The document discusses the respiratory systems of various organisms. It describes how fish breathe through gills, with water passing over the gill filaments where gas exchange occurs. Amphibians may breathe through gills, lungs, or skin depending on their life stage, with tadpoles using external gills and adult frogs using lungs. The lungs of amphibians are relatively simple sacs that undergo positive pressure breathing by changing the mouth's volume and pressure.

1. RASHTRASANT TUKADOJI MAHARAJ UNIVERSITY , NAGPUR
MANOHARBHAI PATEL INSTITUTE OF
ENGINEERING AND TECHNOLOGY, GONDIA

2. WHAT IS RESPIRATORY SYSTEM ?
It is a biological system that consists of specific organs and structures used for process
of respiration in an organism.
 Gas Exchange: Oxygen enters blood and carbon dioxide leaves
 Regulation Of Blood PH: Altered by changing blood carbon dioxide levels.
Voice Production: Movement of air past vocal folds makes sound and speech.
 Olfaction: Smell occurs when airborne molecules are drawn into nasal cavity.
 Protection: Against microorganisms by preventing entry and removing them from
respiratory surfaces.
FUNCTIONS OF RESPIRATORY SYSTEM

3. PARTS OF RESPIRATORY SYSTEM
 Nostrils
 Trachea
 Bronchi
 Lungs
 Alveolus
 Diaphragm
HOW DOES IT WORKS ?
Respiratory system does this through breathing.
When we breathe, we inhale oxygen and exhale carbon dioxide.
• This exchange of gases is the respiratory system’s means of getting oxygen to
the blood .

4. MECHANISM OF RESPIRATION
Chordates have one of two basic structures for respiration:
 Gills – For aquatic chordates
Example: tunicates, fish and amphibians
 Lungs - For terrestrial chordates
• Examples: adult amphibians, reptiles, birds, and mammals
 Skin –
Example: Amphibians
- ancestral form of respiration
- sometimes used External Cutaneous Respiration
- Use their outer surfaces
- Gas exchange occurs at capillaries located
throughout the body

5. • Gills
 Mediate gas exchange
 Located at the side of the head
 Made up of gill filaments , feather structures that
provide a Large surface for gas exchange
Adult fishes have a pair of gills. Each gills is covered by a bony lid. A
fish draws in water by closing the lid over its gills and opening its
mouth. When the fish closes its mouth and opens the gill lid, the
water is forced out and over the respiratory surfaces of the gill
filaments.
REPIRATORY SYSTEM OF PISCES

6.  Gill Filaments - The site of gas exchange (each gill filament consists of an
upper and lower surface covered with minute ridges known as lamellae).
 Gill Rakers - Appendages along the front edge of the gill arch
 Gill arches - Support the gills
 Swim Bladder - Gas filled chamber that allow the bony fish to remain
floating in the water
GILL STRUCTURE

8.  Water flows through the mouth then
over the gills where oxygen is Removed
 Carbon dioxide and water are then
pumped out through the operculum
Increase the surface area
Containing blood vessels covered by a
thin epithelial layer
Organized into a series of plates
Countercurrent principle
 Maybe:
- internal (as in crabs and fish) or
- external to the body (as in some
amphibians).
Aquatic Gills

9. INTERNAL GILLS
The gills of bony fishes are located between the buccal (mouth) cavity
and the opercular cavities.
 The buccal cavity can be opened and closed by opening and closing the
mouth.
 The opercular cavity can be opened and closed by movements of the
operculum or gill cover.

10.  Water enters the gill chamber through the fish’s mouth and exits
through gill openings under the operculum.
Blood flowing through the gill filaments absorbs oxygen from the
water.
 Some species of bony fishes can absorb considerable amounts of
oxygen through their skin.
 Usually have 5 gill slits
 Operculum projects backward over gill chambers
 Interbranchial septa are very short or absent
BONY FISHES

11.  Lamellae are made of extremely thin membranes (1 cell thick) and are
primary sites of gas exchange.
 Water flows across the gill filaments and oxygen is removed and passes
into the blood by diffusion.
 To increase the efficiency of oxygen uptake a countercurrent method is
used.
 Blood flows through the lamellae in a direction opposite to the water
flow through the gill filaments.
 Countercurrent flow ensures a steady oxygen.

12.  The respiratory system of all animals is that which allows oxygen to pass from
the surrounding air or water into the bloodstream of the organism.
 In addition to this, the system is required to remove carbon dioxide from the
blood and release it into the air or water.
 Amphibians have three types of highly vascularized that are able to be used
in respiration. They are :
• Gills
• Lungs
• Skin
• Buccopharyngeal mucosa
(the mouth and throat Membrane)
REPIRATORY SYSTEM OF AMPHIBIANS

13.  Amphibians have external gills which are capable of performing the
functions of respiration while the animal is under water.
 In frogs, the gills are present only during the tadpole stage, when the
individual is confined to the water.
 As the tadpole transforms into an adult frog, its gills are absorbed into
the body and the lungs take over for the process of respiration.
 The lungs of amphibians that are required to take over for the gills after
metamorphosis are generally already developed before the gills are
reabsorbed.
 They are relatively simple in structure, resembling smooth sacs.
 The lungs of more terrestrial amphibians, such as the toad, are larger and
are equiped with more alveolar respiratory surfaces.
REPIRATORY SYSTEM OF
AMPHIBIANS

14.  As was mentioned above in the description of amphibian skin, the dermal
region is very heavily vascularized to allow for efficient exchange of gases.
 When the adult amphibian is under water, it will breathe through its skin
until it is able to come up to the surface for air.
 Many male amphibians have vocal sacs which are basically out pouchings of
the mouth cavity that extend ventrally and laterally under the skin and
muscles of the throat.
 When a frog calls, its pouch is filled with air and the function is to assist in
the resonation of the sound.
 Individual frogs also seem to be able to vary the sound of their call by
adjusting the action of their vocal sac.

15.  Larval amphibians respire, or exchange carbon dioxide and oxygen, through
their gills and skin.
 Most adult amphibians lose their gills during metamorphosis, but they can
respire in two ways:
• through the lungs
• through the skin.
 Respiration through the lungs is called pulmonary respiration.
 Amphibians ventilate their lungs with a unique mechanism that pumps air
into the lungs; this is called positive-pressure breathing.
 For example, a frog breathes by changing the volume and pressure of air in
its mouth while either opening or closing its nostrils.

16.  Both inhalation and exhalation involve a two step process during which the
floor of the frog's mouth is raised and lowered.
 The frog controls the direction of air flow by opening or closing its nostrils.
 Because amphibians have a small surface area in the lungs for gas exchange,
respiration is very important to both aquatic and terrestrial amphibians.

17. Respiratory
System of Frog