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Brad A. Seibel
Researcher at University of South Florida St. Petersburg
Publications - 107
Citations - 9422
Brad A. Seibel is an academic researcher from University of South Florida St. Petersburg. The author has contributed to research in topics: Hypoxia (environmental) & Ocean acidification. The author has an hindex of 38, co-authored 105 publications receiving 7870 citations. Previous affiliations of Brad A. Seibel include University of South Florida & University of Rhode Island.
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Impacts of ocean acidification on marine fauna and ecosystem processes
TL;DR: Fabry et al. as discussed by the authors presented new observations, reviewed available data, and identified priorities for future research, based on regions, ecosystems, taxa, and physiological processes believed to be most vulnerable to ocean acidification.
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Declining oxygen in the global ocean and coastal waters.
Denise L. Breitburg,Lisa A. Levin,Andreas Oschlies,Marilaure Grégoire,Francisco P. Chavez,Daniel J. Conley,Véronique Garçon,Denis Gilbert,Dimitri Gutiérrez,Kirsten Isensee,Gil S. Jacinto,Karin E. Limburg,Ivonne Montes,S. W. A. Naqvi,Grant C. Pitcher,Grant C. Pitcher,Nancy N. Rabalais,Michael R. Roman,Kenneth A. Rose,Brad A. Seibel,Maciej Telszewski,Moriaki Yasuhara,Jing Zhang +22 more
TL;DR: Improved numerical models of oceanographic processes that control oxygen depletion and the large-scale influence of altered biogeochemical cycles are needed to better predict the magnitude and spatial patterns of deoxygenation in the open ocean, as well as feedbacks to climate.
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Climate change tightens a metabolic constraint on marine habitats
TL;DR: The combined effects of warming and O2 loss this century are projected to reduce the upper ocean’s metabolic index by ~20% globally and by ~50% in northern high-latitude regions, forcing poleward and vertical contraction of metabolically viable habitats and species ranges.
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Life at stable low oxygen levels: adaptations of animals to oceanic oxygen minimum layers
TL;DR: Given the stable presence of very low O2 levels in the minima, the primary adaptations of animals living within them are those that support aerobic metabolism by giving the animals remarkable abilities to extract O2 from water.
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Synergistic effects of climate-related variables suggest future physiological impairment in a top oceanic predator
Rui Rosa,Brad A. Seibel +1 more
TL;DR: It is demonstrated that the synergism between ocean acidification, global warming, and expanding hypoxia will compress the habitable depth range of the jumbo squid, and these interactions may ultimately define the long-term fate of this commercially and ecologically important predator.