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Gas Exchange and Respiration


Gas exchange involves the transfer of oxygen (O2), carbon dioxide (CO2), and to a lesser extent, ammonia (NH3) between the environment and the cell/tissue site of use or production. Respiration, from a physiological perspective, is the transport of oxygen from the outside air to cells within tissues, along with the transport of carbon dioxide in the opposite direction.

Biochemical Definition of Respiration: Cellular Respiration

  • Cellular respiration is a metabolic process through which an organism obtains energy by reacting oxygen with glucose, resulting in the production of water, carbon dioxide, and ATP (energy).
  • Physiologic respiration is distinct, involving the bulk flow and transport of metabolites between the organism and the external environment.
  • Although separate, physiologic respiration is essential to sustain cellular respiration and life in animals.

Respiratory Organs in Fishes

  • Fish primarily respire through gills, which are tissues with feathery structures called gill filaments.
  • Gill filaments provide a large surface area for gas exchange, crucial in aquatic organisms due to the limited dissolved oxygen in water.
  • Filaments in fish gills are organized in rows within gill arches, each comprising lamellae, discs supplied with capillaries.
  • Blood circulates through these capillaries, facilitating the exchange of gases.
  • Despite occupying a small body section, fish gills efficiently provide extensive respiratory surfaces for gas exchange.

Structure of Gill in Bony Fish

  • Gills are located in gill chambers on either side of a fish's head.
  • Elasmobranchs (Sharks and Rays) have gill slits, while bony fishes have an operculum covering a large opening to the water.
  • Gill arches bear two rows of gill filaments forming a complete gill or holobranch, with each row called a hemibranch.Pisces: Respiration | Zoology Optional Notes for UPSC
  • Most teleosts have four holobranches (8 hemibranches), while elasmobranchs have five holobranches (10 hemibranches) on each side.
  • Gill arches also have gill rakers on the inner side, covered by an epithelial layer with taste buds and mucus-secreting cells.
  • Gill filaments, arranged in a V-shaped manner, bear lamellae, flat leaf-like structures increasing the surface area for gas exchange.
  • Lamellae, rich in blood capillaries, ensure the barrier between capillaries and water is minimal, enhancing the efficiency of gas exchange.

Gill Area and Diffusion Capacity

  • The gill area in fish is influenced by the number and size of gill filaments and lamellae.
  • Fast-swimming and active fish exhibit more gill area and a higher number of gill lamellae/mm compared to sedentary species.
  • Air-breathing fish, relying on accessory respiratory organs, have a gill area approximately half that of species dependent on aquatic respiration.Pisces: Respiration | Zoology Optional Notes for UPSC
  • The total gill area increases with the fish's body weight during growth.
  • The efficiency of gills as respiratory organs is determined by the oxygen diffusion capacity, inversely proportional to the blood-water barrier's thickness (diffusion distance).
  • The lamellar epithelium, basement membrane, and pillar cells form this barrier, with pillar cells preventing lamellar collapse.

Mechanism of Respiration or Ventilation of Gills

  • Respiration involves maintaining a continuous water current through the buccopharyngeal cavity.
  • Water is drawn into the buccal cavity and expelled through the external branchial aperture.
  • Fish use two methods for ensuring a constant supply of new water:
    1. Double Pump System:
      • Unidirectional system with water moving across gills and out operculum.
      • Coordination of buccal and opercular pumps in most teleosts.
      • Phase I involves expanding buccal and opercular cavities with closed opercula.
      • Phase II sees the closure of the mouth and opening of opercula, forcing water across gills.

Pisces: Respiration | Zoology Optional Notes for UPSC

  1. Ram Ventilation:
    • Observed in fast-moving species like tuna, where gill covers are immobile.
    • Requires high water flow over gills through mantle cavity intake and jet propulsion expulsion.
    • Fast-swimming fish with larger gill areas meet increased oxygen demands for their activity.
    • Mouth and opercular apertures are left wide open during swimming for continuous water flow, known as 'ram ventilation.'
    • Rhythmic operculum movement is controlled by respiratory centers in the medulla oblongata area.

Counter-Current Flow Mechanism

  • Counter-current flow involves the opposite direction of water flow over the gill and blood flow within the gill.
  • This mechanism maximizes oxygen removal efficiency from water, utilized by fish gills.
  • During counter-current flow, fluids with different concentrations (blood and water) move in opposite directions, separated by thin membranes.
  • This promotes the diffusion of substances, like oxygen, down their concentration gradients.
  • Fish gills employing counter-current flow can deplete up to 80-90% of the initial oxygen content in the water.

Circulation of Blood Through Gill Filament and Lamellae

  • Teleost gills typically feature one afferent unit bringing deoxygenated blood to the gill and one efferent unit collecting oxygenated blood from the gill.

Transportation of Respiratory Gases in the Blood

  • The gas exchange system's primary function is to meet cell metabolic requirements for O2 and remove CO2 produced by cellular metabolism.
  • Blood carries O2 to tissues and removes CO2 from respiring tissues, transporting them to the gas exchange surface.
  • Blood's adaptation for gas transport includes the presence of the respiratory pigment hemoglobin (Hb) within red blood cells (RBCs).
  • Hemoglobin significantly increases blood's O2 carrying capacity, up to 20 times that of physically dissolved O2.
  • Hemoglobin's H+ binding capacity aids in the transportation of CO2.

Hemoglobin

  • Hemoglobin is a tetrameric molecule with four polypeptide chains and four heme groups in most teleost fishes.
  • Agnathans (lampreys & hagfishes) possess monomeric hemoglobin.
  • Antarctic fishes (ice fish) lack hemoglobin.
The document Pisces: Respiration | Zoology Optional Notes for UPSC is a part of the UPSC Course Zoology Optional Notes for UPSC.
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FAQs on Pisces: Respiration - Zoology Optional Notes for UPSC

1. What are the respiratory organs in fishes?
Ans. The respiratory organs in fishes are called gills. They are specialized structures that allow fishes to extract oxygen from water and release carbon dioxide.
2. How does gas exchange occur in fishes?
Ans. Gas exchange in fishes occurs through the process of diffusion. Oxygen from the water diffuses into the blood vessels of the gills, while carbon dioxide from the blood diffuses out into the water.
3. What is the mechanism of respiration or ventilation of gills in fishes?
Ans. The mechanism of respiration in fishes involves the movement of water over the gills through a process called ventilation. Fishes use various methods such as buccal pumping or opercular pumping to create a continuous flow of water over their gills.
4. What is the counter-current flow mechanism in gills?
Ans. The counter-current flow mechanism in gills refers to the flow of water and blood in opposite directions. This mechanism maximizes the efficiency of gas exchange by maintaining a concentration gradient for oxygen to diffuse from water to blood across the gill membranes.
5. How are respiratory gases transported in the blood of fishes?
Ans. Respiratory gases, such as oxygen and carbon dioxide, are transported in the blood of fishes by binding to a protein called hemoglobin. Hemoglobin carries oxygen from the gills to the tissues, and carbon dioxide from the tissues to the gills for elimination.
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