Excretion - Definition, Function, Types, Examples, Metabolites

Excretion: Definition, Function, Types, Examples

Edited By Irshad Anwar | Updated on Jul 02, 2025 06:42 PM IST

Excretion is the basic biological process through which living organisms eliminate the byproducts and wastes resulting from metabolism. Such byproducts include carbon dioxide, water, urea, and many others that metabolic processes produce. In humans and animals generally, there are specialized organs that filter and excrete the waste products. Thus, excretion is an important biological concept and is discussed in the Class 11 chapter Excretory Products and their Elimination in Biology.

This Story also Contains

What is Excretion?
Types of Excretory Products
Excretory Organs in Humans
Mechanism of Urine Formation
Common Disorders of the Excretory System
Recommended Video for Excretion

Excretion

What is Excretion?

Egestion is a process in which metabolic waste products of the organisms; for example, urea, and carbon dioxide are expelled from the body. It mainly affects kidneys works as filters for blood and gives urine as well as transitional tissue of the lungs eliminating carbon dioxide during the breathing process. It is required to be good for the regulation of the internal environment, fluids and electrolytes, pH and for excluding the toxic substances that may affect the body’s normal functions.

Types of Excretory Products

The different types of excretory products are:

Nitrogenous Wastes

Ammonia: It is a highly toxic compound for which the formation is the result of deamination of amino acids. The substance is soluble in water and therefore, it is mainly excreted through the gills in the case of aquatic animals.
Urea: Less toxic to tissues compared to ammonia and manufactured in the liver through the urea cycle. In mammals, amphibians, and some fish, it is eliminated from the body through the kidneys by being incorporated in urine to aid in the body’s attempt to retain water.
Uric Acid: A slightly water-insoluble waste material which lacks high toxicity, that is, discharged as paste or solid. It is demonstrated in birds, reptiles and insects and has participation in water balance.

Other Excretory Products

Carbon Dioxide: Generated in the process of cellular respiration, and emitted through the lungs. It is removed through the respiratory system and exhaled out of the body.
Water: Besides, urine and sweat, water is eliminated as an excretory product in other ways to maintain fluid balance.
Salts: Some of the minerals such as sodium chloride are expelled through urine and sweat to help maintain the body’s electrolyte concentration level.

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Excretory Organs in Humans

The excretory organs in humans are:

Kidneys

The kidneys are crucial excretory glands to do the tasks of filtering the blood to form urine. It comprises nephrons as the working units, the cortical region or outer part of the kidney and the renal medulla which is the inner part of the kidney.

The kidneys perform three main functions:

Filtration: Urine is produced in the nephrons where blood is filtered through the glomeruli and unwanted wastes and substances are removed.
Reabsorption: Important substances including nutrients, water and electrolytes are returned to the circulation from the filtrate.
Secretion: Further waste products and any ions in more amounts are pumped into the tubules for the urine to remove them.

Diagram of the human kidney

Human Kidney

Liver

The liver is also involved in detoxification since it breaks down toxins and digestes food through the manufacture of bile to help eliminate bilirubin. The liver helps in detoxification where it metamorphoses ammonia, a lethal product of protein breakdown to urea that is easily filtered by the kidneys.

Lungs

The lungs help in the excretion of carbon dioxide which is produced in the process of cellular respiration. It is expelled from the body through the lungs by the process of breathing and also aids in the regulation of the acid/base balance in the body.

Skin

The mother tissue known as skin also plays a role in excretion by coming up with sweat glands that expel salts and water. The body relies on sweating to cool it as well as eliminating minute portions of body waste products.

Intestines

There is excretion of bile pigment for example bilirubin which is formed in the liver. These are metabolised and excreted in the feces which often gives stool the pigmentation they have.

Mechanism of Urine Formation

Urine formation involves the following steps:

Filtration

Blood filtration occurs through the glomeruli of the kidneys through the filtration process which is known as glomerular filtration. The test of GFR estimates the amount of blood filtered in one minute which shows the functioning of kidneys. This process discriminates or filters out the waste products, miscellaneous and any fluids from the portion of the blood they are interested in known as the filtrate.

Reabsorption

The filtrate then continues to other sections of the nephron where important elements are transported back to the bloodstream:

Proximal Convoluted Tubule (PCT): Most water and ions and nutrients like glucose and amino acid are also selectively reabsorbed here.
Loop of Henle: This section makes a concentration gradient in the medulla so that, the reabsorption of water in the descending limb and salts in the ascending limb of the loop of Henle, contribute to hyperosmotic urine.
Distal Convoluted Tubule (DCT): More corrective actions of water and ions are done here, which is in response to hormones such as aldosterone and ADH or antidiuretic hormone.

Secretion

The last is tubular secretion, in which further waste products, extra ions, and drugs are discharged with the tubular fluid. This one maintains blood pH and also removes substances that shuttle through the body but are not filtered out by the kidneys.

Diagram of nephron showing filtration, reabsorption, and secretion

Nephron

Common Disorders of the Excretory System

The most common disorders of the excretory system are:

Kidney Stones

Causes: Kidney stones occur when minerals and salts combine and solidify in the body’s kidneys, and this can be triggered by numerous factors that include; lack of water intake, certain foods or medical conditions.
Symptoms: Lower back or side pain, passing blood in urine, urge to urinate often, and feeling sick.
Treatment: Lifestyle changes are drinking more water, pain relief, medicines to break the stone, and in extreme circumstances, some treatments are shock waves or operations.

Urinary Tract Infections (UTIs)

Causes: UTIs are equally attributed to bacterial infections, especially E. coli which mostly gain access into the urinary tracts through the urethra.
Symptoms: It is characterised by a burning sensation during micturition, an increased and uncontrollable urge to urinate and bleeding at this point, passing of urine which is cloudy and/or has a foul smell, pelvic pain, including that which is described as a dull ache in the abdomen and or lower back.
Treatment: UTIs are mainly managed through the use of antibiotics, increasing the amount of fluid consumed, and sometimes prescription of pain relievers.

Chronic Kidney Disease (CKD)

Causes: CKD usually originates from chronic ailments like diabetes, hypertension, or glomerulonephritis; it results in a gradual decline of kidney function.
Symptoms: Signs that patients might present include tiredness, oedema, modifications in the pattern of micturition, and high blood pressure.
Treatment: It comprises reduction of risk factors, modifications in diet, pharmacotherapy of symptoms, and follow-up. Late-stage CKD might call for dialysis or a kidney transplant.

Also Read:

Micturition	Glomerular Filtrationn Rate
Nephron	Dialysis
Disorders of the Excretory System	Urea Cycle

Recommended Video for Excretion

Frequently Asked Questions (FAQs)

1. What is excretion and why is it important?

Elimination is defined as the necessity to discharge from the body unwanted substances to achieve balanced conditions. It is important since it assists in removing waste products, maintaining fluid and electrolyte balance, and avoiding the entrapment of toxic metabolites that could compromise the health of the human organism and its physiological processes.

2. What are the main excretory organs in humans?

The kidneys are prominent organs of excretion in humans and filter blood to form urine; another organ of excretion is the liver which helps in detoxifying some toxic products and also produces bile; the organs of excretion which also release carbon dioxide are the lungs; the skin which helps in eliminating salts and water through sweat; and the last organ of excretion are the intestines which excrete some pigments in bile and undigested food material.

3. How is urine formed in the kidneys?

Urine formation in the kidneys involves three main processes: This process is further categorised into three proceeding stages; filtration, where the blood passes through the layer of glomeruli to come up with filtrate; reabsorption in which necessary substances and water are recovered back to the blood from the filtrate; secretion in which wastes and ions are added to the filtrate from the blood forming urine.

4. What are some common disorders of the excretory system?

Some of the most prevalent diseases relating to the excretory system are kidney stones, inflammation of the urinary tract also referred to as pyelonephritis which is characterised by pains and frequent urinating, chronic kidney disease which is gradual degeneration of the kidneys, and diseases that would require dialysis or, worse, a kidney transplant for the patient who has acute kidney failure.

5. How do different animals excrete waste?

Different animals have varied excretion methods based on their habitats and physiological needs: Mammals release it in the form of urine, birds and reptiles release uric acid to conserve water since their offspring lie on it, fish discharge ammonia in water and insects use uric acid and special organs to dispose of their wastes efficiently due to the dry habitats they live in.

6. How do dialysis machines mimic the function of kidneys?

Dialysis machines mimic kidney function by:

7. What is the significance of the blood-brain barrier in excretion?

The blood-brain barrier is a selective semipermeable border that separates the circulating blood from the brain extracellular fluid. Its significance in excretion includes:

8. How does the renin-angiotensin-aldosterone system (RAAS) affect excretion?

The renin-angiotensin-aldosterone system (RAAS) is a hormone system that regulates blood pressure and fluid balance. It affects excretion by:

9. How do hormones like aldosterone and atrial natriuretic peptide (ANP) affect excretion?

Hormones play a crucial role in regulating excretion:

10. What is the role of the juxtaglomerular apparatus in kidney function?

The juxtaglomerular apparatus (JGA) is a specialized structure in the kidney that plays a crucial role in regulating blood pressure and kidney function. Its roles include:

11. What are the main excretory organs in humans, and what do they remove?

The main excretory organs in humans are:

12. What is the role of the liver in excretion?

The liver plays several important roles in excretion:

13. What are the main differences between the excretory systems of freshwater and marine fish?

The main differences between freshwater and marine fish excretory systems are:

14. How do insects excrete waste products?

Insects have a unique excretory system called the Malpighian tubules. This system works as follows:

15. How does the structure of the nephron relate to its function?

The structure of the nephron is closely related to its function:

16. What is the role of nephrons in excretion?

Nephrons are the functional units of the kidneys responsible for urine formation. They play a crucial role in excretion by:

17. How does the countercurrent mechanism in the kidney contribute to urine concentration?

The countercurrent mechanism in the kidney allows for the production of concentrated urine, which is essential for water conservation. It involves the loop of Henle and the vasa recta blood vessels. As fluid flows through the descending and ascending limbs of the loop of Henle, a concentration gradient is established in the medulla of the kidney. This gradient allows water to be reabsorbed from the collecting duct, concentrating the urine. The vasa recta maintain this gradient by preventing the washout of solutes from the medulla.

18. What is the difference between filtration, reabsorption, and secretion in the nephron?

In the nephron:

19. How do aquaporins contribute to water reabsorption in the kidneys?

Aquaporins are specialized water channel proteins found in cell membranes. In the kidneys, they play a crucial role in water reabsorption by:

20. What is the role of antidiuretic hormone (ADH) in excretion?

Antidiuretic hormone (ADH), also known as vasopressin, plays a crucial role in regulating water reabsorption in the kidneys. When ADH levels increase:

21. What are the main types of excretory products in animals?

The main types of excretory products in animals are:

22. Why do different animals produce different types of nitrogenous waste?

Animals produce different types of nitrogenous waste based on their habitat, water availability, and evolutionary adaptations. Aquatic animals can afford to produce ammonia because they have abundant water to dilute it. Terrestrial animals like mammals produce urea, which requires less water to excrete. Birds and reptiles produce uric acid, which is nearly insoluble and can be excreted with minimal water loss, adapting them to conserve water in dry environments.

23. What are the main excretory products in plants, and how are they different from animals?

Plant excretory products differ from those of animals:

24. How do plants excrete waste products?

Plants excrete waste products differently from animals. They primarily use the following methods:

25. How do the excretory systems of birds adapt to their flying lifestyle?

Birds' excretory systems are adapted to their flying lifestyle in several ways:

26. What is excretion, and why is it essential for living organisms?

Excretion is the process of removing metabolic waste products and excess substances from an organism's body. It is essential for living organisms because it helps maintain homeostasis by eliminating toxic substances, regulating body fluid composition, and balancing electrolytes. Without excretion, harmful waste products would accumulate in the body, leading to serious health issues or even death.

27. How does excretion differ from egestion?

Excretion involves the removal of metabolic waste products from the body, such as urea, uric acid, and excess water. Egestion, on the other hand, is the elimination of undigested food materials from the digestive tract through defecation. The key difference is that excretion deals with cellular waste products, while egestion deals with undigested food particles that never entered the body's cells.

28. What are the main differences between excretion in unicellular and multicellular organisms?

Excretion in unicellular and multicellular organisms differs in several ways:

29. How does the concept of osmoregulation relate to excretion?

Osmoregulation and excretion are closely related processes:

30. How do excretory systems in animals adapt to different environmental conditions?

Excretory systems adapt to different environments in various ways:

31. What is the role of the loop of Henle in urine concentration?

The loop of Henle plays a crucial role in urine concentration:

32. What is the significance of the glomerular filtration rate (GFR) in kidney function?

The glomerular filtration rate (GFR) is crucial for kidney function:

33. How do the excretory systems of mammals and reptiles differ?

Mammalian and reptilian excretory systems differ in several ways: