ispita uticaj mikrobioloških đubriva (NS-Nitragina, Azotobaktera, BactoFila A i B, Phylazonit MC) na biološke i agrohemijske osobine zemljišta kako bi se došlo do zaključka da li ovi preparati mogu da obezbede pogodne uslove za veću produkciju biljaka. Na osnovu rezultata bioloških ogleda može se zaključiti da mikrobiološka đubriva utiču pozitivno na biogenost zemljišta. Najveći prinos zrna soje ostvaren je kod dvostruke inokulacije soje sa NS-Nitraginom (N+N) i uz primenu Azotobaktera. Kod pasulja najveći efekat je bio kako na prinos zrna tako i na paramètre azotofiksaeije, na varijantama sa NS-Nitraginom i Phylazonitom MC, a najmanji sa dodatim Azotobakterom. Dobiveni rezultati pokazuju da je na svim varijantama đubrenja kukuruza došlo do povećanja prinosa u odnosu na kontrolnu varijantu. Na varijanti bez dubrenja ali uz primenu preporučene količine BactoFila A dobiveno je naveće povećanje prinosa zrna kukuruza (47%). Na varijanti gde je đubreno samo sa stajnjakom uz preporučenu dozu BactoFila A povećanje prinosa bilo je 55%.",
publisher = "Institut za ratarstvo i povrtarstvo, Novi Sad",
journal = "Zbornik radova Instituta za ratarstvo i povrtarstvo",
title = "Use of microbiological fertilizers in bean, soybean and maize production, Primena mikrobioloških đubriva u proizvodnji pasulja, soje i kukuruza",
pages = "270-259",
number = "38",
url = "https://hdl.handle.net/21.15107/rcub_fiver_208"
}

Milić, V. M., Hrustić, M., Vasić, M., Starčević, L.,& Marinković, J.. (2003). Use of microbiological fertilizers in bean, soybean and maize production. in Zbornik radova Instituta za ratarstvo i povrtarstvo
Institut za ratarstvo i povrtarstvo, Novi Sad.(38), 259-270.
https://hdl.handle.net/21.15107/rcub_fiver_208

Milić VM, Hrustić M, Vasić M, Starčević L, Marinković J. Use of microbiological fertilizers in bean, soybean and maize production. in Zbornik radova Instituta za ratarstvo i povrtarstvo. 2003;(38):259-270.
https://hdl.handle.net/21.15107/rcub_fiver_208 .

Milić, Vera M., Hrustić, Milica, Vasić, Mirjana, Starčević, Ljubinko, Marinković, Jelena, "Use of microbiological fertilizers in bean, soybean and maize production" in Zbornik radova Instituta za ratarstvo i povrtarstvo, no. 38 (2003):259-270,
https://hdl.handle.net/21.15107/rcub_fiver_208 .