Climate-Biogeochemistry Interactions in the Tropical Ocean: Data Collection and Legacy
Gerd Krahmann,Damian L. Arevalo-Martinez,Andrew W. Dale,Marcus Dengler,Anja Engel,Nicolaas Glock,Nicolaas Glock,Patricia Grasse,Johannes Hahn,Helena Hauss,Mark J. Hopwood,Rainer Kiko,Alexandra N. Loginova,Alexandra N. Loginova,Carolin R. Löscher,Marie Maßmig,Alexandra Sophie Roy,Renato Salvatteci,Stefan Sommer,Toste Tanhua,Hela Mehrtens +20 more
TL;DR: The SFB 754 project as mentioned in this paper investigated the climate-biogeochemistry interactions in the tropical ocean with a particular emphasis on the processes determining the oxygen distribution, and collected a wealth of physical, biological, chemical, and meteorological data.
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Abstract: From 2008 through 2019, a comprehensive research project, SFB 754, Climate - Biogeochemistry Interactions in the Tropical Ocean, was funded by the German Research Foundation to investigate the climate-biogeochemistry interactions in the tropical ocean with a particular emphasis on the processes determining the oxygen distribution. During three 4-year long funding phases, a consortium of more than 150 scientists conducted or participated in 34 major research cruises and collected a wealth of physical, biological, chemical, and meteorological data. A common data policy agreed upon at the initiation of the project provided the basis for the open publication of all data. Here we provide an inventory of this unique data set and briefly summarize the various data acquisition and processing methods used.
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Citations
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Pathways of Nitrous Oxide Production in the Eastern Tropical South Pacific Oxygen Minimum Zone
09 Dec 2022
TL;DR: In this article , a new mechanistic model of the oxygen minimum zones (OMZ) nitrogen cycle within a three-dimensional eddy-resolving physical-biogeochemical model was presented, tracking contributions from remote advection, atmospheric exchange and local nitrification and denitrification.
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