TY  - JOUR
AU  - Litvinovich, Andrey
AU  - Lavrishchev, Anton
AU  - Bure, Vladimir
AU  - Miladinović, Vladimir
AU  - Saljnikov, Elmira
UR  - https://biocomm.spbu.ru/article/view/15374
UR  - http://RIVeC.institut-palanka.rs/handle/123456789/884
AB  - Liming of acidic soils is associated with various processes in the soil, including the availability of nutrients for plants. The vector and extent of these changes depend, inter alia, on the type of lime material and the doses used. Particularly, excessive liming can trigger a deficiency of manganese for crops. A long-term microfield experiment (13 test years) was carried out on Albic Retisols reclaimed with the dolomite particles of various sizes as a by-product of stone processing quarries. Ten treatments including various sized dolomite particles and their combinations, as well as traditional limestone flour on the background of NPK fertilizer were studied for the changes in soil acidity indicators (exchangeable acidity, pH; hydrolytic acidity, Hy; total acidity, Htot) and manganese availability. The amount of acidic components passing into the extract of 1N KCl was insufficient to reveal a dependency between the exchangeable acidity and the content of mobile manganese in the soil of most treatments limed with dolomite particles of various sizes. However, the relationship between the content of mobile Mn in soils and the value of hydrolytic acidity was proved by paired linear regressions. Regardless of the dose and size of dolomite particles added, the soil was highly and moderately supplied with plant available manganese during the entire study period.
PB  - St. Petersburg University Press
T2  - Biological Communications
T1  - Changes in Mn availability and soil acidity in <em>Albic Retisol</em> limed with dolomite screenings of various sizes and doses: a long-term microfield experiment in the north-western Russia
EP  - 144
IS  - 3
SP  - 135
VL  - 68
DO  - 10.21638/spbu03.2023.301
ER  - 

@article{
author = "Litvinovich, Andrey and Lavrishchev, Anton and Bure, Vladimir and Miladinović, Vladimir and Saljnikov, Elmira",
abstract = "Liming of acidic soils is associated with various processes in the soil, including the availability of nutrients for plants. The vector and extent of these changes depend, inter alia, on the type of lime material and the doses used. Particularly, excessive liming can trigger a deficiency of manganese for crops. A long-term microfield experiment (13 test years) was carried out on Albic Retisols reclaimed with the dolomite particles of various sizes as a by-product of stone processing quarries. Ten treatments including various sized dolomite particles and their combinations, as well as traditional limestone flour on the background of NPK fertilizer were studied for the changes in soil acidity indicators (exchangeable acidity, pH; hydrolytic acidity, Hy; total acidity, Htot) and manganese availability. The amount of acidic components passing into the extract of 1N KCl was insufficient to reveal a dependency between the exchangeable acidity and the content of mobile manganese in the soil of most treatments limed with dolomite particles of various sizes. However, the relationship between the content of mobile Mn in soils and the value of hydrolytic acidity was proved by paired linear regressions. Regardless of the dose and size of dolomite particles added, the soil was highly and moderately supplied with plant available manganese during the entire study period.",
publisher = "St. Petersburg University Press",
journal = "Biological Communications",
title = "Changes in Mn availability and soil acidity in <em>Albic Retisol</em> limed with dolomite screenings of various sizes and doses: a long-term microfield experiment in the north-western Russia",
pages = "144-135",
number = "3",
volume = "68",
doi = "10.21638/spbu03.2023.301"
}

Litvinovich, A., Lavrishchev, A., Bure, V., Miladinović, V.,& Saljnikov, E..Changes in Mn availability and soil acidity in <em>Albic Retisol</em> limed with dolomite screenings of various sizes and doses: a long-term microfield experiment in the north-western Russia. in Biological Communications
St. Petersburg University Press., 68(3), 135-144.
https://doi.org/10.21638/spbu03.2023.301

Litvinovich A, Lavrishchev A, Bure V, Miladinović V, Saljnikov E. Changes in Mn availability and soil acidity in <em>Albic Retisol</em> limed with dolomite screenings of various sizes and doses: a long-term microfield experiment in the north-western Russia. in Biological Communications.68(3):135-144.
doi:10.21638/spbu03.2023.301 .

Litvinovich, Andrey, Lavrishchev, Anton, Bure, Vladimir, Miladinović, Vladimir, Saljnikov, Elmira, "Changes in Mn availability and soil acidity in <em>Albic Retisol</em> limed with dolomite screenings of various sizes and doses: a long-term microfield experiment in the north-western Russia" in Biological Communications, 68, no. 3:135-144,
https://doi.org/10.21638/spbu03.2023.301 . .

TY  - JOUR
AU  - Ugrenović, Vladan
AU  - Filipović, Vladimir
AU  - Miladinović, Vladimir
AU  - Simić, Divna
AU  - Janković, Snežana
AU  - Stanković, Slađan
AU  - Saljnikov, Elmira
PY  - 2024
UR  - https://www.mdpi.com/2223-7747/13/7/1020
UR  - http://RIVeC.institut-palanka.rs/handle/123456789/880
AB  - Sustainable farming is one of the priority goals of the “4 per 1000” concept with regard to the preservation of soil fertility and carbon sequestration. This paper presents a study on the use of a mixture of cover crops of self-grown oats (Avena sativa L.) and sown white mustard (Sinapis alba L.) in organic farming under the agroecological conditions of Serbia. The main objective was to identify sensitive carbon pools (microbial carbon and nitrogen, basal respiration and a number of specific groups of soil microorganisms) in organic farming with and without cover crops. The inclusion of a mixture of white mustard and self-grown oats as a cover crop led to a significantly increased biogenity of the soil compared to a control after only a few years of investigation. The number of microorganisms, soil respiration and microbial biomass carbon were significantly higher in the cover crop treatment compared to the control soil on an organic farm in Serbia. This is the first study in Serbia to investigate the effect of self-grown oats as a cover crop. Further research will incorporate a wider range of variables and factors in order to develop a sustainable and effective site-specific system for organic crop production in Serbia.
PB  - MDPI
T2  - Plants
T1  - How Do Mixed Cover Crops (White Mustard + Oats) Contribute to Labile Carbon Pools in an Organic Cropping System in Serbia?
IS  - 7
SP  - 1020
VL  - 13
DO  - 10.3390/plants13071020
ER  - 

@article{
author = "Ugrenović, Vladan and Filipović, Vladimir and Miladinović, Vladimir and Simić, Divna and Janković, Snežana and Stanković, Slađan and Saljnikov, Elmira",
year = "2024",
abstract = "Sustainable farming is one of the priority goals of the “4 per 1000” concept with regard to the preservation of soil fertility and carbon sequestration. This paper presents a study on the use of a mixture of cover crops of self-grown oats (Avena sativa L.) and sown white mustard (Sinapis alba L.) in organic farming under the agroecological conditions of Serbia. The main objective was to identify sensitive carbon pools (microbial carbon and nitrogen, basal respiration and a number of specific groups of soil microorganisms) in organic farming with and without cover crops. The inclusion of a mixture of white mustard and self-grown oats as a cover crop led to a significantly increased biogenity of the soil compared to a control after only a few years of investigation. The number of microorganisms, soil respiration and microbial biomass carbon were significantly higher in the cover crop treatment compared to the control soil on an organic farm in Serbia. This is the first study in Serbia to investigate the effect of self-grown oats as a cover crop. Further research will incorporate a wider range of variables and factors in order to develop a sustainable and effective site-specific system for organic crop production in Serbia.",
publisher = "MDPI",
journal = "Plants",
title = "How Do Mixed Cover Crops (White Mustard + Oats) Contribute to Labile Carbon Pools in an Organic Cropping System in Serbia?",
number = "7",
pages = "1020",
volume = "13",
doi = "10.3390/plants13071020"
}

Ugrenović, V., Filipović, V., Miladinović, V., Simić, D., Janković, S., Stanković, S.,& Saljnikov, E.. (2024). How Do Mixed Cover Crops (White Mustard + Oats) Contribute to Labile Carbon Pools in an Organic Cropping System in Serbia?. in Plants
MDPI., 13(7), 1020.
https://doi.org/10.3390/plants13071020

Ugrenović V, Filipović V, Miladinović V, Simić D, Janković S, Stanković S, Saljnikov E. How Do Mixed Cover Crops (White Mustard + Oats) Contribute to Labile Carbon Pools in an Organic Cropping System in Serbia?. in Plants. 2024;13(7):1020.
doi:10.3390/plants13071020 .

Ugrenović, Vladan, Filipović, Vladimir, Miladinović, Vladimir, Simić, Divna, Janković, Snežana, Stanković, Slađan, Saljnikov, Elmira, "How Do Mixed Cover Crops (White Mustard + Oats) Contribute to Labile Carbon Pools in an Organic Cropping System in Serbia?" in Plants, 13, no. 7 (2024):1020,
https://doi.org/10.3390/plants13071020 . .

TY  - CONF
AU  - Saljnikov, Elmira
AU  - Turebayeva, Sagadat
AU  - Zhapparova, Aigul
AU  - Milinković, Mira
AU  - Ugrenović, Vladan
AU  - Miladinović, Vladimir
AU  - Buntić, Aneta
PY  - 2023
UR  - http://RIVeC.institut-palanka.rs/handle/123456789/886
AB  - To feed the ever-growing population of the Earth, it is necessary to obtain higher grain yields per unit area. This requires intensive exploitation of arable land against the background of a reduction in their area, which ultimately leads to soil degradation. Currently, about 75% of the territories of the Republic of Kazakhstan are subject to an increased risk of desertification, more than 30.5 million hectares are subject to wind and water erosion, and 54% of these territories are located in the southern part of the country. In the arid climate of southern Kazakhstan, the main limiting factor of crops is the lack of soil moisture and availability of nutrients. In addition in recent few decades the cost of fossil fuels and lubricants are steadily growing. Resource saving technologies such as direct sowing, can significantly contribute in the problems of soil moisture loss, soil degradation due to tillage, wind and water erosion, CO2 emission due to mineralization etc. The effect of different doses and terms of application of growth stimulators, micronutrients, bio-fertilizers and mineral fertilizers, as well as their economic efficiency, was studied in ten variables of rainfed winter wheat grown with zero tillage technology. The use of a combination of growth stimulators and microfertilizers produced the highest grain yield and was the most cost-effective. The greatest value of the nominal net profit of 223.25 euro and 244.10 euro from one hectare was provided and calculated with the recommended target grain yield of 2.0 t/ha dose of mineral fertilizers, respectively; however, the production cost of one ton of grain in these treatments was also highest. Further research is continuing with a wider range and combination of amendments and various crops in a rainfed no-till winter wheat farm in southern Kazakhstan. The results have shown that in dry and hot climate conditions with a deficit moisture regime, direct sowing of rainfed winter wheat can be successfully applied provided an appropriate combination, dosage and timing of fertilizers and crop protection chemicals are applied
PB  - Federation of Eurasian Soil Science Societies
C3  - International Soil Science Symposium on “Soil science & plant nutrition” 2 – 3 December 2022, Samsun, Türkiye
T1  - Direct sowing of rainfed winter wheat and in arid region of South Kazakhstan
SP  - 4
UR  - https://hdl.handle.net/21.15107/rcub_rivec_886
ER  - 

@conference{
author = "Saljnikov, Elmira and Turebayeva, Sagadat and Zhapparova, Aigul and Milinković, Mira and Ugrenović, Vladan and Miladinović, Vladimir and Buntić, Aneta",
year = "2023",
abstract = "To feed the ever-growing population of the Earth, it is necessary to obtain higher grain yields per unit area. This requires intensive exploitation of arable land against the background of a reduction in their area, which ultimately leads to soil degradation. Currently, about 75% of the territories of the Republic of Kazakhstan are subject to an increased risk of desertification, more than 30.5 million hectares are subject to wind and water erosion, and 54% of these territories are located in the southern part of the country. In the arid climate of southern Kazakhstan, the main limiting factor of crops is the lack of soil moisture and availability of nutrients. In addition in recent few decades the cost of fossil fuels and lubricants are steadily growing. Resource saving technologies such as direct sowing, can significantly contribute in the problems of soil moisture loss, soil degradation due to tillage, wind and water erosion, CO2 emission due to mineralization etc. The effect of different doses and terms of application of growth stimulators, micronutrients, bio-fertilizers and mineral fertilizers, as well as their economic efficiency, was studied in ten variables of rainfed winter wheat grown with zero tillage technology. The use of a combination of growth stimulators and microfertilizers produced the highest grain yield and was the most cost-effective. The greatest value of the nominal net profit of 223.25 euro and 244.10 euro from one hectare was provided and calculated with the recommended target grain yield of 2.0 t/ha dose of mineral fertilizers, respectively; however, the production cost of one ton of grain in these treatments was also highest. Further research is continuing with a wider range and combination of amendments and various crops in a rainfed no-till winter wheat farm in southern Kazakhstan. The results have shown that in dry and hot climate conditions with a deficit moisture regime, direct sowing of rainfed winter wheat can be successfully applied provided an appropriate combination, dosage and timing of fertilizers and crop protection chemicals are applied",
publisher = "Federation of Eurasian Soil Science Societies",
journal = "International Soil Science Symposium on “Soil science & plant nutrition” 2 – 3 December 2022, Samsun, Türkiye",
title = "Direct sowing of rainfed winter wheat and in arid region of South Kazakhstan",
pages = "4",
url = "https://hdl.handle.net/21.15107/rcub_rivec_886"
}

Saljnikov, E., Turebayeva, S., Zhapparova, A., Milinković, M., Ugrenović, V., Miladinović, V.,& Buntić, A.. (2023). Direct sowing of rainfed winter wheat and in arid region of South Kazakhstan. in International Soil Science Symposium on “Soil science & plant nutrition” 2 – 3 December 2022, Samsun, Türkiye
Federation of Eurasian Soil Science Societies., 4.
https://hdl.handle.net/21.15107/rcub_rivec_886

Saljnikov E, Turebayeva S, Zhapparova A, Milinković M, Ugrenović V, Miladinović V, Buntić A. Direct sowing of rainfed winter wheat and in arid region of South Kazakhstan. in International Soil Science Symposium on “Soil science & plant nutrition” 2 – 3 December 2022, Samsun, Türkiye. 2023;:4.
https://hdl.handle.net/21.15107/rcub_rivec_886 .

Saljnikov, Elmira, Turebayeva, Sagadat, Zhapparova, Aigul, Milinković, Mira, Ugrenović, Vladan, Miladinović, Vladimir, Buntić, Aneta, "Direct sowing of rainfed winter wheat and in arid region of South Kazakhstan" in International Soil Science Symposium on “Soil science & plant nutrition” 2 – 3 December 2022, Samsun, Türkiye (2023):4,
https://hdl.handle.net/21.15107/rcub_rivec_886 .

TY  - CONF
AU  - Miladinović, Vladimir
AU  - Ugrenović, Vladan
AU  - Saljnikov, Elmira
AU  - Grujić, Tara
AU  - Koković, Nikola
AU  - Delić, Dušica
PY  - 2023
UR  - http://RIVeC.institut-palanka.rs/handle/123456789/890
AB  - Izuzetan ekološki i privredni značaj soje je što kao biljka azotofiksator ima
sposobnost prevođenja atmosferskog azota u amonijačni oblik dostupan biljkama.
Proces se odvija na korenu soje u nodulama koje nastaju u simbiozi biljke i bakterija
iz roda Bradhyrhizobium japonicum. Kontakt između biljke i bakterija počinje
izlučivanjem u zemljište raznih vrsta polifenola (izoflavona), signalnih jedinjenja
koja privlače bakterije. Nakon difuzije izoflavona kroz bakterijsku membranu
dolazi do pokretanja Nod faktora bakterije, tj. lipohitooligosaharida pomoću kojih
bakterija vrši infekciju korenske dlake. Nakon infekcije započinje obrazovanje azotofiksirajuće
nodule u kojoj su svi metabolitički procesi pod potpunom kontrolom
biljke. Biološku fiksaciju u noduli vrši enzim nitogenaza u anaerobnim uslovima.
Biljka i bakterija zajedno stvaraju jedinjenje leghemoglobin koje vezuje kisonik i
omogućava stvaranje anaerobnih uslova koji pogoduju enzimu nitrogenazi vršenje
procesa azotofiksacije. Takođe, leghemoglobin aktivnoj noduli daje crvenu boju na
poprečnom preseku. Anatomska građa aktivne nodule predstavljena je strukturno
sa tri različite zone. Najveću zonu čini centralni deo, tj. tkivo inficirano bakterijama
(rizobijum polje), a na njega se naslanja unutrašnja kora (korteks) i spoljašnja kora
(eksterni korteks). Prve nodule počinju da vrše azotofiksaciju u fazi razvoja soje
„dve troliske“(V2) ili „tri roliske“(V3), da bi najveći broj aktivnih nodula bio u
fenofazi „početak formiranja semena“ (R5). Prosečna aktivnost nodula traje 30-40
dana. O ovim procesima postoji dosta naučnih saznanja, međutim i dalje postoji
dosta prostora za rasvetljavanje odnosa biljka soje i bakterija Bradhyrhizobium
japonicum, a sve u funkciji dobrobiti koje oni donose poljoprivrednoj proizvodnji.
AB  - The exceptional ecological and economic importance of soybeans is that, as a
nitrogen-fixing plant, it has the ability to convert atmospheric nitrogen into an
ammonia form available to plants. The process takes place on soybean roots in
nodules that are formed in the symbiosis of the plant and bacteria from the genus
Bradhyrhizobium japonicum. The contact between the plant and the bacteria begins
with the excretion into the soil of various types of polyphenols (isoflavones),
signal compounds that attract the bacteria. After the diffusion of isoflavones
through the bacterial membrane, the Nod factor of the bacteria is activated, i.e.
of lipochitooligosaccharides with which the bacterium infects the root hair. After
infection, the formation of a nitrogen-fixing nodule begins, in which all metabolic
processes are under the complete control of the plant. Biological fixation in the
nodule is carried out by the enzyme nitrogenase under anaerobic conditions.
Together, the plant and the bacteria create the compound leghemoglobin, which
binds oxygen and enables the creation of anaerobic conditions that favor the nitrogenase
enzyme for the nitrogen fixation process. Also, leghemoglobin gives the
active nodule a red color on cross-section. The anatomical structure of the active
nodule is represented structurally by three different zones. The largest zone is the
central part, i.e. tissue infected with bacteria (rhizobium field), and the inner bark
(cortex) and the outer bark (external cortex) rest on it. The first nodules begin to
carry out nitrogen fixation in the stage of soybean development “two trefoils” (V2)
or “three trefoils” (V3), so that the largest number of active nodules would be in
the phenophase “the beginning of seed formation” (R5). Average nodule activity
lasts 30 to 40 days. There is a lot of scientific knowledge about these processes, but
there is still a lot of room for improvement elucidating the relationship between
the soybean plant and bacteria Bradhyrhizobium japonicum, all in function of the
benefits they bring to agricultural production.
PB  - Beograd : Društvo genetičara Srbije
C3  - X simpozijum Društva selekcionera i semenara Republike Srbije i VII simpozijum Sekcije za oplemenjivanje organizama društva genetičara Srbije Vrnjačka Banja, 16.-18. Oktobar 2023.
T1  - Razvoj, fiziologija i anatomija nodula na korenu soje
T1  - Development, physiology and anatomy of soybean root nodles
EP  - 120
SP  - 119
UR  - https://hdl.handle.net/21.15107/rcub_rivec_890
ER  - 

@conference{
author = "Miladinović, Vladimir and Ugrenović, Vladan and Saljnikov, Elmira and Grujić, Tara and Koković, Nikola and Delić, Dušica",
year = "2023",
abstract = "Izuzetan ekološki i privredni značaj soje je što kao biljka azotofiksator ima
sposobnost prevođenja atmosferskog azota u amonijačni oblik dostupan biljkama.
Proces se odvija na korenu soje u nodulama koje nastaju u simbiozi biljke i bakterija
iz roda Bradhyrhizobium japonicum. Kontakt između biljke i bakterija počinje
izlučivanjem u zemljište raznih vrsta polifenola (izoflavona), signalnih jedinjenja
koja privlače bakterije. Nakon difuzije izoflavona kroz bakterijsku membranu
dolazi do pokretanja Nod faktora bakterije, tj. lipohitooligosaharida pomoću kojih
bakterija vrši infekciju korenske dlake. Nakon infekcije započinje obrazovanje azotofiksirajuće
nodule u kojoj su svi metabolitički procesi pod potpunom kontrolom
biljke. Biološku fiksaciju u noduli vrši enzim nitogenaza u anaerobnim uslovima.
Biljka i bakterija zajedno stvaraju jedinjenje leghemoglobin koje vezuje kisonik i
omogućava stvaranje anaerobnih uslova koji pogoduju enzimu nitrogenazi vršenje
procesa azotofiksacije. Takođe, leghemoglobin aktivnoj noduli daje crvenu boju na
poprečnom preseku. Anatomska građa aktivne nodule predstavljena je strukturno
sa tri različite zone. Najveću zonu čini centralni deo, tj. tkivo inficirano bakterijama
(rizobijum polje), a na njega se naslanja unutrašnja kora (korteks) i spoljašnja kora
(eksterni korteks). Prve nodule počinju da vrše azotofiksaciju u fazi razvoja soje
„dve troliske“(V2) ili „tri roliske“(V3), da bi najveći broj aktivnih nodula bio u
fenofazi „početak formiranja semena“ (R5). Prosečna aktivnost nodula traje 30-40
dana. O ovim procesima postoji dosta naučnih saznanja, međutim i dalje postoji
dosta prostora za rasvetljavanje odnosa biljka soje i bakterija Bradhyrhizobium
japonicum, a sve u funkciji dobrobiti koje oni donose poljoprivrednoj proizvodnji., The exceptional ecological and economic importance of soybeans is that, as a
nitrogen-fixing plant, it has the ability to convert atmospheric nitrogen into an
ammonia form available to plants. The process takes place on soybean roots in
nodules that are formed in the symbiosis of the plant and bacteria from the genus
Bradhyrhizobium japonicum. The contact between the plant and the bacteria begins
with the excretion into the soil of various types of polyphenols (isoflavones),
signal compounds that attract the bacteria. After the diffusion of isoflavones
through the bacterial membrane, the Nod factor of the bacteria is activated, i.e.
of lipochitooligosaccharides with which the bacterium infects the root hair. After
infection, the formation of a nitrogen-fixing nodule begins, in which all metabolic
processes are under the complete control of the plant. Biological fixation in the
nodule is carried out by the enzyme nitrogenase under anaerobic conditions.
Together, the plant and the bacteria create the compound leghemoglobin, which
binds oxygen and enables the creation of anaerobic conditions that favor the nitrogenase
enzyme for the nitrogen fixation process. Also, leghemoglobin gives the
active nodule a red color on cross-section. The anatomical structure of the active
nodule is represented structurally by three different zones. The largest zone is the
central part, i.e. tissue infected with bacteria (rhizobium field), and the inner bark
(cortex) and the outer bark (external cortex) rest on it. The first nodules begin to
carry out nitrogen fixation in the stage of soybean development “two trefoils” (V2)
or “three trefoils” (V3), so that the largest number of active nodules would be in
the phenophase “the beginning of seed formation” (R5). Average nodule activity
lasts 30 to 40 days. There is a lot of scientific knowledge about these processes, but
there is still a lot of room for improvement elucidating the relationship between
the soybean plant and bacteria Bradhyrhizobium japonicum, all in function of the
benefits they bring to agricultural production.",
publisher = "Beograd : Društvo genetičara Srbije",
journal = "X simpozijum Društva selekcionera i semenara Republike Srbije i VII simpozijum Sekcije za oplemenjivanje organizama društva genetičara Srbije Vrnjačka Banja, 16.-18. Oktobar 2023.",
title = "Razvoj, fiziologija i anatomija nodula na korenu soje, Development, physiology and anatomy of soybean root nodles",
pages = "120-119",
url = "https://hdl.handle.net/21.15107/rcub_rivec_890"
}

Miladinović, V., Ugrenović, V., Saljnikov, E., Grujić, T., Koković, N.,& Delić, D.. (2023). Razvoj, fiziologija i anatomija nodula na korenu soje. in X simpozijum Društva selekcionera i semenara Republike Srbije i VII simpozijum Sekcije za oplemenjivanje organizama društva genetičara Srbije Vrnjačka Banja, 16.-18. Oktobar 2023.
Beograd : Društvo genetičara Srbije., 119-120.
https://hdl.handle.net/21.15107/rcub_rivec_890

Miladinović V, Ugrenović V, Saljnikov E, Grujić T, Koković N, Delić D. Razvoj, fiziologija i anatomija nodula na korenu soje. in X simpozijum Društva selekcionera i semenara Republike Srbije i VII simpozijum Sekcije za oplemenjivanje organizama društva genetičara Srbije Vrnjačka Banja, 16.-18. Oktobar 2023.. 2023;:119-120.
https://hdl.handle.net/21.15107/rcub_rivec_890 .

Miladinović, Vladimir, Ugrenović, Vladan, Saljnikov, Elmira, Grujić, Tara, Koković, Nikola, Delić, Dušica, "Razvoj, fiziologija i anatomija nodula na korenu soje" in X simpozijum Društva selekcionera i semenara Republike Srbije i VII simpozijum Sekcije za oplemenjivanje organizama društva genetičara Srbije Vrnjačka Banja, 16.-18. Oktobar 2023. (2023):119-120,
https://hdl.handle.net/21.15107/rcub_rivec_890 .

TY  - GEN
AU  - Ugrenović, Vladan
AU  - Saljnikov, Elmira
AU  - Filipović, Vladimir
AU  - Stajković Srbinović, Olivera
AU  - Ugrinović, Milan
AU  - Stanković, Slađan
AU  - Simić, Divna
AU  - Marjanović-Jeromela, Ana
PY  - 2020
UR  - http://fiver.ifvcns.rs/handle/123456789/2232
UR  - http://RIVeC.institut-palanka.rs/handle/123456789/467
AB  - Predloženo tehničko rešenje razvijano je na lokalitetu sertifikovanog organskog oglednog polja Instituta Tamiš, površine 2,5 ha na karbonatnom černozemu od 2016. do 2020. godine. Za proučavanje najpodesnijeg agrotehničkog modela za zasnivanje pokrovnog useva setvom bele slačice iskorišćena je agrotehnička situacija posle žetve ovsa (Avena sativa L.), kada je došlo do nicanja samorasta ovsa i u takvim uslovima posejana bela slačica. Početkom prve dekade avgusta u svim godinama istraživanja slačica je nikla, pa je time uspostavljen združeni pokrovni usev ovsa i bele slačice. Upravo u tome je inovativnost, jer u Srbiji ovakav pokrovni usev nije do sada zasnivan, a prednosti ovakvog rešenja su višestruke. Tehničko rešenje pripada oblasti biotehničkih nauka, naučna disciplina: ratarstvo i povrtarstvo, uža naučna disciplina: industrijsko bilje i strna žita, segment: organska proizvodnja, a odnosi se na novi tehnološki postupak zasnivanja pokrovnog useva setvom bele slačice (Sinapis alba L.) u organskoj ratarskoj proizvodnji.
AB  - This new technical solution deals with establishment of white mustard (Sinapis alba L.) cover crop in organic farming. The trial was carried out after oat (Avena sativa L.) harvest on a certified organic experimental field of Institute Tamiš in Serbia on the area of 2.5 ha on carbonate chernozem in the period 2016-2020. Such intercropping combination has not previously been reported in Serbia.
PB  - Beograd : Nacionalno udruženje za razvoj organske proizvodnje Serbia Organica
T1  - Tehnološki postupak zasnivanja pokrovnog useva belom slačicom (Sinapis alba L.) u organskoj ratarskoj proizvodnji
UR  - https://hdl.handle.net/21.15107/rcub_rivec_467
ER  - 

@misc{
author = "Ugrenović, Vladan and Saljnikov, Elmira and Filipović, Vladimir and Stajković Srbinović, Olivera and Ugrinović, Milan and Stanković, Slađan and Simić, Divna and Marjanović-Jeromela, Ana",
year = "2020",
abstract = "Predloženo tehničko rešenje razvijano je na lokalitetu sertifikovanog organskog oglednog polja Instituta Tamiš, površine 2,5 ha na karbonatnom černozemu od 2016. do 2020. godine. Za proučavanje najpodesnijeg agrotehničkog modela za zasnivanje pokrovnog useva setvom bele slačice iskorišćena je agrotehnička situacija posle žetve ovsa (Avena sativa L.), kada je došlo do nicanja samorasta ovsa i u takvim uslovima posejana bela slačica. Početkom prve dekade avgusta u svim godinama istraživanja slačica je nikla, pa je time uspostavljen združeni pokrovni usev ovsa i bele slačice. Upravo u tome je inovativnost, jer u Srbiji ovakav pokrovni usev nije do sada zasnivan, a prednosti ovakvog rešenja su višestruke. Tehničko rešenje pripada oblasti biotehničkih nauka, naučna disciplina: ratarstvo i povrtarstvo, uža naučna disciplina: industrijsko bilje i strna žita, segment: organska proizvodnja, a odnosi se na novi tehnološki postupak zasnivanja pokrovnog useva setvom bele slačice (Sinapis alba L.) u organskoj ratarskoj proizvodnji., This new technical solution deals with establishment of white mustard (Sinapis alba L.) cover crop in organic farming. The trial was carried out after oat (Avena sativa L.) harvest on a certified organic experimental field of Institute Tamiš in Serbia on the area of 2.5 ha on carbonate chernozem in the period 2016-2020. Such intercropping combination has not previously been reported in Serbia.",
publisher = "Beograd : Nacionalno udruženje za razvoj organske proizvodnje Serbia Organica",
title = "Tehnološki postupak zasnivanja pokrovnog useva belom slačicom (Sinapis alba L.) u organskoj ratarskoj proizvodnji",
url = "https://hdl.handle.net/21.15107/rcub_rivec_467"
}

Ugrenović, V., Saljnikov, E., Filipović, V., Stajković Srbinović, O., Ugrinović, M., Stanković, S., Simić, D.,& Marjanović-Jeromela, A.. (2020). Tehnološki postupak zasnivanja pokrovnog useva belom slačicom (Sinapis alba L.) u organskoj ratarskoj proizvodnji. 
Beograd : Nacionalno udruženje za razvoj organske proizvodnje Serbia Organica..
https://hdl.handle.net/21.15107/rcub_rivec_467

Ugrenović V, Saljnikov E, Filipović V, Stajković Srbinović O, Ugrinović M, Stanković S, Simić D, Marjanović-Jeromela A. Tehnološki postupak zasnivanja pokrovnog useva belom slačicom (Sinapis alba L.) u organskoj ratarskoj proizvodnji. 2020;.
https://hdl.handle.net/21.15107/rcub_rivec_467 .

Ugrenović, Vladan, Saljnikov, Elmira, Filipović, Vladimir, Stajković Srbinović, Olivera, Ugrinović, Milan, Stanković, Slađan, Simić, Divna, Marjanović-Jeromela, Ana, "Tehnološki postupak zasnivanja pokrovnog useva belom slačicom (Sinapis alba L.) u organskoj ratarskoj proizvodnji" (2020),
https://hdl.handle.net/21.15107/rcub_rivec_467 .