D
Daniel P. Taylor
Researcher at Virginia Tech
Publications - 18
Citations - 240
Daniel P. Taylor is an academic researcher from Virginia Tech. The author has contributed to research in topics: Shrimp & Eutrophication. The author has an hindex of 6, co-authored 18 publications receiving 144 citations. Previous affiliations of Daniel P. Taylor include Technical University of Denmark.
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Evaluation of bioflocs derived from confectionary food effluent water as a replacement feed ingredient for fishmeal or soy meal for shrimp
TL;DR: Results indicate the bioflocs harvested from a suspended growth biological reactor that treats food effluent water can successfully be used in shrimp diets, indicating a sustainable protein source for shrimp culture.
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Production of omega-3 enriched tilapia through the dietary use of algae meal or fish oil: Improved nutrient value of fillet and offal.
Tyler R. Stoneham,David D. Kuhn,Daniel P. Taylor,Andrew P. Neilson,Stephen A. Smith,Delbert M. Gatlin,Hyun Sik S. Chu,Sean F. O'Keefe +7 more
TL;DR: The goal of this project was to increase the nutrient value of fillets, by-product muscle, and offal of aquacultured tilapia with increasing levels of n-3 fatty acids from either fish oil or algae meal that were used to replace corn oil.
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Strain and dose infectivity of Vibrio parahaemolyticus: the causative agent of early mortality syndrome in shrimp
TL;DR: The concentration of the early mortality syndrome strain of V. parahaemolyticus that the shrimp were exposed to directly correlated with mortality rate, which allowed for lethal or sublethal short-term disease challenge assays to be established.
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Production Characteristics and Optimization of Mitigation Mussel Culture
TL;DR: This study presents for the first-time production data of mitigation mussels utilizing different configurations and technologies to maximize yield and nutrient extraction potential.
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Nitrogen removal from water of recirculating aquaculture system by a microbial fuel cell
TL;DR: The results of this study indicate that MFCs have a potential to treat RAS water with simultaneous energy recovery and a preliminary analysis of energy balance indicated that the proposed MFC could potentially achieve energy-positive RASWater treatment with a net energy production of 7.50 × 10−3 kWh m−3.