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Andrew J. Gooday
Researcher at National Oceanography Centre
Publications - 233
Citations - 16367
Andrew J. Gooday is an academic researcher from National Oceanography Centre. The author has contributed to research in topics: Foraminifera & Benthic zone. The author has an hindex of 59, co-authored 221 publications receiving 14737 citations. Previous affiliations of Andrew J. Gooday include National Oceanography Centre, Southampton & University of Geneva.
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Journal ArticleDOI
Deep-Sea Biodiversity in the Mediterranean Sea: The Known, the Unknown, and the Unknowable
Roberto Danovaro,Cinzia Corinaldesi,Gianfranco D'Onghia,Bella S. Galil,Cristina Gambi,Andrew J. Gooday,Nikolaos Lampadariou,Gian Marco Luna,Caterina Morigi,Karine Olu,Paraskevi N. Polymenakou,Eva Ramirez-Llodra,Anna Sabbatini,Francesc Sardà,Myriam Sibuet,Anastasios Tselepides +15 more
TL;DR: It is shown that in contrast to what was expected from the sharp decrease in organic carbon fluxes and reduced faunal abundance, the deep-sea biodiversity of both the eastern and the western basins of the Mediterranean Sea is similarly high.
Phytodetritus on the deep-sea floor in a central oceanic region of the northeast Atlantic
Hjalmar Thiel,Olaf Pfannkuche,G. Schrieber,Karin Lochte,Andrew J. Gooday,Christoph Hemleben,R. F. G. Mantoura,Carol Turley,John W. Patching,Franz Riemann +9 more
Journal ArticleDOI
Phytodetritus on the deep-sea floor in a central oceanic region of the Northeast Atlantic
Hjalmar Thiel,Olaf Pfannkuche,Gerd Schriever,Karin Lochte,Andrew J. Gooday,Christoph Hemleben,R. F. G. Mantoura,Carol Turley,John W. Patching,F. Riemann +9 more
TL;DR: In a midoceanic region of the northeast Atlantic, patches of freshly deposited phytodetritus were discovered on the sea floor at a 4500 m depth in July/August 1986 as mentioned in this paper.
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The biology of deep-sea foraminifera; a review of some advances and their applications in paleoceanography
TL;DR: Foraminifera commonly dominate ocean-floor eukaryotic communities and are the most abundant benthic organisms to be preserved in the post-Paleozoic deep-sea fossil record as discussed by the authors.
Journal ArticleDOI
Biological responses to seasonally varying fluxes of organic matter to the ocean floor: a review
TL;DR: Long time-series datasets suggest that inter-annual variability in the intensity, timing and composition of flux maxima is normal, and that seasonal benthic responses to pulsed food inputs are apparently widespread on the ocean floor, but are not ubiquitous.