lateral line is a line on the fish body that function to detect vibrations in water
A sense organ that detects changes in water
To detect presure and vibrations
Scales on the lateral line allow fish to feel what is going on around them.
The lateral line is a sense organ found in fish. It uses hair cells to detect movement and vibration in the surrounding water.
lateral line systemThe lateral line system allows many fish to detect currents and vibrations, as well as to sense the motion of other nearby fish and preyi have included two URL links for you to look at that should answer all you need to know hope this helps !! http://en.wikipedia.org/wiki/Lateral_line_systemhttp://en.wikipedia.org/wiki/Fish#Sensory_and_nervous_system
The lateral line is on the side of the shark
Near the top of the arch and the dorsal fins, it is quiet noticeable.
The lateral line belongs to the lateral line system. This helps to stream line fish in water and to keep them afloat.
Dolphins have lateral line other than a fish.
One structure that does both of these is called the LATERAL LINE.
The organ is the 'Lateral line' (Composed of Neuromasts) .
Lateral Line.
Lateral line system means an aquatic organs sense system found in fish
A lateral line system is an organ in the sensory system that allows fish to sense objects and organisms nearby them through vibrations in the water.
Scales on the lateral line allow fish to feel what is going on around them.
the lateral line of a fish is a sensory organ,picking up vibration in the water,alerting fish to danger or prey.
The lateral line is a sense organ found in fish. It uses hair cells to detect movement and vibration in the surrounding water.
The lateral line is a sense organ found in fish. It uses hair cells to detect movement and vibration in the surrounding water.
The lateral line is a system of sense organs; neuromasts situated along/in the lateral line detect movement and vibration in water. The system is important in schooling and predatory behaviour, as well as in general for spatial awareness. It allows detection of movement outside of the range of vision, or in conditions that reduce visibility. Blind fish will orientate towards movement in the same way as fish that are able to see, but disruption of the lateral line also disrupts the response to movement.