D
Dmitry Aleynik
Researcher at Scottish Association for Marine Science
Publications - 41
Citations - 1173
Dmitry Aleynik is an academic researcher from Scottish Association for Marine Science. The author has contributed to research in topics: Biological dispersal & Benthic zone. The author has an hindex of 15, co-authored 36 publications receiving 965 citations. Previous affiliations of Dmitry Aleynik include University of Plymouth & Marine Institute of Memorial University of Newfoundland.
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Journal ArticleDOI
Cascades of dense water around the world ocean
Vladimir Ivanov,Georgy Shapiro,Georgy Shapiro,John M. Huthnance,Dmitry Aleynik,P. N. Golovin +5 more
TL;DR: In this paper, an extensive inventory of observed cases of water cascades around the World Ocean, summarises their locations and individual properties, and provides statistics of the identified cases, including 25 confirmed cases in the Arctic seas, 12 at mid-latitudes, seven in sub-tropical and tropical regions, and 17 off the Antarctic shelves.
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Investigating hypoxia in aquatic environments: diverse approaches to addressing a complex phenomenon
Jana Friedrich,Felix Janssen,Felix Janssen,Dmitry Aleynik,Hermann W. Bange,N. Boltacheva,M.N. Çağatay,Andrew W. Dale,Giuseppe Etiope,Giuseppe Etiope,Zeynep Erdem,Zeynep Erdem,Maria Geraga,Adrian Gilli,M. T. Gomoiu,Per O. J. Hall,Daniel Hansson,Yunchang He,Moritz Holtappels,Mathias K. Kirf,Mikhail Kononets,Sergey Konovalov,Anna Lichtschlag,Anna Lichtschlag,David M. Livingstone,Giuditta Marinaro,Sofia A. Mazlumyan,Sebastian Naeher,Sebastian Naeher,Ryan P. North,George Papatheodorou,Olaf Pfannkuche,Ralf D. Prien,Gregor Rehder,Carsten J. Schubert,Thomas Soltwedel,Stefan Sommer,Henrik Stahl,Emil V. Stanev,A. Teaca,Anders Tengberg,Christoph Waldmann,Bernhard Wehrli,Frank Wenzhöfer,Frank Wenzhöfer +44 more
TL;DR: In this article, the authors provide an overview of new knowledge on oxygen depletion (hypoxia) and related phenomena in aquatic systems resulting from the EU-FP7 project HYPOX (http://www.hypox.net).
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Offshore marine renewable energy devices as stepping stones across biogeographical boundaries
TL;DR: This work used coupled biological and hydrodynamic models to investigate the spread of intertidal marine organisms with pelagic larvae in the region around south-western Scotland, and assessed the impact of novel habitat on dispersal and its role in allowing transgression of physical barriers.
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Impact of remotely generated eddies on plume dispersion at abyssal mining sites in the Pacific
TL;DR: Observations show that the low-energy environment more than four kilometres below the surface ultimately becomes an order of magnitude more energetic for periods of weeks in response to the passage of mesoscale eddies.
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A high resolution hydrodynamic model system suitable for novel harmful algal bloom modelling in areas of complex coastline and topography
TL;DR: A novel hydrodynamic model of the coastal waters to the west of Scotland that is based on unstructured finite volume methodology, providing a sufficiently high resolution hydrodynamical structure to realistically simulate the transport of particles within nearshore waters where aquaculture sites are sited is presented.