John O. Dabiri

Renewable fluid dynamic energy derived from aquatic animal locomotion.

An overview of a Lagrangian method for analysis of animal wake dynamics.

The 'upstream wake' of swimming and flying animals and its correlation with propulsive efficiency.

A viscosity-enhanced mechanism for biogenic ocean mixing.

A Lagrangian approach to identifying vortex pinch-off.

Fish schooling as a basis for vertical axis wind turbine farm design.

Stealth predation and the predatory success of the invasive ctenophore Mnemiopsis leidyi.

Ecosystem engineers in the pelagic realm: alteration of habitat by species ranging from microbes to jellyfish.

Lagrangian coherent structures in low Reynolds number swimming.

Sensitivity analysis of kinematic approximations in dynamic medusan swimming models.

Flow patterns generated by oblate medusan jellyfish: field measurements and laboratory analyses.

The role of optimal vortex formation in biological fluid transport.

On the estimation of swimming and flying forces from wake measurements.

Optimal vortex formation as an index of cardiac health.

Fast-swimming hydromedusae exploit velar kinematics to form an optimal vortex wake.

Non-invasive measurement of instantaneous forces during aquatic locomotion: a case study of the bluegill sunfish pectoral fin.

Morphological diversity of medusan lineages constrained by animal-fluid interactions.