Microplastic (MP) pollution is recognized as one of the biggest environmental problems due to multiple
direct and indirect negative impacts on the environment. Existing research indicate that the presence of MP
in the soil affects the organic matter cycle and the energy flow of terrestrial ecosystems, thus also the global
production of CO2, climate, plant communities, crop production and biodiversity. There are even fewer
studies dealing with the impact of MP on forest soil ecosystems. One of the first researches of the MP in the
soil on the territory of Serbia is currently underway and is being carried out within the project Evaluation of
the Microplastic in the Soils of Serbia - EMIPLAST - SoS. The research aimed to access the impact of MP on
soil’s main chemical, physical and biological properties by comparing polluted and non-polluted forest sites
in the three largest alluvial plains in Serbia – Danube, Sava and Morava. Statistically significantly higher
values of electric...al conductivity and pH were measured in samples from polluted localities compared to
unpolluted ones; while C, N and CEC were measured significantly higher in samples from unpolluted sites.
Particles > 0.02 mm were significantly higher in all samples from polluted sites compared to non-polluted.
Changed environmental conditions have an effect on the decomposition by soil microorganisms. Estimates
of potentially mineralizable carbon and mineralization rate are statistically significantly higher at polluted
sites compared to unpolluted ones in all three alluvial plains. These results support the viewpoints that can
be found in the literature, namely that the presence of MP in the soil affects the cycle of organic carbon and
CO2 emissions. Also, differences in estimates between polluted and unpolluted forest sites indicate that
microbial communities may be using MP particles as an additional food source. In order to establish the
level of the impact of MP on soil properties and microbial activity in the longer term, the study is ongoing.
TY - CONF
AU - Grujić, T.
AU - Saljnikov, E.
AU - Krnjajić, S.
AU - Stefanović, S.
AU - Belanović Simić, Snežana
AU - Jovković, M.
AU - Marjanović, Z.
PY - 2024
UR - https://omorika.sfb.bg.ac.rs/handle/123456789/1526
AB - Microplastic (MP) pollution is recognized as one of the biggest environmental problems due to multiple
direct and indirect negative impacts on the environment. Existing research indicate that the presence of MP
in the soil affects the organic matter cycle and the energy flow of terrestrial ecosystems, thus also the global
production of CO2, climate, plant communities, crop production and biodiversity. There are even fewer
studies dealing with the impact of MP on forest soil ecosystems. One of the first researches of the MP in the
soil on the territory of Serbia is currently underway and is being carried out within the project Evaluation of
the Microplastic in the Soils of Serbia - EMIPLAST - SoS. The research aimed to access the impact of MP on
soil’s main chemical, physical and biological properties by comparing polluted and non-polluted forest sites
in the three largest alluvial plains in Serbia – Danube, Sava and Morava. Statistically significantly higher
values of electrical conductivity and pH were measured in samples from polluted localities compared to
unpolluted ones; while C, N and CEC were measured significantly higher in samples from unpolluted sites.
Particles > 0.02 mm were significantly higher in all samples from polluted sites compared to non-polluted.
Changed environmental conditions have an effect on the decomposition by soil microorganisms. Estimates
of potentially mineralizable carbon and mineralization rate are statistically significantly higher at polluted
sites compared to unpolluted ones in all three alluvial plains. These results support the viewpoints that can
be found in the literature, namely that the presence of MP in the soil affects the cycle of organic carbon and
CO2 emissions. Also, differences in estimates between polluted and unpolluted forest sites indicate that
microbial communities may be using MP particles as an additional food source. In order to establish the
level of the impact of MP on soil properties and microbial activity in the longer term, the study is ongoing.
C3 - Abstract book : Centennial Celebration and Congress of the International Union of Soil Sciences Florence - Italy May 19 - 21, 2024
T1 - Impact of microplastic pollution on forest soil ecosystems in three largest alluvial plains in Serbia
ER -
@conference{
author = "Grujić, T. and Saljnikov, E. and Krnjajić, S. and Stefanović, S. and Belanović Simić, Snežana and Jovković, M. and Marjanović, Z.",
year = "2024",
abstract = "Microplastic (MP) pollution is recognized as one of the biggest environmental problems due to multiple
direct and indirect negative impacts on the environment. Existing research indicate that the presence of MP
in the soil affects the organic matter cycle and the energy flow of terrestrial ecosystems, thus also the global
production of CO2, climate, plant communities, crop production and biodiversity. There are even fewer
studies dealing with the impact of MP on forest soil ecosystems. One of the first researches of the MP in the
soil on the territory of Serbia is currently underway and is being carried out within the project Evaluation of
the Microplastic in the Soils of Serbia - EMIPLAST - SoS. The research aimed to access the impact of MP on
soil’s main chemical, physical and biological properties by comparing polluted and non-polluted forest sites
in the three largest alluvial plains in Serbia – Danube, Sava and Morava. Statistically significantly higher
values of electrical conductivity and pH were measured in samples from polluted localities compared to
unpolluted ones; while C, N and CEC were measured significantly higher in samples from unpolluted sites.
Particles > 0.02 mm were significantly higher in all samples from polluted sites compared to non-polluted.
Changed environmental conditions have an effect on the decomposition by soil microorganisms. Estimates
of potentially mineralizable carbon and mineralization rate are statistically significantly higher at polluted
sites compared to unpolluted ones in all three alluvial plains. These results support the viewpoints that can
be found in the literature, namely that the presence of MP in the soil affects the cycle of organic carbon and
CO2 emissions. Also, differences in estimates between polluted and unpolluted forest sites indicate that
microbial communities may be using MP particles as an additional food source. In order to establish the
level of the impact of MP on soil properties and microbial activity in the longer term, the study is ongoing.",
journal = "Abstract book : Centennial Celebration and Congress of the International Union of Soil Sciences Florence - Italy May 19 - 21, 2024",
title = "Impact of microplastic pollution on forest soil ecosystems in three largest alluvial plains in Serbia"
}
Grujić, T., Saljnikov, E., Krnjajić, S., Stefanović, S., Belanović Simić, S., Jovković, M.,& Marjanović, Z.. (2024). Impact of microplastic pollution on forest soil ecosystems in three largest alluvial plains in Serbia. in Abstract book : Centennial Celebration and Congress of the International Union of Soil Sciences Florence - Italy May 19 - 21, 2024.
Grujić T, Saljnikov E, Krnjajić S, Stefanović S, Belanović Simić S, Jovković M, Marjanović Z. Impact of microplastic pollution on forest soil ecosystems in three largest alluvial plains in Serbia. in Abstract book : Centennial Celebration and Congress of the International Union of Soil Sciences Florence - Italy May 19 - 21, 2024. 2024;..
Grujić, T., Saljnikov, E., Krnjajić, S., Stefanović, S., Belanović Simić, Snežana, Jovković, M., Marjanović, Z., "Impact of microplastic pollution on forest soil ecosystems in three largest alluvial plains in Serbia" in Abstract book : Centennial Celebration and Congress of the International Union of Soil Sciences Florence - Italy May 19 - 21, 2024 (2024).
