Водная экология, секция гидробиологии МОИП, гидроэкология, лимнология, биологическая океанография, экотоксикология / aquatic ecology, limnology, biological oceanography, ecotoxicology
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Цитирование статьи МГУ (совместная работа с учеными Англии) в Канаде и Норвегии. Canada, Norway, citation
мар 31, 2023 | 19:03
Цитирование статьи МГУ (совместная работа с учеными Англии) в Канаде и Норвегии.
Canada, Norway, citation of aquatic ecotoxicology research of MSU (Moscow Univ.) and Plymouth Marine Lab (U.K.),
this Russian-British article was cited:
Ostroumov S.A., Widdows J. Inhibition of mussel suspension feeding by surfactants of three classes. Hydrobiologia. https://www.academia.edu/1892796/ ;
5bio5.blogspot.com/2016/08/canada-norway-new-recent-citation-of.html ;
Canada, Norway, New recent citation of works of Sergei Ostroumov and J. Widdows (a joint Russian-British research project).
The article that was cited:
Ostroumov SA, Widdows J (2006) Inhibition of mussel suspension feeding by surfactants of three classes. Hydrobiologia 556: 381−386; https://www.academia.edu/1892796/ ;
DOI: 10.1007/s10750-005-1200-7;
Full text free:
https://www.researchgate.net/publication/215586803;
This article (Ostroumov, Widdows, 2006) was cited in:
[PDF] Potential methodological influences on the determination of particle retention efficiency by suspension feeders: Mytilus edulis and Ciona intestinalis;
PJ Cranford, T Strohmeier, R Filgueira, Ø Strand — Aquatic Biology, 2016;
AQUATIC BIOLOGY, Aquat Biol ,Vol. 25: 61–73, 2016; doi: 10.3354/ab00660;
Published August 10 INTRODUCTION Dense populations of wild and cultured bivalve
molluscs can play an important role in coastal marine ...;
**
Author affiliation in Canada and Norway:
Peter J. Cranford1,*, Tore Strohmeier2, Ramon Filgueira3, Øivind Strand2;
1 Department of Fisheries and Oceans, Bedford Institute of Oceanography, 1 Challenger Dr., Dartmouth, Nova Scotia B2Y 4A2, Canada;
2 Institute of Marine Research, PO Box 1870 Nordnes, 5817 Bergen, Norway;
3 Marine Affairs Program, Dalhousie University, 1355 Oxford St., Halifax, Nova Scotia B3H 1R2, Canada;
**
ABSTRACT of the paper ( Cranford et al, 2016):
The retention efficiency (RE) of suspension-feeding bivalve molluscs depends on particle size and is generally assumed to decline below a maximum retention of particles larger than 3 to 7 μm. Previous suggestions that the RE spectrum of mussels Mytilus edulis can exhibit variability, possibly as a result of physiological regulation, have been attributed to artifacts associated with the indirect method. The possibility that variable physical properties of seston particles and/or miscalculations can result in inaccurate RE measurements was examined using 3 methodologies (static, flow-through and a new approach based on the static method) and 3 particle sources (natural seston, algal cell monocultures and clay). Measurements obtained with the static method varied depending on the selected sampling interval. However, this artifact can be removed using frequent sampling and a regression analysis approach. Accurate RE measurements can be obtained with the flow-through method when feeding behaviour is flow independent. For all particle suspensions and methods, mussels from the study site in Lysefjord, Norway, had a maximum RE for particles >8–11 μm (1 to 5 September 2015). The RE for smaller particles declined gradually, with 50–60% retention of 4 μm particles and 30–40% retention of 2 μm particles. Differences in the RE size spectra of mussels and tunicates Ciona intestinalis, collected and measured at the same site, further indicated that RE was not influenced by potentially confounding methodological factors. Assumptions regarding the RE spectrum of bi valves have contributed to many conclusions on their ecosystem interactions. The reliability of clearance rate measurements obtained using the indirect method can only be assured if the effective retention of tracer particles is confirmed and not assumed.
KEYWORDS: Filter feeding, Retention efficiency, Clearance rate, Mytilus edulis, Ciona intestinalis, Physiological regulation, Feeding mechanism,
**
Keywords:
aquatic ecology,
marine ecology,
filter feeders,
suspension feeders,
bivalves,
Mollusca,
marine mussels,
Mytilus edulis,
Ciona intestinalis,
water filtration,
water quality,
Particle clearance rate, CR,
retention efficiency (RE),
Canada, Norway, citation of aquatic ecotoxicology research of MSU (Moscow Univ.) and Plymouth Marine Lab (U.K.),
this Russian-British article was cited:
Ostroumov S.A., Widdows J. Inhibition of mussel suspension feeding by surfactants of three classes. Hydrobiologia. https://www.academia.edu/1892796/ ;
5bio5.blogspot.com/2016/08/canada-norway-new-recent-citation-of.html ;
Canada, Norway, New recent citation of works of Sergei Ostroumov and J. Widdows (a joint Russian-British research project).
The article that was cited:
Ostroumov SA, Widdows J (2006) Inhibition of mussel suspension feeding by surfactants of three classes. Hydrobiologia 556: 381−386; https://www.academia.edu/1892796/ ;
DOI: 10.1007/s10750-005-1200-7;
Full text free:
https://www.researchgate.net/publication/215586803;
This article (Ostroumov, Widdows, 2006) was cited in:
[PDF] Potential methodological influences on the determination of particle retention efficiency by suspension feeders: Mytilus edulis and Ciona intestinalis;
PJ Cranford, T Strohmeier, R Filgueira, Ø Strand — Aquatic Biology, 2016;
AQUATIC BIOLOGY, Aquat Biol ,Vol. 25: 61–73, 2016; doi: 10.3354/ab00660;
Published August 10 INTRODUCTION Dense populations of wild and cultured bivalve
molluscs can play an important role in coastal marine ...;
**
Author affiliation in Canada and Norway:
Peter J. Cranford1,*, Tore Strohmeier2, Ramon Filgueira3, Øivind Strand2;
1 Department of Fisheries and Oceans, Bedford Institute of Oceanography, 1 Challenger Dr., Dartmouth, Nova Scotia B2Y 4A2, Canada;
2 Institute of Marine Research, PO Box 1870 Nordnes, 5817 Bergen, Norway;
3 Marine Affairs Program, Dalhousie University, 1355 Oxford St., Halifax, Nova Scotia B3H 1R2, Canada;
**
ABSTRACT of the paper ( Cranford et al, 2016):
The retention efficiency (RE) of suspension-feeding bivalve molluscs depends on particle size and is generally assumed to decline below a maximum retention of particles larger than 3 to 7 μm. Previous suggestions that the RE spectrum of mussels Mytilus edulis can exhibit variability, possibly as a result of physiological regulation, have been attributed to artifacts associated with the indirect method. The possibility that variable physical properties of seston particles and/or miscalculations can result in inaccurate RE measurements was examined using 3 methodologies (static, flow-through and a new approach based on the static method) and 3 particle sources (natural seston, algal cell monocultures and clay). Measurements obtained with the static method varied depending on the selected sampling interval. However, this artifact can be removed using frequent sampling and a regression analysis approach. Accurate RE measurements can be obtained with the flow-through method when feeding behaviour is flow independent. For all particle suspensions and methods, mussels from the study site in Lysefjord, Norway, had a maximum RE for particles >8–11 μm (1 to 5 September 2015). The RE for smaller particles declined gradually, with 50–60% retention of 4 μm particles and 30–40% retention of 2 μm particles. Differences in the RE size spectra of mussels and tunicates Ciona intestinalis, collected and measured at the same site, further indicated that RE was not influenced by potentially confounding methodological factors. Assumptions regarding the RE spectrum of bi valves have contributed to many conclusions on their ecosystem interactions. The reliability of clearance rate measurements obtained using the indirect method can only be assured if the effective retention of tracer particles is confirmed and not assumed.
KEYWORDS: Filter feeding, Retention efficiency, Clearance rate, Mytilus edulis, Ciona intestinalis, Physiological regulation, Feeding mechanism,
**
Keywords:
aquatic ecology,
marine ecology,
filter feeders,
suspension feeders,
bivalves,
Mollusca,
marine mussels,
Mytilus edulis,
Ciona intestinalis,
water filtration,
water quality,
Particle clearance rate, CR,
retention efficiency (RE),
