Introduction
Every living organism feeds itself to maintain its energy levels to carry out various vital life processes. The food ingested by an organism is digested by its body while travelling through the digestive tract to release energy by chemical breaking down of the food particles, which is then supplied to various parts of the body.
The residual wastes produced after the complete absorption of nutrients and water are removed from the body through excretion. Different organisms use different modes of excretion depending on their type and body needs.
Among the wide range of organisms, the primary excretory wastes are Ammonia, Urea, Uric acid, and Guanine. Based on these wastes, the different modes of excretion are:
Ammonotelism
The mode of excretion in which ammonia is produced as the primary waste is called “Ammonotelism.” And the organisms which exhibit this method are known as Ammonotelic. A large number of fish, plasmodia, echinoderms, poriferans and arthropods come under this classification.
Aquatic creatures excrete ammonia right into the habitat, where the excreta then rapidly disperses. It’s highly poisonous to the tissues. In addition, ammonia, which is extensively water-resolvable and which forms ammonium hydroxide straightway, injures cells by the alkaline’s corrosive reaction. Thus, the safe ejection of ammonia requires a large amount of water.
A part of uric acid is oxidised additionally into allantoic acid and allantoin. Teleost fish excrete allantoate or hydration byproducts of allantoin. In maximum amphibians and fishes, allantoate is hydrolysed into glyoxylate and urea. In some aquatic Mollusca, hydrolysis of urea to carbon dioxide and ammonia occurs. In addition, creatine is produced in the liver from amino acids.
Ureotelism
The excretion method involving urea production as metabolic waste is known as Ureotelism. The living organisms that exhibit this feature are mammals and amphibians. They are called Ureotelic.
In these living organisms, ammonia procured is converted into urea by the liver and is returned into the bloodstream. The kidneys strain the urea and are ejected outside the system. Some of the areas are withheld in the matrix of the kidney to keep up a desirable osmolarity in the organisms.
Humans are ureotelic as we excrete the urea through urine. Moreover, urea is comparatively less poisonous than ammonia.
Uricotelism
This mode of excretion produces nitrogenous wastes that are expelled from the body in the form of uric acid. The creatures that exhibit this characteristic are known as Uricotelic.
Uricotelic creatures eject nitrogenous excretions as uric acid in the form of pellets or paste-like droppings. Metabolically, this procedure is rather straining; nevertheless, the water loss is lowest, and it’s the least poisonous. Additionally, since uric acid isn’t immediately solvable in water, the excreta becomes pasty, colourless suspensions. Most reptiles, avians, and bugs are grouped under uricotelic.
Aminotelism
Some phylum like Mollusca and some echinoderms excrete surplus amino acids as such. These organisms are ammonotelic, and their mode of excretion is called aminotelism. The nitrogenous wastes present in the body are excreted in the form of amino acids in this mode of excretion.
Guanotelism
Arachnids (e.g., spiders, scorpions, etc.) excrete chiefly guanine, a nitrogen-based compound and is therefore known to be guanotelic. Like uric acid, guanine is a purine, non-toxic and insoluble in water. Hence, it is excreted in hard form. It’s an evolution to live in dry territories, i.e., droughty niches without water.
In spiders and scorpions, the inosinic acid track terminates in guanine formation. In reality, guanine is formed as a byproduct during uric acid creation in uricotelic organisms. The creation of the four nitrogen atoms of guanine corresponds to that of uric acid. Spiders transform the ammonia into guanine before excretion.
This attribute is similarly found in some reptiles, avians, and earthworms. It’s also insoluble in water; hence no water is wasted in its excretion.
Thus, all living creatures which may belong to Porifera, Coelenterata, Nematoda, Arthropoda, Echinodermata, Annelida, chordate, Mollusca, etc., fall under the above-discussed modes of excretion. Natural selection of the mode of excretion occurs based on the terrain or conditions of their habitat, food availability, body structures, and evolutionary adaptations accumulated over time in the organism.
Even plants create waste materials that are removed from the plant body in methods different from living organisms. For example, they make gaseous wastes that are released into the air directly while the solid wastes accumulate in the bark of the trees and come out as resin, latex, etc.
Excretion is a basic life process without which the body begins to degrade and decompose due to the high levels of toxins that prevent the repair and development of the body at a cellular level.
Conclusion
The above information has established that excretion is a natural life process that occurs in all living organisms. There are five different modes of excretion based on the composition of the excreta. Based on the various factors affecting the organism, any living organism must fall into one of these modes of excretion.