Ad. J. Kalmijn scite author profile

Abstract. Acoustic telemetry was used to follow 22 blue sharks, Prionace glauca (Linnaeus), over the continental shelf and slope in the region between George's Bank and Cape Hatteras between 1979 and 1986. The sharks frequently made vertical excursions between the surface and depths of several hundred meters. The oscillations, which were repeated every few hours, were largest in the daytime and were smaller in amplitude and confined to depths near the thermocline at night. This behavior was prominent in trials from August through March, but was not seen from June through July. Diving is discussed in terms of a hunting tactic and behavioral thermoregulation. Most of the sharks moved in a southeasterly direction from the release point and many maintained a constant course day and night for several days. The sharks may orient to the earth's magnetic field, or to the ocean's electric fields, allowing them to swim on a constant heading in the absence of celestial cues. These possibilities are discussed in the appendix.

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The Detection of Electric Fields from Inanimate and Animate Sources Other Than Electric Organs

Kalmijn

1974

255

277

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Electric and Magnetic Field Detection in Elasmobranch Fishes

Kalmijn

1982

Science

404

251

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Sharks, skates, and rays receive electrical information about the positions of their prey, the drift of ocean currents, and their magnetic compass headings. At sea, dogfish and blue sharks were observed to execute apparent feeding responses to dipole electric fields designed to mimic prey. In training experiments, stingrays showed the ability to orient relative to uniform electric fields similar to those produced by ocean currents. Voltage gradients of only 5 nanovolts per centimeter would elicit either behavior.

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Functional Evolution of Lateral Line and Inner Ear Sensory Systems

Kalmijn¹

1989

170

154

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Ad. J. Kalmijn

Hydrodynamic and Acoustic Field Detection

Movements of blue sharks (Prionace glauca) in depth and course

The Detection of Electric Fields from Inanimate and Animate Sources Other Than Electric Organs

Electric and Magnetic Field Detection in Elasmobranch Fishes

Functional Evolution of Lateral Line and Inner Ear Sensory Systems

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