Buoyancy-dependent induced flow by vertically migrating swimmers
Authors
Nina Mohebbi, John O. Dabiri
Categories
Abstract
Collective vertical migrations of negatively buoyant swimmers can drive large-scale fluid transport. In the ocean, zooplankton migrate over vertical distances several orders of magnitude larger than their body length. These swimmers experience changes in their buoyancy relative to the stably stratified ocean water column. The impact of net swimmer buoyancy on the scale of aggregate-scale induced flows remains unresolved. We hypothesize that as the net buoyancy of swimmers becomes increasingly negative the speed of induced flow in the opposite direction of swimming will increase due to changes in the required force to swim upward and thus the momentum imparted on the surrounding fluid. Simultaneous three-dimensional swimmer tracking and two-dimensional two-component flow measurements are used to measure the flow induced by collective vertical migration of Artemia salina. Experiments were designed to modulate the buoyant force on the swimmers by changing environmental salinity. Experimental results supported the hypothesis and were used to develop a theoretical model, which was then used to contextualize results to ocean relevant conditions with non-dimensional analysis.
Buoyancy-dependent induced flow by vertically migrating swimmers
Categories
Abstract
Collective vertical migrations of negatively buoyant swimmers can drive large-scale fluid transport. In the ocean, zooplankton migrate over vertical distances several orders of magnitude larger than their body length. These swimmers experience changes in their buoyancy relative to the stably stratified ocean water column. The impact of net swimmer buoyancy on the scale of aggregate-scale induced flows remains unresolved. We hypothesize that as the net buoyancy of swimmers becomes increasingly negative the speed of induced flow in the opposite direction of swimming will increase due to changes in the required force to swim upward and thus the momentum imparted on the surrounding fluid. Simultaneous three-dimensional swimmer tracking and two-dimensional two-component flow measurements are used to measure the flow induced by collective vertical migration of Artemia salina. Experiments were designed to modulate the buoyant force on the swimmers by changing environmental salinity. Experimental results supported the hypothesis and were used to develop a theoretical model, which was then used to contextualize results to ocean relevant conditions with non-dimensional analysis.
Authors
Nina Mohebbi, John O. Dabiri
Click to preview the PDF directly in your browser