3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology.
Morphological adaptations that enhance swimming efficiency in fish have evolved over millions of years driven by the requirement to combine hydrodynamic efficiency with functional biology. Body induced vortices and the flow regime surrounding mature male blue sharks, Prionace glauca, are investigate...
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SAMSS
2008
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| Online Access: | https://eprint.ncl.ac.uk/fulltext.aspx?url=55586/4DE3D873-7DF8-420A-A780-0249F0B9D955.pdf&pub_id=8078 |
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ftunivnewcastle:oai:eprint.ncl.ac.uk:8078 |
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ftunivnewcastle:oai:eprint.ncl.ac.uk:8078 2023-05-15T17:35:06+02:00 3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology. Smith THE Caldwell GS 29 June - 3 July 2008 application/pdf https://eprint.ncl.ac.uk/fulltext.aspx?url=55586/4DE3D873-7DF8-420A-A780-0249F0B9D955.pdf&pub_id=8078 unknown SAMSS 13th Southern African Marine Science Symposium, 29 June - 3 July 2008 Conference proceedings 2008 ftunivnewcastle 2020-06-11T22:29:35Z Morphological adaptations that enhance swimming efficiency in fish have evolved over millions of years driven by the requirement to combine hydrodynamic efficiency with functional biology. Body induced vortices and the flow regime surrounding mature male blue sharks, Prionace glauca, are investigated in relation to the functional biology of the animal. Morphology was described using measurements from 5 North Atlantic specimens and the flow around these specimens was investigated using 3-dimensional computational fluid dynamics software (FluentTM). A k-epsilon turbulent model was used to represent the ocean flow regime and a number of different models represented the shark morphology (in order to reduce error induced by software limitations). Compared to control models (horizontal cylinders) the P. glauca body morphology increased the flow velocity on the body surface. The region around the gill slits showed a maximum relative velocity magnitude (increasing oxygen uptake efficiency) and the area of the lateral line adjacent to the dorsal fin showed the minimum. The effect of the dorsal fin on the flow regime was investigated using dorsal section models with and without the dorsal fin attached (and similar, half cylinder controls). The vorticity magnitude seemed to be enhanced by dorsal fin-body interactions along the adjacent section of lateral line. The results suggest that P. glauca body morphology acts to channel vortices along the lateral line, at a reduced relative velocity magnitude. This may allow for a greater abundance of superficial neuromasts and facilitate body-induced flow cancellation by the octavolateral nucleus, thereby enhancing the sensitivity of the lateral line in the low frequency range and enabling P. glauca to locate ambient water currents, such as the Gulf Stream, during migrations. Conference Object North Atlantic Newcastle University Library ePrints Service |
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Open Polar |
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Newcastle University Library ePrints Service |
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ftunivnewcastle |
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unknown |
| description |
Morphological adaptations that enhance swimming efficiency in fish have evolved over millions of years driven by the requirement to combine hydrodynamic efficiency with functional biology. Body induced vortices and the flow regime surrounding mature male blue sharks, Prionace glauca, are investigated in relation to the functional biology of the animal. Morphology was described using measurements from 5 North Atlantic specimens and the flow around these specimens was investigated using 3-dimensional computational fluid dynamics software (FluentTM). A k-epsilon turbulent model was used to represent the ocean flow regime and a number of different models represented the shark morphology (in order to reduce error induced by software limitations). Compared to control models (horizontal cylinders) the P. glauca body morphology increased the flow velocity on the body surface. The region around the gill slits showed a maximum relative velocity magnitude (increasing oxygen uptake efficiency) and the area of the lateral line adjacent to the dorsal fin showed the minimum. The effect of the dorsal fin on the flow regime was investigated using dorsal section models with and without the dorsal fin attached (and similar, half cylinder controls). The vorticity magnitude seemed to be enhanced by dorsal fin-body interactions along the adjacent section of lateral line. The results suggest that P. glauca body morphology acts to channel vortices along the lateral line, at a reduced relative velocity magnitude. This may allow for a greater abundance of superficial neuromasts and facilitate body-induced flow cancellation by the octavolateral nucleus, thereby enhancing the sensitivity of the lateral line in the low frequency range and enabling P. glauca to locate ambient water currents, such as the Gulf Stream, during migrations. |
| format |
Conference Object |
| author |
Smith THE Caldwell GS |
| spellingShingle |
Smith THE Caldwell GS 3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology. |
| author_facet |
Smith THE Caldwell GS |
| author_sort |
Smith THE |
| title |
3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology. |
| title_short |
3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology. |
| title_full |
3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology. |
| title_fullStr |
3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology. |
| title_full_unstemmed |
3-dimensional computational assessment of the fluid flow around coasting mature male Prionace glauca (Linnaeus, 1758) with respect to functional biology. |
| title_sort |
3-dimensional computational assessment of the fluid flow around coasting mature male prionace glauca (linnaeus, 1758) with respect to functional biology. |
| publisher |
SAMSS |
| publishDate |
2008 |
| url |
https://eprint.ncl.ac.uk/fulltext.aspx?url=55586/4DE3D873-7DF8-420A-A780-0249F0B9D955.pdf&pub_id=8078 |
| genre |
North Atlantic |
| genre_facet |
North Atlantic |
| op_source |
13th Southern African Marine Science Symposium, 29 June - 3 July 2008 |
| _version_ |
1766134149110824960 |