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Daniel J. Repeta
Researcher at Woods Hole Oceanographic Institution
Publications - 100
Citations - 7783
Daniel J. Repeta is an academic researcher from Woods Hole Oceanographic Institution. The author has contributed to research in topics: Dissolved organic carbon & Organic matter. The author has an hindex of 41, co-authored 95 publications receiving 6832 citations.
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Journal ArticleDOI
Dissolved organic matter in the ocean. A controversy stimulates new insights
TL;DR: In this article, the authors published a paper entitled "Oceanography 22 no. 4 (2009): 202-211", which was the first publication of the Oceanography 22 journal.
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Seasonal and Annual Fluxes of Nutrients and Organic Matter from Large Rivers to the Arctic Ocean and Surrounding Seas
Robert M. Holmes,James W. McClelland,Bruce J. Peterson,Suzanne E. Tank,Ekaterina Bulygina,Timothy I. Eglinton,Viacheslav Gordeev,Tatiana Yu. Gurtovaya,Peter A. Raymond,Daniel J. Repeta,Robin Staples,Robert G. Striegl,Alexander V. Zhulidov,Sergey A. Zimov +13 more
TL;DR: In this article, seasonal and annual constituent fluxes have been determined using consistent sampling and analytical methods at the pan-Arctic scale and consequently provide the best available estimates for constituent flux from land to the Arctic Ocean and surrounding seas.
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A major biopolymeric component to dissolved organic carbon in surface sea water
TL;DR: In this paper, the chemical characterization of macromolecular organic carbon (DOC) at several sites in the Atlantic and Pacific oceans is reported, and it is shown that a significant fraction of DOC in sea surface water consists of structurally related and biosynthetically derived acyl oligosaccharides that persist after more labile organic matter has been degraded.
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Microbial community transcriptomes reveal microbes and metabolic pathways associated with dissolved organic matter turnover in the sea
Jay McCarren,Jamie W. Becker,Daniel J. Repeta,Yanmei Shi,Curtis R. Young,Rex R. Malmstrom,Sallie W. Chisholm,Edward F. DeLong +7 more
TL;DR: The data indicated specific resource partitioning of DOM by different bacterial species, which results in a temporal succession of taxa, metabolic pathways, and chemical transformations associated with HMWDOM turnover, suggesting that coordinated, cooperative activities of a variety of bacterial “specialists” may be critical in the cycling of marine DOM, emphasizing the importance of microbial community dynamics in the global carbon cycle.
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The relationship between δ13C of organic matter and [CO2(aq)] in ocean surface water: Data from a JGOFS site in the northeast Atlantic Ocean and a model
TL;DR: It is shown that under a constant phytoplankton demand for CO2 an inverse, nonlinear SPOM delta 13C response to ambient [CO2(aq)] is expected, unlike the negative linear relationships indicated by data from the NABE Site and or from Southern Hemisphere waters.