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Dr. of Science (Biology), Head of the Biological Institute, Tomsk State University, Tomsk, Russia (BI, TSU). Leader of the Aeroschup Project since the early 2000s. Background in hydrobiological research with the focus on benthic macroorganisms in petroleum polluted environments, and in environmental engineering. His research group in TSU is focusing on hydrochemical and hydrobiological monitoring of petroleum polluted water bodies; development of remediation technologies and special equipment for their implementation (more than 20 registered inventions).
To date, the largest Russian rivers discharging to the Arctic Ocean remain a “blank spot” on the world map of data on the distribution of microplastics in freshwater systems. This study characterizes the abundance and morphology of microplastics in surface water of the Ob River and its large tributary, the Tom River, in western Siberia. The average number of particles for the two rivers ranged from 44.2 to 51.2 items per m3 or from 79.4 to 87.5 μg per m3 in the Tom River and in the Ob River, respectively. Of the recovered microplastics, 93.5% were less than 1 mm in their largest dimension, the largest group (45.5% of total counts) consisted of particles with sizes range 0.30–1.00 mm. Generally, microfragments of irregular shape were the most abundant among the Ob and Tom samples (47.4%) and exceeded microfibers (22.1%), microfilms (20.8%), and microspheres (9.74%) by average counts. Results from this study provide a baseline for understanding the scale of the transport of microplastics by the Ob River system into the Arctic Ocean and add to currently available data on microplastics abundance and diversity in freshwater systems of differing global geographic locations.
Yulia Frank; Egor Vorobiev; Danil Vorobiev; Andrey Trifonov; Dmitry Antsiferov; Tina Soliman Hunter; Scott Wilson; Vladimir Strezov. Preliminary Screening for Microplastic Concentrations in the Surface Water of the Ob and Tom Rivers in Siberia, Russia. Sustainability 2020, 13, 80 .
AMA StyleYulia Frank, Egor Vorobiev, Danil Vorobiev, Andrey Trifonov, Dmitry Antsiferov, Tina Soliman Hunter, Scott Wilson, Vladimir Strezov. Preliminary Screening for Microplastic Concentrations in the Surface Water of the Ob and Tom Rivers in Siberia, Russia. Sustainability. 2020; 13 (1):80.
Chicago/Turabian StyleYulia Frank; Egor Vorobiev; Danil Vorobiev; Andrey Trifonov; Dmitry Antsiferov; Tina Soliman Hunter; Scott Wilson; Vladimir Strezov. 2020. "Preliminary Screening for Microplastic Concentrations in the Surface Water of the Ob and Tom Rivers in Siberia, Russia." Sustainability 13, no. 1: 80.
This preliminary study investigated the abundance of microplastic particles in gastrointestinal tracts of the dace (Leuciscus leuciscus L.) from the Tom River, a large tributary of the Ob River in West Siberia. A total of 13 dace specimens of 2+ to 4+ years of age were studied. Microplastic particles extracted from fish guts were counted and classified by shapes and sizes. In average 204 ± 28.7 items of microplastics were detected for one dace specimen. Microplastic particles were categorized as fragments of irregular shape (70%), spheres (16%), films (7%) and fibers (7%), with size ranging from
Yulia A. Frank; Egor D. Vorobiev; Irina B. Babkina; Dmitry V. Antsiferov; Danil S. Vorobiev; Tomsk Darwin Llc; Russian Federation) Darwin Llc (Tomsk. Microplastics in fish gut, first records from the Tom River in West Siberia, Russia. Vestnik Tomskogo gosudarstvennogo universiteta. Biologiya 2020, 130 -139.
AMA StyleYulia A. Frank, Egor D. Vorobiev, Irina B. Babkina, Dmitry V. Antsiferov, Danil S. Vorobiev, Tomsk Darwin Llc, Russian Federation) Darwin Llc (Tomsk. Microplastics in fish gut, first records from the Tom River in West Siberia, Russia. Vestnik Tomskogo gosudarstvennogo universiteta. Biologiya. 2020; (52):130-139.
Chicago/Turabian StyleYulia A. Frank; Egor D. Vorobiev; Irina B. Babkina; Dmitry V. Antsiferov; Danil S. Vorobiev; Tomsk Darwin Llc; Russian Federation) Darwin Llc (Tomsk. 2020. "Microplastics in fish gut, first records from the Tom River in West Siberia, Russia." Vestnik Tomskogo gosudarstvennogo universiteta. Biologiya , no. 52: 130-139.
This article presents the species composition of aquatic oligochaetes (Oligochaeta) in the various regions of Western Siberia. The history of the study of aquatic oligochaetes of Western Siberia is briefly reviewed. The importance of oligochaetes in water bodies is also evaluated.
Nikolay A. Zalozny; Danil S. Vorobiev. Oligochaetes in the water ecosystems of Western Siberia. International Journal of Environmental Studies 2017, 74, 811 -817.
AMA StyleNikolay A. Zalozny, Danil S. Vorobiev. Oligochaetes in the water ecosystems of Western Siberia. International Journal of Environmental Studies. 2017; 74 (5):811-817.
Chicago/Turabian StyleNikolay A. Zalozny; Danil S. Vorobiev. 2017. "Oligochaetes in the water ecosystems of Western Siberia." International Journal of Environmental Studies 74, no. 5: 811-817.
The paper contains a complete annotated list of freshwater ichthyofauna of the Middle Ob River basin. The list is based on an analysis of publications and on the results of the authors’ research, and it includes 43 species in two classes, 9 orders, 12 families, and 30 genera. Ten of all listed species are introduced and only seven are naturalized. For each species, taxonomic comments are provided where necessary and conservation status, distribution within the Middle Ob River basin, abundance and commercial value are indicated. Latin and English names are given.
Vladimir I. Romanov; Elena A. Interesova; Yury V. Dyldin; Irina B. Babkina; Oksana G. Karmanova; Danil S. Vorobiev. An annotated list and current state of ichthyofauna of the Middle Ob River basin. International Journal of Environmental Studies 2017, 74, 818 -830.
AMA StyleVladimir I. Romanov, Elena A. Interesova, Yury V. Dyldin, Irina B. Babkina, Oksana G. Karmanova, Danil S. Vorobiev. An annotated list and current state of ichthyofauna of the Middle Ob River basin. International Journal of Environmental Studies. 2017; 74 (5):818-830.
Chicago/Turabian StyleVladimir I. Romanov; Elena A. Interesova; Yury V. Dyldin; Irina B. Babkina; Oksana G. Karmanova; Danil S. Vorobiev. 2017. "An annotated list and current state of ichthyofauna of the Middle Ob River basin." International Journal of Environmental Studies 74, no. 5: 818-830.
The paper describes a complex novel airlift plant for the simultaneous cleaning of water reservoir bottom sediments and water. The plant's design was tested in a model. Chemical analysis of the bottom sediments after experimental cleaning revealed a total oil content of 0.40–0.45 g kg−1, while the estimated initial oil content was around 16 g kg−1. This indicates a 35.5–40.0 times decrease in oil content.
Danil S. Vorobiev; Yulia A. Frank; Yury Noskov; Oleg E. Merzlyakov; Sergey P. Kulizhskiy. Novel technological solution for oil decontamination of bottom sediments. Water Practice and Technology 2016, 11, 139 -143.
AMA StyleDanil S. Vorobiev, Yulia A. Frank, Yury Noskov, Oleg E. Merzlyakov, Sergey P. Kulizhskiy. Novel technological solution for oil decontamination of bottom sediments. Water Practice and Technology. 2016; 11 (1):139-143.
Chicago/Turabian StyleDanil S. Vorobiev; Yulia A. Frank; Yury Noskov; Oleg E. Merzlyakov; Sergey P. Kulizhskiy. 2016. "Novel technological solution for oil decontamination of bottom sediments." Water Practice and Technology 11, no. 1: 139-143.
Norm setting for oil and petroleum products concentration in bottom sediments of water bodies in the Russian Federation is very important for the protection of fishery water bodies. The lack of specified content standards for petroleum products in different types of bottom sediments in oil extraction regions impedes projects to rehabilitate water bodies, polluted by oil. The paper discusses regional regulations of the Russian Federation on the norm setting for petroleum products in bottom sediments of water bodies.
Danil S. Vorobiev; Yuriy A. Noskov. Norm setting for oil and petroleum products in bottom sediments and their quality assessment according to Russian hydro chemical parameters. International Journal of Environmental Studies 2015, 72, 1028 -1036.
AMA StyleDanil S. Vorobiev, Yuriy A. Noskov. Norm setting for oil and petroleum products in bottom sediments and their quality assessment according to Russian hydro chemical parameters. International Journal of Environmental Studies. 2015; 72 (6):1028-1036.
Chicago/Turabian StyleDanil S. Vorobiev; Yuriy A. Noskov. 2015. "Norm setting for oil and petroleum products in bottom sediments and their quality assessment according to Russian hydro chemical parameters." International Journal of Environmental Studies 72, no. 6: 1028-1036.
Oil contamination of bodies of water in the Russian Federation is one of the most widespread impacts on ecosystems. The Khanty-Mansiysk autonomous district-Yugra, the main oil extraction area in Russia, is one of the most oil-contaminated regions. The article summarises data from hydrochemical research on the level of petroleum hydrocarbons in water and bottom sediments of water bodies located in the basin of the river Ob.
Danil S. Vorobiev; Yury A. Noskov. Oil contamination of the Ob basin. International Journal of Environmental Studies 2015, 72, 1 -7.
AMA StyleDanil S. Vorobiev, Yury A. Noskov. Oil contamination of the Ob basin. International Journal of Environmental Studies. 2015; 72 (3):1-7.
Chicago/Turabian StyleDanil S. Vorobiev; Yury A. Noskov. 2015. "Oil contamination of the Ob basin." International Journal of Environmental Studies 72, no. 3: 1-7.
A method of oxidative mineralization of the organomercury granozan pesticide commercial form under mild conditions was investigated. The product components of hazard class 1 were destructed to the low-toxic compounds in the electrolyte under the oxidants electrochemically formed in situ in sulphuric acid solutions of pesticide. Simultaneously, at the cathode, the mercury ions formed as a result of the pesticide organic component destruction process reduce up to more than 90%.
Tatyana N. Volgina; Viktor T. Novikov; Danil S. Vorobiev; Oksana Yu. Fedorova. Oxidative Detoxification of Organomercury Pesticides. Procedia Chemistry 2015, 15, 115 -119.
AMA StyleTatyana N. Volgina, Viktor T. Novikov, Danil S. Vorobiev, Oksana Yu. Fedorova. Oxidative Detoxification of Organomercury Pesticides. Procedia Chemistry. 2015; 15 ():115-119.
Chicago/Turabian StyleTatyana N. Volgina; Viktor T. Novikov; Danil S. Vorobiev; Oksana Yu. Fedorova. 2015. "Oxidative Detoxification of Organomercury Pesticides." Procedia Chemistry 15, no. : 115-119.
D.S. Vorobiev; O.E. Merzlyakov; Yu.A. Noskov. Oil Decontamination of Bottom Sediments: Past, Present and Future. Procedia Chemistry 2014, 10, 158 -161.
AMA StyleD.S. Vorobiev, O.E. Merzlyakov, Yu.A. Noskov. Oil Decontamination of Bottom Sediments: Past, Present and Future. Procedia Chemistry. 2014; 10 ():158-161.
Chicago/Turabian StyleD.S. Vorobiev; O.E. Merzlyakov; Yu.A. Noskov. 2014. "Oil Decontamination of Bottom Sediments: Past, Present and Future." Procedia Chemistry 10, no. : 158-161.
D. Vorobiev. Prospects of Use of the Ecological Equipment for Clearing of Water Objects of Oil (Russian). SPE Russian Oil and Gas Conference and Exhibition 2010, 1 .
AMA StyleD. Vorobiev. Prospects of Use of the Ecological Equipment for Clearing of Water Objects of Oil (Russian). SPE Russian Oil and Gas Conference and Exhibition. 2010; ():1.
Chicago/Turabian StyleD. Vorobiev. 2010. "Prospects of Use of the Ecological Equipment for Clearing of Water Objects of Oil (Russian)." SPE Russian Oil and Gas Conference and Exhibition , no. : 1.