Citation in:
Italy, Belgium, China, Portugal, Spain, Australia, Saudi Arabia, Latvia
http://5bio5.blogspot.com/2015/11/citation-cited-works-ostroumov-sa.html
Cited works:
Cited in Latvia:
Ostroumov, S.A. Inhibitory analysis of top-down control: new keys to
studying eutrophication, algal blooms, and water self-purification.
Hydrobiologia. 2002. vol. 469, pp. 117−129.
DOI
http://dx.doi.org/10.1023/A:1015559123646;
Ostroumov, S.A. Biological Effects of Surfactants. CRC Press. Taylor
& Francis. Boca Raton, London, New York. 2006, 279 p.
These 2 publications were cited in:
Journal: Material Science and Applied Chemistry; doi: 10.1515/msac-2015-0015
2015/32
Title of the paper that cited the 2 publications: Physicochemical Pretreatment of Contaminated Microfibre Cloths after Their Use in Waterless Car Wash.
Silvija Strikauska 1, Andrejs Berzins 2, Lauris Arbidans 3, Agnese Kukela 4, Olga Muter 5, Maris
Klavins 6,
1–6 University of Latvia
**
Who cited:
Silvija Strikauska, Dr. biol., senior researcher. Fields of research —
agrobiotehnology, biotehnology.
Faculty of Geography and Earth Sciences, University of Latvia.
Address: Alberta Str. 10, Riga, LV-1010
E-mail: silvija.strikauska@llu.lv
Andrejs Bērziņš, Mg. ing., researcher. Fields of research — design of
bioreactors, studies of biotechnological processes in submerged and solid state
processes.
Institute of Microbiology and Biotechnology, University of Latvia.
Address: Kronvalda blvd. 4, Riga LV-1010, Latvia
E-mail: andrejs54@inbox.lv
Lauris Arbidans, AP, laboratory technician. Faculty of Geography and Earth
Sciences, University of Latvia.
Address: Alberta Str. 10, Riga, LV-1010
E-mail: lauris.arbidans@yahoo.com
Agnese Kukela, Dr. geol., researcher at the Department of Applied Geology,
Faculty of Geography and Earth Sciences, University of Latvia. Author of
several scientific publications in the field of weathering studies of stone
materials and assessment of preservation state of stone monuments with
cultural heritage. Assistant lecturer for the course Geoarchagology.
Address: 10 Alberta Str., LV 1010, Riga, Latvia
E-mail: agnese.kukela@lu.lv
Olga Muter, Dr. biol., senior researcher at the Institute of Microbiology &
Biotechnology, University of Latvia. Muter obtained her scientific degree in
microbiology at the University of Latvia in 2002. Fields of research: soil
microbiology, environmental biotechnologies.
Address: 4 Kronvalda blvd., Riga LV-1010, Latvia.
E-mail: olga.mutere@lu.lv
Maris Klavins: Dr. habil. chem., Professor at the University of Latvia,
Faculty of Geography and Earth Sciences, Department of Enviromental
Sciences. Kļaviņš obtained his scientific degree in chemistry of biologically
active compounds at Moscow State University in 1986 and his habilitated
degree at University of Latvia in 1994.
Address: University of Latvia, Raiņa blvd. 19, Riga, Latvia
E-mail: maris.klavins@lu.lv
Abstract in English:
Physicochemical Pretreatment of
Contaminated Microfibre Cloths after
Their Use in Waterless Car Wash
Silvija Strikauska1, Andrejs Berzins2, Lauris Arbidans3, Agnese Kukela4, Olga Muter5, Maris Klavins6,
1–6 University of Latvia
Abstract — Contaminated microfibre cloths (80 % polyester
and 20 % polyamide) which were previously used in waterless
car cleaning process were treated in ultrasonic bath. Efficiency of
water, ethanol, 2-propanol and ethylene glycol as liquid phase for
ultrasonic treatment was compared. Chemical oxygen demand
(COD), concentration of surfactants and total nitrogen in the
extract were tested after 0 min, 10 min, 30 min and 60 min
ultrasonic (US) exposure (42 kHz). In all cases the COD values
gradually increased in a time dependent manner from 6 % to
35 % with ethanol, from 17 % to 37 % with ethyleneglycol and
from 17 % to 33 % with 2-propanol at 10 to 60 min US mode,
respectively.
Keywords — Chemical oxygen demand (COD), microfiber
cloth, surfactants, waterless car cleaning.
Abstract in Latvian:
Silvija Strikauska, Andrejs Bērziņš, Lauris Arbidans, Agnese Kukela, Olga Muter, Māris Kļaviņš. Ar virsmas aktīvām vielām
piesārņotu bezūdens automašīnu tīrīšanas mikrošķiedru audumu fizikāli-ķīmiskā priekšapstrāde.
Bezūdens automašīnu mazgāšana pamatojas uz virsmas apstrādi ar mazgājamo līdzekli, kas satur virsmas aktīvās vielas, vaskus un citus
savienojumus, kas ir biodegradējami un nav toksiski. Šī līdzekļa noslaucīšanai no automašīnu virsmas, neizmantojot ūdeni, pielieto
mikrošķiedras audumu (80 % poliesters un 20 % poliamīds). Lai atkārtoti izmantotu šo audumu, pētīja tā mazgāšanas priekšapstrādes
efektivitāti dažādos šķīdinātājos (ūdens, etanols, etilēnglikols un 2-propanols) pie dažādiem ultraskaņas režīmiem (42 kHz, ekspozīcijas laiks
0 min, 10 min, 30 min un 60 min). Izvērtēja dažādu šķīdinātāju efektivitāti audumu attīrīšanā no netīrumiem, tīrīšanas līdzekļa virsmas aktīvām
vielām un vaskiem. Analizējamā šķīdumā noteica ķīmiskā skābekļa patēriņu (ĶSP), virsmas aktīvo vielu daudzumu, kopējā slāpekļa daudzumu
(Nkop) un šķīduma duļķainību. Priekšapstrādes procesos visos gadījumos ĶSP palielinājās, palielinoties ultraskaņas ekspozīcijas laikam no
10 min līdz 60 min: etanola gadījumā no 6 % līdz 35 %, etilēnglikola gadījumā no 17 % līdz 37 % un 2-propanola gadījumā no 17 % līdz 32 %.
Mikrošķiedras audumu priekšapstrāde, nepielietojot ultraskaņu, nepalielināja analizējamo šķīdumu ĶSP. Nkop un virsmas aktīvo vielu
koncentrācija mikrošķiedras audumu priekšapstrādes šķīdumos (izņemot ūdeni) palielinājās, attiecīgi palielinot ultraskaņas ekspozīcijas laiku
no 0 min līdz 60 min. Ultraskaņas ekspozīcijas laiks praktiski neietekmēja virsmas aktīvo vielu koncentrāciju ūdens šķīdumā un sasniedza
0,18 %. Visefektīvākais no testējamajiem priekšapstrādes variantiem bija ultraskaņas ekspozīcijas laiks 60 min 2-propanola šķīdumā. Nkop un
virsmas aktīvo vielu koncentrācija analizējamā paraugā attiecīgi sasniedza 200 mg·L−1 un 0.24 %. Optimālo priekšapstrādes variantu
noteikšanai, kā arī iegūto šķīdumu ar augstu ĶSP tālākai izmantošanai ir nepieciešami tālāki pētījumi.
The authors from Italy, Belgium, China cited his publications (author, co-author of the cited publications S.A.Ostroumov);
**
The authors from Australia cited:
Scholar Alert: New citations to articles in Sergei Ostroumov's profile
This paper was cited:
Contaminant cocktails: Interactive effects of fertiliser and copper paint on marine invertebrate recruitment and mortality;
**
This paper (Ostroumov 2005) was also cited by scholars from Portugal, Spain, Saudi Arabia, in:
Temporal variability of biodiversity patterns and trophic structure of estuarine macrobenthic assemblages along a gradient of metal contamination**
Italy, Belgium, China, Portugal, Spain, Australia, Saudi Arabia, Latvia
http://5bio5.blogspot.com/2015/11/citation-cited-works-ostroumov-sa.html
Cited works:
Cited in Latvia:
Ostroumov, S.A. Inhibitory analysis of top-down control: new keys to
studying eutrophication, algal blooms, and water self-purification.
Hydrobiologia. 2002. vol. 469, pp. 117−129.
DOI
http://dx.doi.org/10.1023/A:1015559123646;
Ostroumov, S.A. Biological Effects of Surfactants. CRC Press. Taylor
& Francis. Boca Raton, London, New York. 2006, 279 p.
These 2 publications were cited in:
Journal: Material Science and Applied Chemistry; doi: 10.1515/msac-2015-0015
2015/32
Title of the paper that cited the 2 publications: Physicochemical Pretreatment of Contaminated Microfibre Cloths after Their Use in Waterless Car Wash.
Silvija Strikauska 1, Andrejs Berzins 2, Lauris Arbidans 3, Agnese Kukela 4, Olga Muter 5, Maris
Klavins 6,
1–6 University of Latvia
**
Who cited:
Silvija Strikauska, Dr. biol., senior researcher. Fields of research —
agrobiotehnology, biotehnology.
Faculty of Geography and Earth Sciences, University of Latvia.
Address: Alberta Str. 10, Riga, LV-1010
E-mail: silvija.strikauska@llu.lv
Andrejs Bērziņš, Mg. ing., researcher. Fields of research — design of
bioreactors, studies of biotechnological processes in submerged and solid state
processes.
Institute of Microbiology and Biotechnology, University of Latvia.
Address: Kronvalda blvd. 4, Riga LV-1010, Latvia
E-mail: andrejs54@inbox.lv
Lauris Arbidans, AP, laboratory technician. Faculty of Geography and Earth
Sciences, University of Latvia.
Address: Alberta Str. 10, Riga, LV-1010
E-mail: lauris.arbidans@yahoo.com
Agnese Kukela, Dr. geol., researcher at the Department of Applied Geology,
Faculty of Geography and Earth Sciences, University of Latvia. Author of
several scientific publications in the field of weathering studies of stone
materials and assessment of preservation state of stone monuments with
cultural heritage. Assistant lecturer for the course Geoarchagology.
Address: 10 Alberta Str., LV 1010, Riga, Latvia
E-mail: agnese.kukela@lu.lv
Olga Muter, Dr. biol., senior researcher at the Institute of Microbiology &
Biotechnology, University of Latvia. Muter obtained her scientific degree in
microbiology at the University of Latvia in 2002. Fields of research: soil
microbiology, environmental biotechnologies.
Address: 4 Kronvalda blvd., Riga LV-1010, Latvia.
E-mail: olga.mutere@lu.lv
Maris Klavins: Dr. habil. chem., Professor at the University of Latvia,
Faculty of Geography and Earth Sciences, Department of Enviromental
Sciences. Kļaviņš obtained his scientific degree in chemistry of biologically
active compounds at Moscow State University in 1986 and his habilitated
degree at University of Latvia in 1994.
Address: University of Latvia, Raiņa blvd. 19, Riga, Latvia
E-mail: maris.klavins@lu.lv
Abstract in English:
Physicochemical Pretreatment of
Contaminated Microfibre Cloths after
Their Use in Waterless Car Wash
Silvija Strikauska1, Andrejs Berzins2, Lauris Arbidans3, Agnese Kukela4, Olga Muter5, Maris Klavins6,
1–6 University of Latvia
Abstract — Contaminated microfibre cloths (80 % polyester
and 20 % polyamide) which were previously used in waterless
car cleaning process were treated in ultrasonic bath. Efficiency of
water, ethanol, 2-propanol and ethylene glycol as liquid phase for
ultrasonic treatment was compared. Chemical oxygen demand
(COD), concentration of surfactants and total nitrogen in the
extract were tested after 0 min, 10 min, 30 min and 60 min
ultrasonic (US) exposure (42 kHz). In all cases the COD values
gradually increased in a time dependent manner from 6 % to
35 % with ethanol, from 17 % to 37 % with ethyleneglycol and
from 17 % to 33 % with 2-propanol at 10 to 60 min US mode,
respectively.
Keywords — Chemical oxygen demand (COD), microfiber
cloth, surfactants, waterless car cleaning.
Abstract in Latvian:
Silvija Strikauska, Andrejs Bērziņš, Lauris Arbidans, Agnese Kukela, Olga Muter, Māris Kļaviņš. Ar virsmas aktīvām vielām
piesārņotu bezūdens automašīnu tīrīšanas mikrošķiedru audumu fizikāli-ķīmiskā priekšapstrāde.
Bezūdens automašīnu mazgāšana pamatojas uz virsmas apstrādi ar mazgājamo līdzekli, kas satur virsmas aktīvās vielas, vaskus un citus
savienojumus, kas ir biodegradējami un nav toksiski. Šī līdzekļa noslaucīšanai no automašīnu virsmas, neizmantojot ūdeni, pielieto
mikrošķiedras audumu (80 % poliesters un 20 % poliamīds). Lai atkārtoti izmantotu šo audumu, pētīja tā mazgāšanas priekšapstrādes
efektivitāti dažādos šķīdinātājos (ūdens, etanols, etilēnglikols un 2-propanols) pie dažādiem ultraskaņas režīmiem (42 kHz, ekspozīcijas laiks
0 min, 10 min, 30 min un 60 min). Izvērtēja dažādu šķīdinātāju efektivitāti audumu attīrīšanā no netīrumiem, tīrīšanas līdzekļa virsmas aktīvām
vielām un vaskiem. Analizējamā šķīdumā noteica ķīmiskā skābekļa patēriņu (ĶSP), virsmas aktīvo vielu daudzumu, kopējā slāpekļa daudzumu
(Nkop) un šķīduma duļķainību. Priekšapstrādes procesos visos gadījumos ĶSP palielinājās, palielinoties ultraskaņas ekspozīcijas laikam no
10 min līdz 60 min: etanola gadījumā no 6 % līdz 35 %, etilēnglikola gadījumā no 17 % līdz 37 % un 2-propanola gadījumā no 17 % līdz 32 %.
Mikrošķiedras audumu priekšapstrāde, nepielietojot ultraskaņu, nepalielināja analizējamo šķīdumu ĶSP. Nkop un virsmas aktīvo vielu
koncentrācija mikrošķiedras audumu priekšapstrādes šķīdumos (izņemot ūdeni) palielinājās, attiecīgi palielinot ultraskaņas ekspozīcijas laiku
no 0 min līdz 60 min. Ultraskaņas ekspozīcijas laiks praktiski neietekmēja virsmas aktīvo vielu koncentrāciju ūdens šķīdumā un sasniedza
0,18 %. Visefektīvākais no testējamajiem priekšapstrādes variantiem bija ultraskaņas ekspozīcijas laiks 60 min 2-propanola šķīdumā. Nkop un
virsmas aktīvo vielu koncentrācija analizējamā paraugā attiecīgi sasniedza 200 mg·L−1 un 0.24 %. Optimālo priekšapstrādes variantu
noteikšanai, kā arī iegūto šķīdumu ar augstu ĶSP tālākai izmantošanai ir nepieciešami tālāki pētījumi.
More examples of citation of S.A.Ostroumov :
http://5bio5.blogspot.com/2015/11/20112015.htmlThe authors from Italy, Belgium, China cited his publications (author, co-author of the cited publications S.A.Ostroumov);
**
The authors from Australia cited:
Scholar Alert: New citations to articles in Sergei Ostroumov's profile
This paper was cited:
Ostroumov, S.A., 2005. Suspension-feeders as factors influencing water quality in aquatic
ecosystems. In: Dame, R.F., Olenin, S.J. (Eds.), The Comparative Roles of Suspension-
feeders in Ecosystems. Springer Netherlands, pp. 147-164.
This paper was cited in:
Contaminant cocktails: Interactive effects of fertiliser and copper paint on marine invertebrate recruitment and mortality
JC Lawes, GF Clark, EL Johnston - Marine Pollution Bulletin, 2015
Abstract Understanding interactive effects of contaminants is critical to predict how human
activities change ecosystem structure and function. We examined independent and
interactive effects of two contaminants (fertiliser and copper paint) on the recruitment, ...
activities change ecosystem structure and function. We examined independent and
interactive effects of two contaminants (fertiliser and copper paint) on the recruitment, ...
more info on this citation:
Contaminant cocktails: Interactive effects of fertiliser and copper paint on marine invertebrate recruitment and mortality;
- a School of Biological, Earth and Environmental Sciences, University of New South Wales, Sydney 2052, Australia;
- b Sydney Institute of Marine Science, Sydney 2088, Australia;
- Received 16 June 2015, Revised 13 November 2015, Accepted 17 November 2015, Available online 27 November 2015;
Suspension feeders contribute to nutrient cycling between water
column and benthic habitats by removing suspended particulate matter
and excreting faeces (Ostroumov, 2005). Furthermore, they are integral
to natural remediation and are touted to decrease negative effects of an-
thropogenic impacts (Ostroumov, 2005)...
**
This paper (Ostroumov 2005) was also cited by scholars from Portugal, Spain, Saudi Arabia, in:
Journal article in Estuarine, Coastal and Shelf Science;
**
More detail:
Available online 26 June 2015;
Temporal variability of biodiversity patterns and trophic structure of estuarine macrobenthic assemblages along a gradient of metal contamination
- a IPMA-Portuguese Institute for the Sea and Atmosphere, Avenida 5 de Outubro, 8700-305, Olhão, Portugal;
- b Department of Biology, Faculty of Marine and Environmental Sciences, University of Cadiz, Campus de Excelencia Internacional del Mar (CEIMAR), Avda. República Saharaui S/N Puerto Real, 11510, Puerto Real, Cadiz, Spain;
- c KAUST-King Abdullah University of Science and Technology, Red Sea Research Center, Thuwal, 23955-6900, Saudi Arabia;
- d IPMA-Portuguese Institute for the Sea and Atmosphere, Av. Brasília, 1449-006, Lisbon, Portugal;
- e Center for Environmental and Marine Studies and Department of Biology, University of Aveiro, 3810-193, Aveiro, Portugal;
- f CCMAR – Universidade do Algarve, Campus de Gambelas, 8005-139, Faro, Portugal;
- Received 15 October 2014, Revised 9 May 2015, Accepted 14 June 2015, Available online 26 June 2015;