TY  - CONF
AU  - Hamidović, Saud
AU  - Lalević, Blažo
AU  - Borovac, B.
AU  - Kazlagić, A.
AU  - Haseljić, S.
AU  - Raičević, Vera
AU  - Djikić, M.
PY  - 2020
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/5436
AB  - When a pesticide gets into soil, it takes part in a number of physical, chemical and biological processes that depend not only on the compound itself, but a number of other factors such as physical, chemical, and biological characteristics of soil and climatic factors. Microorganisms play an important role in pesticide degradation as they are able to utilize the biogenic elements from those compounds, as well as energy for their physiological processes. On the other hand, pesticides are more or less toxic substances that can have adverse effect on microbial populations and prevent their development, reduce their abundance, deplete their taxonomic complexity and create communities with a lower level of diversity and reduced physiological activity. The aim of this study was to analyze post nicosulfuron application dynamics of microbial populations’ activity in the soil. By standard methodology, soil pH value was determined as slightly acid to slightly alkaline, humus and available K content as moderate to high, and available P content as very low to moderate. Microbial abundance (total number of bacteria, number of ammonification bacteria, fungi and actinomycetes) was determined by agar plate method. The application of nicosulfuron in all samples and at both locations has resulted in increased number of bacteria, fungi and ammonification bacteria and reduction of the number of actinomycetes. The highest positive effect on the number of microorganisms was 15 days after treatment with nicosulfuron.
PB  - Springer
C3  - IFMBE Proceedings
T1  - Dynamics of microbial populations activities after the application of nicosulfuron
EP  - 280
SP  - 275
VL  - 78
DO  - 10.1007/978-3-030-40049-1_35
ER  - 

@conference{
author = "Hamidović, Saud and Lalević, Blažo and Borovac, B. and Kazlagić, A. and Haseljić, S. and Raičević, Vera and Djikić, M.",
year = "2020",
abstract = "When a pesticide gets into soil, it takes part in a number of physical, chemical and biological processes that depend not only on the compound itself, but a number of other factors such as physical, chemical, and biological characteristics of soil and climatic factors. Microorganisms play an important role in pesticide degradation as they are able to utilize the biogenic elements from those compounds, as well as energy for their physiological processes. On the other hand, pesticides are more or less toxic substances that can have adverse effect on microbial populations and prevent their development, reduce their abundance, deplete their taxonomic complexity and create communities with a lower level of diversity and reduced physiological activity. The aim of this study was to analyze post nicosulfuron application dynamics of microbial populations’ activity in the soil. By standard methodology, soil pH value was determined as slightly acid to slightly alkaline, humus and available K content as moderate to high, and available P content as very low to moderate. Microbial abundance (total number of bacteria, number of ammonification bacteria, fungi and actinomycetes) was determined by agar plate method. The application of nicosulfuron in all samples and at both locations has resulted in increased number of bacteria, fungi and ammonification bacteria and reduction of the number of actinomycetes. The highest positive effect on the number of microorganisms was 15 days after treatment with nicosulfuron.",
publisher = "Springer",
journal = "IFMBE Proceedings",
title = "Dynamics of microbial populations activities after the application of nicosulfuron",
pages = "280-275",
volume = "78",
doi = "10.1007/978-3-030-40049-1_35"
}

Hamidović, S., Lalević, B., Borovac, B., Kazlagić, A., Haseljić, S., Raičević, V.,& Djikić, M.. (2020). Dynamics of microbial populations activities after the application of nicosulfuron. in IFMBE Proceedings
Springer., 78, 275-280.
https://doi.org/10.1007/978-3-030-40049-1_35

Hamidović S, Lalević B, Borovac B, Kazlagić A, Haseljić S, Raičević V, Djikić M. Dynamics of microbial populations activities after the application of nicosulfuron. in IFMBE Proceedings. 2020;78:275-280.
doi:10.1007/978-3-030-40049-1_35 .

Hamidović, Saud, Lalević, Blažo, Borovac, B., Kazlagić, A., Haseljić, S., Raičević, Vera, Djikić, M., "Dynamics of microbial populations activities after the application of nicosulfuron" in IFMBE Proceedings, 78 (2020):275-280,
https://doi.org/10.1007/978-3-030-40049-1_35 . .

TY  - CONF
AU  - Lalević, Blažo
AU  - Hamidović, Saud
AU  - Gavrić, Teofil
AU  - Sunulahpašić, A.
AU  - Borovac, B.
AU  - Halilović, M.
AU  - Jusić, I.
AU  - Kazlagić, A.
AU  - Delić, M.
PY  - 2020
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/5433
AB  - Modern agricultural production is often associated with application of agrochemicals. One of them is glyphosate, which has become one of the most widely used herbicides in weed control. However, the widespread use of glyphosate may influence the living organism’s activity. The aim of this paper was to estimate the soil microbial activity after glyphosate application. Glyphosate (Glifomark SG) was applied at the end of 2017 on two locations: Principovo polje, and Novi Travnik (Travnik municipality, Bosnia and Herzegovina), so that corn and raspberry residues can be removed. Soil sampling (0–10 and 10–30 cm) was conducted at the time of glyphosate application, also 15 and 45 days after application. On control soil glyphosate was not applied. Chemical soil analysis (pH, content of humus, available P and K) was performed using standard methodology, whilst microbial abundance (total number of bacteria, ammonification bacteria, fungi, actinomycetes and glyphosate-tolerant bacteria) was analyzed using agar plate method. The results of chemical soil analysis showed slightly acid to slightly alkaline pH value, moderate to high humus content, and low to high content of available P and K. In most of samples, bacterial number was reduced 15 days after glyphosate application, whilst at the end of experiment increase of bacterial abundance was recorded. Similar results were obtained for fungi. Rapid decrease of actinomycetes number was observed after application of glyphosate. Two bacterial strains (PP-23 and NT-11) were able to grow on mineral medium supplemented with glyphosate in concentrations of 1 and 2% (v/v), thus representing a promising candidates for bioremediation of soil contaminated with glyphosate.
PB  - Springer
C3  - IFMBE Proceedings
T1  - Survival of soil microbial population after glyphosate application
EP  - 43
SP  - 36
VL  - 78
DO  - 10.1007/978-3-030-40049-1_4
ER  - 

@conference{
author = "Lalević, Blažo and Hamidović, Saud and Gavrić, Teofil and Sunulahpašić, A. and Borovac, B. and Halilović, M. and Jusić, I. and Kazlagić, A. and Delić, M.",
year = "2020",
abstract = "Modern agricultural production is often associated with application of agrochemicals. One of them is glyphosate, which has become one of the most widely used herbicides in weed control. However, the widespread use of glyphosate may influence the living organism’s activity. The aim of this paper was to estimate the soil microbial activity after glyphosate application. Glyphosate (Glifomark SG) was applied at the end of 2017 on two locations: Principovo polje, and Novi Travnik (Travnik municipality, Bosnia and Herzegovina), so that corn and raspberry residues can be removed. Soil sampling (0–10 and 10–30 cm) was conducted at the time of glyphosate application, also 15 and 45 days after application. On control soil glyphosate was not applied. Chemical soil analysis (pH, content of humus, available P and K) was performed using standard methodology, whilst microbial abundance (total number of bacteria, ammonification bacteria, fungi, actinomycetes and glyphosate-tolerant bacteria) was analyzed using agar plate method. The results of chemical soil analysis showed slightly acid to slightly alkaline pH value, moderate to high humus content, and low to high content of available P and K. In most of samples, bacterial number was reduced 15 days after glyphosate application, whilst at the end of experiment increase of bacterial abundance was recorded. Similar results were obtained for fungi. Rapid decrease of actinomycetes number was observed after application of glyphosate. Two bacterial strains (PP-23 and NT-11) were able to grow on mineral medium supplemented with glyphosate in concentrations of 1 and 2% (v/v), thus representing a promising candidates for bioremediation of soil contaminated with glyphosate.",
publisher = "Springer",
journal = "IFMBE Proceedings",
title = "Survival of soil microbial population after glyphosate application",
pages = "43-36",
volume = "78",
doi = "10.1007/978-3-030-40049-1_4"
}

Lalević, B., Hamidović, S., Gavrić, T., Sunulahpašić, A., Borovac, B., Halilović, M., Jusić, I., Kazlagić, A.,& Delić, M.. (2020). Survival of soil microbial population after glyphosate application. in IFMBE Proceedings
Springer., 78, 36-43.
https://doi.org/10.1007/978-3-030-40049-1_4

Lalević B, Hamidović S, Gavrić T, Sunulahpašić A, Borovac B, Halilović M, Jusić I, Kazlagić A, Delić M. Survival of soil microbial population after glyphosate application. in IFMBE Proceedings. 2020;78:36-43.
doi:10.1007/978-3-030-40049-1_4 .

Lalević, Blažo, Hamidović, Saud, Gavrić, Teofil, Sunulahpašić, A., Borovac, B., Halilović, M., Jusić, I., Kazlagić, A., Delić, M., "Survival of soil microbial population after glyphosate application" in IFMBE Proceedings, 78 (2020):36-43,
https://doi.org/10.1007/978-3-030-40049-1_4 . .