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Danny D. Reible
Researcher at Texas Tech University
Publications - 273
Citations - 5185
Danny D. Reible is an academic researcher from Texas Tech University. The author has contributed to research in topics: Sediment & Environmental remediation. The author has an hindex of 38, co-authored 255 publications receiving 4548 citations. Previous affiliations of Danny D. Reible include Louisiana State University & University of Cambridge.
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Convective transport within stable river sediments
TL;DR: In this article, the influence of localized pressure variation on contaminant transport processes within the sediment was examined and numerical modeling of the in-bed flow via boundary element methods was also undertaken in order to predict convective transport under typical field conditions.
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Contaminant fluxes from sediment due to tubificid oligochaete bioturbation
Danny D. Reible,V. Popov,Kalliat T. Valsaraj,Louis J. Thibodeaux,F. Lin,M. Dikshit,M.A. Todaro,John W. Fleeger +7 more
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Passive sampling methods for contaminated sediments: Practical guidance for selection, calibration, and implementation
Upal Ghosh,Susan Kane Driscoll,Robert M. Burgess,Michiel T. O. Jonker,Danny D. Reible,Frank A. P. C. Gobas,Yongju Choi,Sabine E. Apitz,Keith A. Maruya,William R. Gala,Munro Mortimer,Chris Beegan +11 more
TL;DR: Practical guidance on the use of passive sampling methods that target the freely dissolved concentration (Cfree) for improved exposure assessment of hydrophobic organic chemicals in sediments is provided, providing a sound scientific basis to support risk assessment and contaminated sediment management decisions.
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Regional Variation in Water-Related Impacts of Shale Gas Development and Implications for Emerging International Plays
Meagan S. Mauter,Pedro J. J. Alvarez,Allen Burton,Diego Carlos Cafaro,Wei Chen,Kelvin B. Gregory,Guibin Jiang,Qilin Li,Jamie Pittock,Danny D. Reible,Jerald L. Schnoor +10 more
TL;DR: The variation in regional water issues associated with shale gas development in the U.S. and the approaches of various states in mitigating these impacts are highlighted.
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Mathematical model for interactions and transport of phosphorus and sediment in the Three Gorges Reservoir
TL;DR: Results show that the proposed model can reasonably reflect the phosphorus transport with sediment, and management scenarios that influence sediment retention will also influence the phosphorus balance in the TGR.