Osmoregulation in Animals
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Jul 18, 2018
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Basic Information about Osmoregulation in Animals
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Osmoregulation in Animals BY: SANJAY KUMAR LECTURER
What is Osmoregulation The maintenance of constant osmotic conditions (water and solute concentration) in the body is called osmoregulation. Animals may be either osmoregulators or osmoconformers with respect to their external environment. Osmolarity means how much solutes are dissolved in a solution https://youtu.be/Qg_SXsAwMmA
Those animals that can maintain internal osmotic concentrations different from the surrounding medium are called osmoregulators Such animals are hypotonic or hypertonic to their environment. Those animals that change the osmotic concentrations of the body fluids according to that of surrounding medium are called osmoconformers . These are isotonic to their external environment . These include all marine invertebrates , some freshwater invertebrates and some marine vertebrates like hag fishes and elasmobranches (sharks and rays) Animals are either osmoregulators or osmoconformers
Almost all osmoregulators . G enerally hypertonic to their outer environment. These animals deal with these problems by producing large volume of diluted urine. Their kidney actively reabsorbs the salts These animals also actively transport salts from the external dilute medium with the help of special salt cells called ionocytes . Ionocytes are found in the amphibian skin and gills of fishes Osmoregulatory Adaptations in Animals
Teleosts (bony fishes) are osmoregulators in marine environment which are hypotonic to their environment. So these fishes have tendency to lose water to the environment, especially across the gill epithelium. In order to replace the water loss, these fishes usually drink large amount of water unlike freshwater fishes. Marine animals https://youtu.be/Qg_SXsAwMmA
Among the excess salts, Na+, Cl - and some amount of K+ are removed across the gill epithelium while divalent ions like Mg++, Ca ++ are excreted by the kidney. Some fishes also have special salt secreting glands in the wall of rectum called rectal glands that remove salts into the digestive tract which are then eliminated from the body during egestion . https://youtu.be/Qg_SXsAwMmA
The blood composition of cartilaginous fishes, such as sharks and rays, is similar to that of bony fishes. They maintained osmolarity by high levels of urea and trimethylamine oxide ( TMO ) in the blood. The sharkâs blood electrolytes composition is not similar to that of sea-water, but maintain isotonicity with sea-water by storing urea at high concentration. Sharks are ureotelic (secrete urea). Urea damages living tissues and deactivate enzymes, so to cope with this problems, some fishes retain TMO in order to prevent tissue damage and activate enzymes. Osmoregulation in Sharks
The successful groups of land animals are arthropods reptile, birds and mammals. Water proof external covering The presence of chitinous exoskeleton in arthropods and dead keratinized skin in vertebrates are adaptation to reduce water loss by their bodies. Storing and excretion of solid Wastes Reptiles, birds and Insects excrete Uric acid which is insoluble in water and require little water ( 10ml for 1g) to remove uric acid. Storing the Waste: Mammals do retain some urea in their kidney where it help in reabsorption of water . Terrestrial animals
Desert mammals are very much resistant in this regard. They can tolerate against strong degree of dehydration by special metabolic and behavioral adaptation. This characteristic is called anhydrobiosis . Actually, these animals feed upon seeds of desert plants in which large amount of carbohydrate are stored, during the breakdown of these compounds; water is produced as by-product that is utilized by these animals. Best example of such animals is kangaroo rat. They avoid day time heat, and emerge at night. 90% of the water that they use is metabolic water derived from cellular oxidation.
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