E
Ellery D. Ingall
Researcher at Georgia Institute of Technology
Publications - 79
Citations - 7344
Ellery D. Ingall is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Phosphorus & Dissolved organic carbon. The author has an hindex of 40, co-authored 75 publications receiving 6409 citations. Previous affiliations of Ellery D. Ingall include Rutgers University & Marine Science Institute.
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Sedimentary Corg:P ratios, paleocean ventilation, and Phanerozoic atmospheric pO2
Thomas J. Algeo,Ellery D. Ingall +1 more
TL;DR: In this paper, a new atmospheric pO2 model was proposed that has strong similarities to existing models based on elemental and isotopic mass balances, yet differs in some potentially significant respects.
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Benthic phosphorus regeneration, net primary production, and ocean anoxia: A model of the coupled marine biogeochemical cycles of carbon and phosphorus
TL;DR: In this paper, the relationship between ocean ventilation, primary production, water column anoxia, and benthic regeneration of phosphorus using a mass balance model of the coupled marine biogeochemical cycles of carbon (C) and phosphorus (P).
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Evidence for enhanced phosphorus regeneration from marine sediments overlain by oxygen depleted waters
TL;DR: In this article, a positive feedback linking ocean anoxia, enhanced benthic phosphorus regeneration, and marine productivity is proposed, which suggests that O2 depletion in coastal regions caused by eutrophication may enhance P regeneration from sediments, thereby providing additional P necessary for increased biological productivity.
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Influence of water column anoxia on the burial and preservation of carbon and phosphorus in marine shales
TL;DR: In this article, organic P and organic C concentrations were measured in several well-characterized Phanerozoic marine shale sequences with the primary focus being the Camp Run Member of the Devonian-Mississippian New Albany Shale.
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Total organic carbon, organic phosphorus, and biogenic barium fluxes as proxies for paleomarine productivity
Shane D. Schoepfer,Jun Shen,Jun Shen,Hengye Wei,R. V. Tyson,Ellery D. Ingall,Thomas J. Algeo,Thomas J. Algeo +7 more
TL;DR: In this paper, the accumulation rates of three commonly used proxies for productivity from a set of primarily Quaternary sediment cores at 94 marine sites, compiled from 37 published sources, were evaluated for total organic carbon, organic phosphorus, and biogenic barium (Babio).