20.11.2015. Цитирование.
Новые примеры цитирования этих публикаций Московского университета, МГУ.
фильтраторы, качество воды, морская экология, водная экология, качество воды, водные макрофиты, элодея, наночастицы,
цитировали публикации ученого МГУ , цитируемый автор: доктор биологических наук Сергей Андреевич Остроумов.
http://5bio5.blogspot.com/2015/11/20112015.html
The authors from Italy, Belgium, China cited his publications (author, co-author of the cited publications S.A.Ostroumov);
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Оповещение от Академии:[ Ostroumov S.A. ]
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More information on one of the articles that cited S.Ostroumov:
RESEARCH ARTICLE
Impact of water composition on association of Ag and CeO2
nanoparticles with aquatic macrophyte
Elodea canadensis
**
Новые примеры цитирования этих публикаций Московского университета, МГУ.
фильтраторы, качество воды, морская экология, водная экология, качество воды, водные макрофиты, элодея, наночастицы,
цитировали публикации ученого МГУ , цитируемый автор: доктор биологических наук Сергей Андреевич Остроумов.
http://5bio5.blogspot.com/2015/11/20112015.html
The authors from Italy, Belgium, China cited his publications (author, co-author of the cited publications S.A.Ostroumov);
**
Оповещение от Академии:[ Ostroumov S.A. ]
The Mediterranean non-indigenous ascidian Polyandrocarpa zorritensis: Microbiological accumulation capability and environmental implications
L Stabili, M Licciano, C Longo, M Lezzi, A Giangrande - Marine Pollution Bulletin, 2015
... filtering organic particles within a size range 0.1–50 μm (ie, heterotrophic bacteria, heterotrophic
eukaryotes, phytoplankton and detritus) and processing the water column within few hours
(Licciano et al., 2007b, Navarro and Widdows, 1997, Ostroumov, 2005a, Ostroumov ...
eukaryotes, phytoplankton and detritus) and processing the water column within few hours
(Licciano et al., 2007b, Navarro and Widdows, 1997, Ostroumov, 2005a, Ostroumov ...
Impact of water composition on association of Ag and CeO2 nanoparticles with aquatic macrophyte Elodea canadensis
F Van Koetsem, Y Xiao, Z Luo, G Du Laing - Environmental Science and Pollution …, 2015
Page 1. RESEARCH ARTICLE Impact of water composition on association of Ag and
CeO2 nanoparticles with aquatic macrophyte Elodea canadensis Frederik Van
Koetsem1 & Yi Xiao1,2 & Zhuanxi Luo2 & Gijs Du Laing1 Received ...
The authors from Belgium, China;
CeO2 nanoparticles with aquatic macrophyte Elodea canadensis Frederik Van
Koetsem1 & Yi Xiao1,2 & Zhuanxi Luo2 & Gijs Du Laing1 Received ...
The authors from Belgium, China;
[PDF] М.: Лесная промышленность, 1983. 272 c. Цитирование по данным eLibrary Цитирование по данным scholar. google Цитирование в диссертациях
И БИОСФЕРЫ, В ИЗ
... М. ... 6. 28-33. Ostroumov SA 2003с. ... [CITATION] Levels of Nature Conservation. Yablokov AV,
Ostroumov SA [book in Russian: Urovni okhrany zhivoi prirody/Уровни охраны живой природы]
AV Yablokov, SA Ostroumov - 1985 Related articles All 5 versions Cite Save ...
https://www.researchgate.net/profile/Sergei_Ostroumov/publication/282439482
Ostroumov SA [book in Russian: Urovni okhrany zhivoi prirody/Уровни охраны живой природы]
AV Yablokov, SA Ostroumov - 1985 Related articles All 5 versions Cite Save ...
https://www.researchgate.net/profile/Sergei_Ostroumov/publication/282439482
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More information on one of the articles that cited S.Ostroumov:
RESEARCH ARTICLE
Impact of water composition on association of Ag and CeO2
nanoparticles with aquatic macrophyte
Elodea canadensis
Frederik Van Koetsem
1
&
Yi Xiao
1,2
&
Zhuanxi Luo
2
&
Gijs Du Laing
1
Received: 27 March 2015 /Accepted: 27 October 2015
#
Springer-Verlag Berlin Heidelberg 2015
Abstract
In this study, the potential association of (citrate-
stabilized) Ag (14.1±1.0 nm) and CeO
2
(6.7±1.2 nm)
engineered nanoparticles (ENPs), or their ionic counterparts,
with the submerged aquatic plant
Elodea canadensis
, was
examined and, in particular, parameters affecting the distribu-
tion of the nanoparticles (or metal ions) between plant bio-
mass and the water phase were assessed using five distinct
aqueous matrices (i.e. tap water, 10 % Hoagland
’
ssolution
and three natural surface water samples). Individual plants
were exposed to varying concentrations of Ag and CeO
2
ENPs or Ag
+
and Ce
3+
ions during 72-h-lasting batch exper-
iments. A dose-dependent increase of silver or cerium in plant
biomass was observed for both the nanoparticles and the ions,
whereby exposure to the latter systematically resulted in sig-
nificantly higher biomass concentrations. Furthermore, the
apparent plant uptake of CeO
2
ENPs appeared to be higher
than that for Ag ENPs when comparing similar exposure con-
centrations. These findings suggest that association with
E. canadensis
might be affected by particle characteristics
such as size, composition, surface charge or surface coating.
Moreover, the stability of the ENPs or ions in suspension/
solution may be another important aspect affecting plant ex-
posure and uptake. The association of the nanoparticles or
ions with
E. canadensis
was affected by the physicochemical
characteristics of the water sample. The silver biomass con-
centration was found to correlate significantly with the elec-
trical conductivity (EC), dry residue (DR) and Cl
−
,K,Naand
Mg content in the case of Ag ENPs or with the EC, inorganic
carbon (IC) and Cl
−
,NO
3
−
, Na and Mg content in the case of
Ag
+
ions, whereas significant relationships between the ceri-
um biomass concentration and the EC, DR, IC and Ca content
or the pH, EC, DR, IC and Cl
−
, Ca and Mg content were
obtained for CeO
2
ENPs or Ce
3+
ions, respectively. Results
also indicated that the Ag ENPs and Ag
+
ions might poten-
tially be toxic towards
E. canadensis
whereas no evidence of
phytotoxicity was noted in the case of CeO
2
ENPs or Ce
3+
ions.
Keywords
Silver
.
Cerium dioxide
.
Nanoparticles
.
Aquatic
plant
.
Surface water
.
Plant uptake
Introduction
Engineered nanoparticles (ENPs) can be defined as particles
having at least one dimension at the nanoscale (1
–
100 nm),
which have been deliberately manufactured to have a partic-
ular size and composition or possess other specific properties
(Handy et al.
2008
; Gubbins et al.
2011
). In recent years, these
particles have increasingly been implemented in a wide spec-
trum of products and applications, including cosmetics, phar-
maceuticals, electronics, textiles, catalysts and environmental
remediation, due to their often unique and size-related prop-
erties (Handy et al.
2008
; Klaine et al.
2008
). However, the
Responsible editor: Philippe Garrigues
Electronic supplementary material
The online version of this article
(doi:10.1007/s11356-015-5708-8) contains supplementary material,
which is available to authorized users.
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Frederik Van Koetsem
frederik.vankoetsem@gmail.com
Gijs Du Laing
Gijs.DuLaing@UGent.be
1
Laboratory of Analytical Chemistry and Applied Ecochemistry,
Department of Applied Analytical and Physical Chemistry, Faculty
of Bioscience Engineering, Ghent University, Coupure Links 653,
Ghent, Belgium
2
Institute of Urban Environment, Chinese Academy of Sciences, 1799
Jimei Road, Xiamen, China
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