15.2.8
Kidneys & Osmoregulation
Excretion and the Kidneys
Excretion and the Kidneys
The kidneys work alongside the liver in the excretion of waste products. Urea is produced in the liver through deamination of amino acids. Urea is toxic and is excreted by the kidneys.
Kidney structure
Kidney structure
- The kidneys are surrounded by the capsule to protect the fragile structures underneath.
- Nephrons extend from the cortex into the medulla and are the site of ultrafiltration, selective reabsorption and urine formation.
- The renal tubule of each nephron is lined with microvilli to increase the surface area for absorption.
Ultrafiltration
Ultrafiltration
- Ultrafiltration is carried out in the glomerular capsule (often called the Bowman's capsule).
- Everything except larger proteins, red blood cells, and most white blood cells is forced out of the blood and into the glomerular capsule due to the high pressure caused by the difference in diameter between the afferent and efferent arterioles.
- The afferent arteriole is much wider than the efferent arteriole.
- Everything except larger proteins, red blood cells, and most white blood cells is forced out of the blood and into the glomerular capsule due to the high pressure caused by the difference in diameter between the afferent and efferent arterioles.
Selective reabsorption
Selective reabsorption
- Water, amino acids, glucose and ions are selectively reabsorbed first in the proximal convoluted tubule (PCT).
- The final composition of urine produced is dependent on:
- Selective reabsorption out of the nephron.
- Secretion of nitrogenous waste into the nephron by surrounding capillaries.
- The final composition of urine produced is dependent on:
Loop of Henle
Loop of Henle
- After the proximal convoluted tubule, water is also reabsorbed into the blood by osmosis in the descending limb of the loop of Henle.
- Ions are reabsorbed in the ascending limb of the loop of Henle.
- The ion concentration gradient set up in the area between the limbs drives osmosis in the descending limb.
- Approximately 95% of urine is water.
Urine excretion
Urine excretion
- Urine is formed from each nephron in collecting ducts.
- The collecting ducts converge in the renal pelvis to form the ureter of each kidney.
- The urine passes down the ureters and into the bladder.
- When the bladder is full, urine passes through the urethra and out of the body.
Osmoregulation and the Kidneys
Osmoregulation and the Kidneys
The kidneys are vital in osmoregulation and control water balance by reabsorbing more water when the body is dehydrated. This affects blood pressure and volume and the amount of water in the tissues.
Osmoreception
Osmoreception
- Osmoreceptors in the hypothalamus detect water composition in the blood.
- If the water level drops (due to increased sweating, decreased water intake or vomiting), the hypothalamus secretes antidiuretic hormone (ADH) and signals for the posterior pituitary gland to release it into the bloodstream.
Antidiuretic hormone (ADH)
Antidiuretic hormone (ADH)
- When the ADH reaches the cells in the collecting ducts, they become more permeable to water and so reabsorb more water.
- This increases the concentration of the urine and it appears darker.
- High concentrations of ADH constrict blood vessels, increasing blood pressure.
1Unity & Diversity - Molecules
1.1Water
1.2DNA Structure & Replication
1.3Transcription & Gene Expression
2Unity & Diversity - Cells
2.1The Origin of Cells
2.2Introduction to Cells
2.3Ultrastructure of Cells
2.4Cell Division
2.5Structure of DNA & RNA
2.6DNA Replication, Transcription & Translation
2.7Cell Respiration
2.8Photosynthesis
2.9Viruses
3Unity & Diversity - Organisms
3.1Diversity of Organisms
3.2Evidence for Evolution
4Unity & Diversity - Ecosystems
4.1Classification
4.3Evolution & Speciation
4.3.1Evidence for Evolution - Fossils & DNA
4.3.2Evidence for Evolution - Anatomy & Geography
4.3.3IB Multiple Choice - Evidence for Evolution
4.3.4Extended Response - DNA & Evolution
4.3.5Populations
4.3.6Mutations, Genetic Drift, & Gene Flow
4.3.7Speciation
4.3.8Rate of Speciation
4.3.9Allopatric & Sympatric Speciation
4.4Conservation of Biodiversity
5Form & Function - Molecules
6Form & Function - Cells
6.1Membranes & Membrane Transport
6.2Organelles & Compartmentalization
6.3Cell Specialization
7Form & Function - Organisms
7.2Transport
7.3Muscle & Motility
8Form & Function - Ecosystems
8.1Species, Communities & Ecosytems
8.3Carbon Cycle
9Interaction & Interdependence - Molecules
9.1Enzymes
9.2Metabolism
9.3Cell Respiration
10Interaction & Interdependence - Cells
10.1Chemical Signalling
10.2Neural Signalling
10.3Adaptation to Environment
10.4Ecological Niches
11Interaction & Interdependence - Organisms
11.1Integration of Body Systems
12Interaction & Interdependence - Ecosystems
12.1Populations & Communities
12.2Transfers of Energy & Matter
13Continuity & Change - Molecules
13.1DNA Replication
13.2Protein Synthesis
14Continuity & Change - Cells
15Continuity & Change - Organisms
15.1Inheritance
15.1.1Non-Nuclear Inheritance
15.1.2Linked Genes
15.1.3IB Multiple Choice - Non-Mendelian Genetics
15.1.4Extended Response - Inheritance
15.1.5Introduction to Non-Mendelian Inheritance
15.1.6Chi-Squared Test
15.1.7End of Topic Quiz - Inheritance
15.1.8Sex-Linked Genes
15.1.9Grade 4-5 (Scientific Practices) - Inheritance
16Continuity & Change - Ecosystems
16.1Natural Selection
16.2Stability & Change
Jump to other topics
1Unity & Diversity - Molecules
1.1Water
1.2DNA Structure & Replication
1.3Transcription & Gene Expression
2Unity & Diversity - Cells
2.1The Origin of Cells
2.2Introduction to Cells
2.3Ultrastructure of Cells
2.4Cell Division
2.5Structure of DNA & RNA
2.6DNA Replication, Transcription & Translation
2.7Cell Respiration
2.8Photosynthesis
2.9Viruses
3Unity & Diversity - Organisms
3.1Diversity of Organisms
3.2Evidence for Evolution
4Unity & Diversity - Ecosystems
4.1Classification
4.3Evolution & Speciation
4.3.1Evidence for Evolution - Fossils & DNA
4.3.2Evidence for Evolution - Anatomy & Geography
4.3.3IB Multiple Choice - Evidence for Evolution
4.3.4Extended Response - DNA & Evolution
4.3.5Populations
4.3.6Mutations, Genetic Drift, & Gene Flow
4.3.7Speciation
4.3.8Rate of Speciation
4.3.9Allopatric & Sympatric Speciation
4.4Conservation of Biodiversity
5Form & Function - Molecules
6Form & Function - Cells
6.1Membranes & Membrane Transport
6.2Organelles & Compartmentalization
6.3Cell Specialization
7Form & Function - Organisms
7.2Transport
7.3Muscle & Motility
8Form & Function - Ecosystems
8.1Species, Communities & Ecosytems
8.3Carbon Cycle
9Interaction & Interdependence - Molecules
9.1Enzymes
9.2Metabolism
9.3Cell Respiration
10Interaction & Interdependence - Cells
10.1Chemical Signalling
10.2Neural Signalling
10.3Adaptation to Environment
10.4Ecological Niches
11Interaction & Interdependence - Organisms
11.1Integration of Body Systems
12Interaction & Interdependence - Ecosystems
12.1Populations & Communities
12.2Transfers of Energy & Matter
13Continuity & Change - Molecules
13.1DNA Replication
13.2Protein Synthesis
14Continuity & Change - Cells
15Continuity & Change - Organisms
15.1Inheritance
15.1.1Non-Nuclear Inheritance
15.1.2Linked Genes
15.1.3IB Multiple Choice - Non-Mendelian Genetics
15.1.4Extended Response - Inheritance
15.1.5Introduction to Non-Mendelian Inheritance
15.1.6Chi-Squared Test
15.1.7End of Topic Quiz - Inheritance
15.1.8Sex-Linked Genes
15.1.9Grade 4-5 (Scientific Practices) - Inheritance
16Continuity & Change - Ecosystems
16.1Natural Selection
16.2Stability & Change
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