Add to ORKGWe investigate the C-start escape response of larval fish by combining flow simulations using remeshed vortex methods with an evolutionary optimization. We test the hypothesis of the optimality of C-start of larval fish by simulations of larval-shaped, two- and three-dimensional self-propelled swimmers. We optimize for the distance travelled by the swimmer during its initial bout, bounding the shape deformation based on the larval mid-line curvature values observed experimentally. The best motions identified within these bounds are in good agreement with in vivo experiments and show that C-starts do indeed maximize escape distances. Furthermore we found that motions with curvatures beyond the ones experimentally observed for larval fish may...
Escape responses of fishes are one of the best characterized vertebrate behaviors, with extensive pr...
Fast-starts are brief accelerations commonly observed in fish within the context of predator–prey in...
Fish execute a C start when they escape from a predator. Previous studies suggest that fish randomiz...
Fish larvae may intercept their own wake during sharp turns, which might affect their escape perform...
Most fish species use fast starts to escape from predators. Zebrafish larvae perform effective fast ...
Most of the world's 34,000 known fish species are undulatory swimmers. Their body undulations are pr...
Most fish species use fast starts to escape from predators. Zebrafish larvae perform effective fast ...
AbstractFast-start swimming is a very special and important type of locomotion of fish. Basically, f...
Fishes often exhibit stable body undulating in body and caudal fin (BCF) mode during cyclic swimming...
In this study, we explore mechanical constraints on the swimming performance of zebrafish larvae (Da...
Fish make C-starts to evade predator strikes. Double-bend (DB) C-starts consist of three stages: Sta...
The kinematics of turning manoeuvres and the distance-time performance in escape responses of startl...
In this work we study the hydrodynamics of a bluegill sunfish performing a C-start maneuver in unpre...
Fish make C-starts to evade predator strikes. Double-bend (DB) C-starts consist of three stages: Sta...
To understand the mechanics of fish swimming, we need to know the forces exerted by the fluid and ho...
Escape responses of fishes are one of the best characterized vertebrate behaviors, with extensive pr...
Fast-starts are brief accelerations commonly observed in fish within the context of predator–prey in...
Fish execute a C start when they escape from a predator. Previous studies suggest that fish randomiz...
Fish larvae may intercept their own wake during sharp turns, which might affect their escape perform...
Most fish species use fast starts to escape from predators. Zebrafish larvae perform effective fast ...
Most of the world's 34,000 known fish species are undulatory swimmers. Their body undulations are pr...
Most fish species use fast starts to escape from predators. Zebrafish larvae perform effective fast ...
AbstractFast-start swimming is a very special and important type of locomotion of fish. Basically, f...
Fishes often exhibit stable body undulating in body and caudal fin (BCF) mode during cyclic swimming...
In this study, we explore mechanical constraints on the swimming performance of zebrafish larvae (Da...
Fish make C-starts to evade predator strikes. Double-bend (DB) C-starts consist of three stages: Sta...
The kinematics of turning manoeuvres and the distance-time performance in escape responses of startl...
In this work we study the hydrodynamics of a bluegill sunfish performing a C-start maneuver in unpre...
Fish make C-starts to evade predator strikes. Double-bend (DB) C-starts consist of three stages: Sta...
To understand the mechanics of fish swimming, we need to know the forces exerted by the fluid and ho...
Escape responses of fishes are one of the best characterized vertebrate behaviors, with extensive pr...
Fast-starts are brief accelerations commonly observed in fish within the context of predator–prey in...
Fish execute a C start when they escape from a predator. Previous studies suggest that fish randomiz...