vibrations and pressure changes
lateral line is a line on the fish body that function to detect vibrations in water
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
The lateral line is a sensory system found in aquatic vertebrates, such as fish, which helps them detect changes in water pressure and movement. It consists of a series of small sensory organs called neuromasts located along the sides of the fish's body. This system helps fish navigate, detect prey, and communicate with other fish.
Amphibians like frogs and salamanders also have a lateral line system, which helps them to detect movement and changes in water pressure in their aquatic environment. Some invertebrates like crayfish and certain insects also have a lateral line system for sensing vibrations in water.
The lateral line provides a fish's sense of hearing and orientation. it contains a complex system of receptors that convert mechanical disturbances or submarine vibrations into nerve impulses. Essentially, it is a fish's underwater ears.
The lateral line in a perch fish is a visible line that runs along its side from the gills to the tail. It is a sensory organ that helps the fish detect changes in water pressure and movement, allowing them to navigate, school, and detect prey or predators in their environment.
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.
The lateral line belongs to the lateral line system. This helps to stream line fish in water and to keep them afloat.
They do not have a lateral line but at least some have a lateral line analogue, the epidermal head lines, that are compromised of mechanosensory hair cells and detect water displacement (Budelmann & Bleckmann 1988, J Comp Physiol A)
A swim bladder is an internal gas-filled organ that helps fish control their buoyancy, while a lateral line is a system of sensory organs along the sides of a fish that detects changes in water pressure and vibrations, helping fish sense their surroundings and detect movement.
Fish have a sense called the lateral line, which allows them to detect vibrations and changes in water pressure. This sense helps them navigate, communicate, and detect prey or predators in their environment. Humans do not have this sense.