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AIR BLADDER-FUNCTIONS.pptx

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Fish has a air bladder system ,its a sac containing gas especially air .it provide buoyancy to the fish and help them to stay and swim in water current swimming. It include air bladder and its function and also focus to weberian ossicles and its function.

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AIR BLADDER-FUNCTIONS & WEBERIAN OSSICLES BY, SWATHILAKSHMI PS OST-2021-20-26
WHAT IS AIR BLADDER? • An air filled sac • Lying above the alimentary canal in bony fishes • That regulates buoyancy at different depth by a variation in the pressure of the air
ROLE OF SWIM BLADDER • In most of the fishes a characteristic sac-like structure is present between the gut and the kidneys. • The swim-bladder occupies the same position as the lungs of higher vertebrates and is regarded as homologous to the lungs. • It differs from the lungs of higher forms mainly in origin and blood supply. • The swim-bladder arises from the dorsal wall of the gut and gets the blood supply usually from the dorsal aorta, while the vertebrate lung originates from the ventral wall of the pharynx and receives blood from the sixth aortic arch. • The swim-bladder is present in almost all the bony fishes and functions usually as a hydrostatic organ
DEVELOPMENT OF AIR BLADDER • In teleost-unpaired dorsal or dorso lateral diverticulam of the oesophagus • Start as small pouch budded –off from the oesophagus • Subsequently divided in 2 halves • In dipnoans & polypteride, the swim bladder is modified into lungs
BASIC STRUCTURE OF AIR BLADDER • The swim bladder in fishes varies greatly in structure ,size and shape • Its essentially a trough like structure with an overlying capillary network • Beneath the capillary system the wall of the anterior part of swim bladder consist of the following (a)Tunica externa (b)Sub mucosa (c)Muscularis mucosa (d)Lamina propria (e)Innermost layer
• In posterior chamber of swim bladder , outside the layer of muscular mucosa there is a glandular layer • The swim bladder is open into the oesophagus , by a ductus pneumaticus , which is short and wide in lower teolest • The gas secreted by the swim bladder is mostly oxygen and little amount of nitrogen and carbon dioxide are also present
TYPES OF SWIM BLADDER (1)Physostomous condition  The swim bladder devolps from the oesophagus When the ductus pneumaticus is present between the swim bladder and the oesophagus - physostomous type This condition is observed in bony fishes , the diponoans and soft rayed fishes (2)Physoclitous condition In this condition the ductus pneumaticus is either closed or atrophied This type of swim bladder is observed in spiny-rayed fishes In this air bladder ,there lies an anteroventral secretory gas gland & a posterodorsal gas absorbing region called the ovale
(c)Transitional condition In Eel , a transitional condition between the physostomous and physoclistous type is present The swim bladder retains the ductus pneumaticus which become enlarged to form a separate chamber containing the ovale
FUNCTION OF SWIM BLADDER (a)Hydrostatic organ • It is primarily a hydrostatic organ and helps to keep the weight of the body equal to the volume of the water the fish displaces • It also serves to equilibrate the body in relation to the surrounding medium by increasing or decreasing the volume of gas content. • In the physostomous fishes the expulsion of the gas from the swim- bladder occurs through the ductus pneumaticus, but in the physoclistous fishes — where the ductus pneumaticus is absent —the superfluous gas is removed by diffusion.
(b)Adjustable float The swim-bladder also acts as an adjustable float to enable the fishes to swim at any depth with the least effort. When a fish likes to sink, the specific gravity of the body is increased. When it ascends the swim- bladder is distended and the specific gravity is diminished. By such adjustment, a fish can maintain an equilibrium at any level.
(c)Maintain proper center of gravity: The swim-bladder helps to maintain the proper center of gravity by shifting the contained gas from one part of it to the other and thus facilitates in exhibiting a variety of movement.
(d)Respiration: The respiratory function of the swim-bladder is quite significant. In many fishes living in water in which oxygen content is considerably low, the oxygen produced in the bladder may serve as a source of oxygen. In few fishes, specially in the dipnoans, the swim-bladder becomes modified into the ‘lung’. The ‘lung’ is capable of taking atmospheric air.
(e)Resonator: The swim-bladder is regarded to act as a resonator. It intensifies the vibrations of sound and transmits these to the ear through the Weberian ossicles.
(f)Production of sound: • Many fishes, Doras, Platystoma, Malapterurus, Trigla can produce grunting or hissing or drumming sound. The circulation of the contained air inside the swim-bladder causes the vibration of the incomplete septa. The sound is produced as the consequence of vibration of the incomplete septa present on the inner wall of the swim- bladder. • The vibrations are caused by the movement of the contained air of the swim- bladder. Sound may also be produced by the compression of the extrinsic and intrinsic musculatures of the swim-bladder. Polypterus, Protopterus and Lepidosiren can produce sound by compression and forceful expulsion of the contained gas in the swim-bladder.
WEBERIAN OSSICLES • The Weberian apparatus is named after the German anatomist and physiologist ERNST HEINRICH WEBER(1795 – 1878). The apparatus was first described in detail by Weber • The perilymphatic sac and the anterior end of the swim-bladder are connected by a series of four ossicles which are articulated as a conducting chain. • Of the four, the tripus, intercalarium and scaphium actually form the chain, while the fourth one, claustrum lies dorsal to the scaphium and lies in the wall of posterior prolongation of the perilymphatic sac. • the Weberian ossicles either help to intensify sound vibrations and convey these waves to the internal ear, which help to understand the state of tension of air pressure in the bladder and transit changes of such pressure to the perilymph to set up a reflex action.
Functions of the Weberian Ossicles 1. As pressure register: • They are sensitive to changes in the volume of the swim-bladder due to variations in the hydrostatic pressure. Any change in the volume of the swim-bladder causes movements of the sinus impar. This is then conveyed to the sacculus through the endolymph of the transverse canal.
2. As barometer: • It is presumed that fish can detect variation in the atmospheric pressure through Weberian ossicles. 3. As auditory organ: • The ossicles transmit the vibrations of the bladder wall to the perilymph of sinus impar. The vibration reach the saccular otoliths via endolymph. 4. As sound locator: • The vibrations received on the side of the bladder nearest the source are stronger than the other side.
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AIR BLADDER-FUNCTIONS.pptx

  • 2. WHAT IS AIR BLADDER? • An air filled sac • Lying above the alimentary canal in bony fishes • That regulates buoyancy at different depth by a variation in the pressure of the air
  • 3.
  • 4. ROLE OF SWIM BLADDER • In most of the fishes a characteristic sac-like structure is present between the gut and the kidneys. • The swim-bladder occupies the same position as the lungs of higher vertebrates and is regarded as homologous to the lungs. • It differs from the lungs of higher forms mainly in origin and blood supply. • The swim-bladder arises from the dorsal wall of the gut and gets the blood supply usually from the dorsal aorta, while the vertebrate lung originates from the ventral wall of the pharynx and receives blood from the sixth aortic arch. • The swim-bladder is present in almost all the bony fishes and functions usually as a hydrostatic organ
  • 5. DEVELOPMENT OF AIR BLADDER • In teleost-unpaired dorsal or dorso lateral diverticulam of the oesophagus • Start as small pouch budded –off from the oesophagus • Subsequently divided in 2 halves • In dipnoans & polypteride, the swim bladder is modified into lungs
  • 6. BASIC STRUCTURE OF AIR BLADDER • The swim bladder in fishes varies greatly in structure ,size and shape • Its essentially a trough like structure with an overlying capillary network • Beneath the capillary system the wall of the anterior part of swim bladder consist of the following (a)Tunica externa (b)Sub mucosa (c)Muscularis mucosa (d)Lamina propria (e)Innermost layer
  • 7. • In posterior chamber of swim bladder , outside the layer of muscular mucosa there is a glandular layer • The swim bladder is open into the oesophagus , by a ductus pneumaticus , which is short and wide in lower teolest • The gas secreted by the swim bladder is mostly oxygen and little amount of nitrogen and carbon dioxide are also present
  • 8. TYPES OF SWIM BLADDER (1)Physostomous condition  The swim bladder devolps from the oesophagus When the ductus pneumaticus is present between the swim bladder and the oesophagus - physostomous type This condition is observed in bony fishes , the diponoans and soft rayed fishes (2)Physoclitous condition In this condition the ductus pneumaticus is either closed or atrophied This type of swim bladder is observed in spiny-rayed fishes In this air bladder ,there lies an anteroventral secretory gas gland & a posterodorsal gas absorbing region called the ovale
  • 9.
  • 10. (c)Transitional condition In Eel , a transitional condition between the physostomous and physoclistous type is present The swim bladder retains the ductus pneumaticus which become enlarged to form a separate chamber containing the ovale
  • 11. FUNCTION OF SWIM BLADDER (a)Hydrostatic organ • It is primarily a hydrostatic organ and helps to keep the weight of the body equal to the volume of the water the fish displaces • It also serves to equilibrate the body in relation to the surrounding medium by increasing or decreasing the volume of gas content. • In the physostomous fishes the expulsion of the gas from the swim- bladder occurs through the ductus pneumaticus, but in the physoclistous fishes — where the ductus pneumaticus is absent —the superfluous gas is removed by diffusion.
  • 12. (b)Adjustable float The swim-bladder also acts as an adjustable float to enable the fishes to swim at any depth with the least effort. When a fish likes to sink, the specific gravity of the body is increased. When it ascends the swim- bladder is distended and the specific gravity is diminished. By such adjustment, a fish can maintain an equilibrium at any level.
  • 13. (c)Maintain proper center of gravity: The swim-bladder helps to maintain the proper center of gravity by shifting the contained gas from one part of it to the other and thus facilitates in exhibiting a variety of movement.
  • 14. (d)Respiration: The respiratory function of the swim-bladder is quite significant. In many fishes living in water in which oxygen content is considerably low, the oxygen produced in the bladder may serve as a source of oxygen. In few fishes, specially in the dipnoans, the swim-bladder becomes modified into the ‘lung’. The ‘lung’ is capable of taking atmospheric air.
  • 15. (e)Resonator: The swim-bladder is regarded to act as a resonator. It intensifies the vibrations of sound and transmits these to the ear through the Weberian ossicles.
  • 16. (f)Production of sound: • Many fishes, Doras, Platystoma, Malapterurus, Trigla can produce grunting or hissing or drumming sound. The circulation of the contained air inside the swim-bladder causes the vibration of the incomplete septa. The sound is produced as the consequence of vibration of the incomplete septa present on the inner wall of the swim- bladder. • The vibrations are caused by the movement of the contained air of the swim- bladder. Sound may also be produced by the compression of the extrinsic and intrinsic musculatures of the swim-bladder. Polypterus, Protopterus and Lepidosiren can produce sound by compression and forceful expulsion of the contained gas in the swim-bladder.
  • 17. WEBERIAN OSSICLES • The Weberian apparatus is named after the German anatomist and physiologist ERNST HEINRICH WEBER(1795 – 1878). The apparatus was first described in detail by Weber • The perilymphatic sac and the anterior end of the swim-bladder are connected by a series of four ossicles which are articulated as a conducting chain. • Of the four, the tripus, intercalarium and scaphium actually form the chain, while the fourth one, claustrum lies dorsal to the scaphium and lies in the wall of posterior prolongation of the perilymphatic sac. • the Weberian ossicles either help to intensify sound vibrations and convey these waves to the internal ear, which help to understand the state of tension of air pressure in the bladder and transit changes of such pressure to the perilymph to set up a reflex action.
  • 18.
  • 19. Functions of the Weberian Ossicles 1. As pressure register: • They are sensitive to changes in the volume of the swim-bladder due to variations in the hydrostatic pressure. Any change in the volume of the swim-bladder causes movements of the sinus impar. This is then conveyed to the sacculus through the endolymph of the transverse canal.
  • 20. 2. As barometer: • It is presumed that fish can detect variation in the atmospheric pressure through Weberian ossicles. 3. As auditory organ: • The ossicles transmit the vibrations of the bladder wall to the perilymph of sinus impar. The vibration reach the saccular otoliths via endolymph. 4. As sound locator: • The vibrations received on the side of the bladder nearest the source are stronger than the other side.