Lecture 8 Lateral Line and Electrical Senses Flashcards
Lateral Line (3)
-Allows detection of water movements around fish “distant touch” through hydraulic medium
-used for navigation, prey detection
-sensing of low frequency sounds associated with water movement
Lateral Line (3)
-Allows detection of water movements around fish “distant touch” through hydraulic medium
-used for navigation, prey detection
-sensing of low frequency sounds associated with water movement
Specializations of lateral line (3)
-lateral lines may be displaced when fin movements influence water flow around canal or the direction of focus (up/down) is influenced by behavior
-less active, slow moving fish tend to have more free neuromasts
-canal diameter may “tune” for response to specific frequencies
Electroreception (2)
-Common in fishes EXCEPT TELEOSTS
-can be passive or active
passive electroreception (2)
-sensing electrical currents already present in the environment such as muscle activities of prey
-elasmobranchs classic example, can detect gradients of 5x10-4 millivolts / cm (generated by anything swimming in geomagnetic field)
active electroreception (3)
-sensing generated currents and their distortions
-for electrolocation (navigation & predation) & signaling
-teleosts fit this category: such as electric catfish and elephant fish
Organs of Electroreception (2)
-Ampullary of Lorenzini
-Tuberous
Ampullary of Lorenzini (3)
-conductive gel fills canal open to water
-sensory cells surround canal
-kinocilium (elasmobranchs) or microvilli (teleosts) extend into lumen of canal
tuberous (3)
-no opening to exterior
-if present, canal filled with loose epithelial cells
-more sensitive to high frequency signals
Electrical Communication in Elephant Fishes
-caudal electrical organ
-males signal to females from their mating territories with a “rasp” discharge in response to female’s EOD (electrical organ discharge)
-can discriminate signals based upon duration of pulse and waveform
