SlideShare une entreprise Scribd logo

Excretion & osmoregulation.

Chetan Kute
Chetan Kute

What is Excretion ?, organ used, types of regulation, modes of excretion, explanation of each, human excretory system & function, kidney and its parts, mechanism of urine formation, Dialysis

Formation
1  sur  35
Excretion & Osmoregulation CHETAN K.
What is Excretion  Excretion is the removal of metabolic waste from the cells.  Metabolic waste is the unwanted material that is formed as a result of the bodies metabolism. That is the large number of chemical reactions that occur in the cells, tissues and organs.  The waste products of metabolism are frequently toxic and so must be removed from the body.  Kidney plays important role in excretion process in all vertebrates.  While skin also helps in excretion of urea, inorganic salts & water through sweat glands.
Functions of Kidney Elimination on nitro. waste Maintain H2O level ie. osmoregulation Maintain H+ ion concentration ie iso-tonic
Modes of excretion process..  Excretion carried out in different manner in different animals viz.  Detoxificatation  Ammonia to urea  Ammonia to uric acid  Deamination  Amino acid to ammonia
Modes of Excretions Uricotelism Ammonot elism ureotelism
Ammonotelism  Phenomenon of formation of excretory product in form of ammonia is called as ammonotelism.  Organisms which show this activity are “ammonotelic”.  Ammonia is highly soluble in water & highly toxic in nature  It can be excreted by simple diffusion so its concentration in body is kept very low.  As it is harmful for body tissues hence need to remove as soon as formed.
Ammonotelic animals  For elimination of ammonia large quantity of water is required.  Due to this reason ammonotelism is seen in aquatic animals, bony fish, tadpole larva.  Such animals ammonia diffuse through the skin and gills and kidney.
Ureotelism  Excretion of nitrogenious waste in form of urea is uricotelism.  In this urea formation require expenditure of energy and formed in liver by ornithine cycle.  Urea can store in water in its dissolved form urine  Modrate amount of water is require ie 50 ml for 1 gm  Animals have this excretory systems are  Turtles  Mammals Ornithine Citralline Arginine NH3 CO2 H2O NH3 H2O Urea H2O
Uricotelism  Elimination of nitrogenous waste in form of uric acid.  Synthesis of uric acid require more energy. It takes place by inosinic pathway.  Uric acid is eliminated in form of solid pallets or thick paste which require very less amount of water  10 ml for 1 gm hence useful for desert animals  Animals possess this excretion system are  Snails  Reptiles  Lizards
Human Excretory system  Human Excretory System consist of following organs  A pair of kidney,  A pair of ureters,  A single unpaired urinary bladder,  A urethra in males / vestibule in females.
Function of the Excretory System  The human excretory system functions to remove waste from the human body.  During this process animals get rid of nitrogenous waste products of metabolism, including ammonia, urea, and uric acid.  Although excretory systems are diverse, nearly all produce urine in a process that involves several steps. Kidneys Urethras Urinary bladder Urethra Organs of the Excretory System
1. Filtration:  The excretory tubule collects filtrate from the blood. Water and solutes are forced by blood pressure across the selectively permeable membranes of a cluster of capillaries and into the excretory tubule. 2. Reabsorption:  The transport epithelium reclaims valuable substances from the filtrate and returns them. 3. Secretion:  Other substances are extracted from body fluids and added to the contents of the excretory tube. 4. Excretion:  The filtrate leaves the system and the body. Function of the Excretory System
Structure of the Excretory System  This system consists of specialized structures and capillary networks that assist in the excretory process.  The human excretory system includes the kidney and its functional unit, the nephron.  The excretory activity of the kidney is changed by specialized hormones that regulate the amount of absorption within the nephron. Bladder Kidneys Urethra Ureters Meatus
Kidney
 The kidneys are two bean-shaped organs about five-inches long, three-inches wide and one-inch thick located in your back on each side of your spine.  Each kidney is about the size of a fist and weighs from four to six ounces. They are situated above your waist, with the left kidney a little higher and a little larger.  The right kidney is a little lower and smaller to make room for the liver. The lower ribs protect your kidneys.  Inside the kidneys are nephrons. These are tiny units where the filtering of excess fluids and dissolved particles occurs. There are between 1 and 1.3 million nephrons in each kidney.  Blood enters the kidneys through renal arteries and leaves through renal veins.  Tubes called ureters carry waste products from the kidneys to the urinary bladder for storage or for release.  During urination, urine is expelled from the urinary bladder through the urethra. Kidney
Flow of UrineFlow of Urine Glomerulus Renal Tubules Renal Pelvis Renal Calices Ureters Renal cortex Renal capsule Renal medulla Ureter Renal vein Renal artery Nephron
Kidneys filter about 1700 liters of blood daily in the average adult. Parts of the kidneys • Cortex -outer protective portion • Medulla -inner soft portion • Hilum -a depression located in the middle of the concave side of the kidney where blood vessels, nerves, and the ureters enter and exit the kidneys Cortex Medulla Hilum  The cortex is where the blood is filtered.  The medulla contains the collecting ducts which carry filtrate (filtered substances) to the pelvis.  The pelvis is a hollow cavity where urine accumulates and drains into the ureter.
Ureters Peristalsis, a rhythmic contraction of the ureter smooth muscle which helps to move the urine into the bladder. A tube approximately 6 to 7 inches long attached to each kidney.  Made up of three layers of tissue  Smooth muscle  Fibrous tissue  Mucous layer
Urinary Bladder •Hollow, muscular organ that stores urine •Sphincter muscles hold the urine in place •Holds 300 to 400 milliliters of urine before emptying •Walls contain epithelial tissue that stretch to allow the bladder to hold twice its capacity Urethra Prostate gland Ureter Urinary bladder •The trigone is a triangular area at the base of the bladder where the ureters enter and the urethra exits
Urethra Female Urethra Male Urethra •Approximately 1.5 inches long •Opens through the meatus •Approximately 8 inches long •Passes through three different regions: Prostate gland Membranous portion Penis A tube of smooth muscle with a mucous lining that carries urine from the bladder to the outside of the body.
 The functional units of the kidney are called nephrons.  Nephrons are located in the renal cortex, except for their loops of Henle, which descend into the renal medulla. Nephron
Two parts a. Renal Corpuscle 1. Bowman Capsule 2. Glomerulus a. Fenestrae - pore in endothelial walls of glomerulus. b. Podocytes - specialized cells. c. Filteration slits b. Renal Tubule - Series of single layer tubules 1. Proximal Convoluted tubule 2. Loop of Henle 3. Distal Convoluted tubule Nephron Kidneys are made up of nephrons. Blood enters the nephron, where impurities are filtered out and emptied into the collecting duct. The purified blood leaves the nephron through the renal vein.
Nephron
 The glomerulus is a mass of thin-walled capillaries.  The Bowman’s capsule is a double-walled, cup-shaped structure.  The proximal tubule leads from the Bowman’s capsule to the Loop of Henle.  The loop of Henle is a long loop which extends into the medulla.  The distal tubule connects the loop of Henle to the collecting duct.  Each nephron has its own blood supply:  An arteriole  A venule  A network of capillaries connecting them Each nephron releases fluids to a collecting duct, which leads to the ureter.
Each kidney contains more than 1 million nephrons.  Blood Flow through the Kidneys Blood enters through the renal artery Arterioles Each arteriole leads to a nephron Renal corpuscle The glomerulus filters fluid from the blood, and is the first place where urine is formed in the kidneys. Blood flows through the glomerulus at a constant rate. Each glomerulus is surrounded by a capsule known as Bowman’s capsule. Blood then passes into the renal tubules where some substances are reabsorbed and the remaining become urine.
The Kidneys  As blood enters a nephron through the arteriole, impurities are filtered out and emptied into the collecting duct.  The purified blood exits the nephron through the venule. How is blood filtered?  The mechanism of blood purification involves two distinct processes:  Filtration  Reabsorption
Filtration  Passing a liquid or gas through a filter to remove wastes is called filtration.  The filtration of blood mainly takes place in the glomerulus.  The glomerulus is a small network of capillaries encased in the top of the nephron by a hollow, cup-shaped structure called Bowman's capsule.  Fluid from the blood flows into Bowman’s capsule.  The materials filtered from the blood include water, urea, glucose, salts, amino acids, and some vitamins.  Plasma proteins, cells, and platelets remain in the blood because they are too large to pass through the capillary walls.
Composition And Formation of Urine  urine formation take place in three different stages :  Ultrafiltration,  Selective Reabsorption,  Tubular secretion.
Ultrafiltration  Takes place in Malpighian body, its physical process.  Glomerulus & bowman’s capsule act as filtering unit.  10-1000 X more permeable capillaries of glomerulus help to enter water plasma blood inside the filtering unit  Afferent arteriole diameter is larger than efferent.
Selective Reabsorption  This process stake place in two steps :  Passive transport  Active transport.  Water is reabsorbed by osmosis in PCT, DCT, descending loop of Henle almost everywhere except acending part of it known as, “Obligatory absorption of water”.  The kidneys maximum capacity for reabsorption of substance is transport renal threshold.  Eg.  45-95 mg of sugar in 100 ml of blood is normal level, but if it rise above maximum level ie 160 mg per 100 ml. then glucose appears in urine. This knows as “Glucosuria”.
 Reabsorption  Most of the material removed from the blood at Bowman's capsule makes its way back into the blood.  The process in which liquid is taken back into a vessel is called reabsorption.  Almost 99% of the water that enters Bowman’s capsule is reabsorbed into the blood.  When the filtrate drains in the collecting ducts, most water and nutrients have been reabsorbed into the blood. Glomerulus Afferent arteriole Efferent arteriole Bowman’s capsule Glomerular Filtration
 Remaining material, called urine, is emptied into a collecting duct.  Urine is primarily concentrated in the loop of Henle.  The loop of Henle is a section of the nephron tubule in which water is conserved and the volume of urine minimized.  As the kidney works, purified blood is returned to circulation while urine is collected in the urinary bladder.  Urine is stored here until it is released from the body through a tube called the urethra.
Tubular secretion  It does not synthesize or add any material in the urine.  Substance which generally secreted are creatinineand potassium and hydrogen ion.  Secretion of ion in in DCT and collecting tubule is important to regulate the acidity of blood.  Some abnormal substance in blood are also secreted in the urine.  Anti-biotics like penicillin iodine compound, iodopyrace are secreted in urine
Composition of Urine  Depends on food that individual eat consume on daily basis.  On an average 1.2-1.5 ltr of urine produced per day.  Characteristic yellow colour is due to presence of pigment “urochrome”.  Contains :  95 % of water  Rest of urea, uric acid, creatinine
 Tiny pores in the tubing allow salts and small molecules to pass through.  Wastes diffuse out of the blood into the fluid- filled chamber, allowing purified blood to be returned to the body. Dialysis Air detector Dialysis machine Fresh dialysis fluid Compressed air Vein Artery Shunt Blood pump Blood in tubing flows through dialysis fluid Used dialysis fluid  Blood is removed by a tube and pumped through special tubing that acts like nephrons.

Recommandé

Excretion and osmoregulation
Excretion and osmoregulationExcretion and osmoregulation
Excretion and osmoregulation
Aarif Kanadia
 
Osmoregulatory functions of vertebrate kidney
Osmoregulatory functions of vertebrate kidneyOsmoregulatory functions of vertebrate kidney
Osmoregulatory functions of vertebrate kidney
Pradip Subedi
 
Heart in vetrebrates
Heart in vetrebratesHeart in vetrebrates
Heart in vetrebrates
Govt.college,Nagda, ujjain.M.P
 
Respiration in amphibians and reptiles
Respiration in amphibians and reptilesRespiration in amphibians and reptiles
Respiration in amphibians and reptiles
DinDin Horneja
 
Introducton and classification chordata
Introducton and classification chordataIntroducton and classification chordata
Introducton and classification chordata
SoniaBajaj10
 
Aortic arches
Aortic archesAortic arches
Aortic arches
Govt.college,Nagda, ujjain.M.P
 
Osmoregulation in Fishes and Birds
Osmoregulation in Fishes and Birds Osmoregulation in Fishes and Birds
Osmoregulation in Fishes and Birds
PRANJAL SHARMA
 
Evolution of Heart
Evolution of HeartEvolution of Heart
Evolution of Heart
Dr. Pranabjyoti Das
 

Recommandé

Excretion and osmoregulation
Excretion and osmoregulationExcretion and osmoregulation
Excretion and osmoregulation
Aarif Kanadia
 
Osmoregulatory functions of vertebrate kidney
Osmoregulatory functions of vertebrate kidneyOsmoregulatory functions of vertebrate kidney
Osmoregulatory functions of vertebrate kidney
Pradip Subedi
 
Heart in vetrebrates
Heart in vetrebratesHeart in vetrebrates
Heart in vetrebrates
Govt.college,Nagda, ujjain.M.P
 
Respiration in amphibians and reptiles
Respiration in amphibians and reptilesRespiration in amphibians and reptiles
Respiration in amphibians and reptiles
DinDin Horneja
 
Introducton and classification chordata
Introducton and classification chordataIntroducton and classification chordata
Introducton and classification chordata
SoniaBajaj10
 
Aortic arches
Aortic archesAortic arches
Aortic arches
Govt.college,Nagda, ujjain.M.P
 
Osmoregulation in Fishes and Birds
Osmoregulation in Fishes and Birds Osmoregulation in Fishes and Birds
Osmoregulation in Fishes and Birds
PRANJAL SHARMA
 
Evolution of Heart
Evolution of HeartEvolution of Heart
Evolution of Heart
Dr. Pranabjyoti Das
 
Osmoregulation
OsmoregulationOsmoregulation
Osmoregulation
kristenw3
 
Vertebrate respiratory system
Vertebrate respiratory systemVertebrate respiratory system
Vertebrate respiratory system
Govt.college,Nagda, ujjain.M.P
 
Avian respiration
Avian respirationAvian respiration
Avian respiration
University of Agriculture Faisalabad
 
Excretion Ppt
Excretion PptExcretion Ppt
Excretion Ppt
meyerl
 
Circulatory System Of The Vertebrates
Circulatory System Of The VertebratesCirculatory System Of The Vertebrates
Circulatory System Of The Vertebrates
Geonyzl Alviola
 
Comparative account of respiratory organs in vertebrates
Comparative account of respiratory organs in vertebratesComparative account of respiratory organs in vertebrates
Comparative account of respiratory organs in vertebrates
BhavanaShrotriy
 
Pattern of nitrogenous waste and phylogenectical development of
Pattern of nitrogenous waste and phylogenectical development ofPattern of nitrogenous waste and phylogenectical development of
Pattern of nitrogenous waste and phylogenectical development of
ShumailAyub3
 
succession of kidneys in a vertebrate series
succession of kidneys in a vertebrate seriessuccession of kidneys in a vertebrate series
succession of kidneys in a vertebrate series
Naman Sharma
 
Osmoregulation in birds and mammals
Osmoregulation in birds and mammalsOsmoregulation in birds and mammals
Osmoregulation in birds and mammals
PoojaVishnoi7
 
Nervous system of pila
Nervous system of pilaNervous system of pila
Nervous system of pila
sunandakumre
 
Origin of chordata
Origin of chordataOrigin of chordata
Origin of chordata
Govt.college,Nagda, ujjain.M.P
 
Outline of classification of protochordates
Outline of classification of protochordatesOutline of classification of protochordates
Outline of classification of protochordates
Dr. Manoj Bangadkar
 
PHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISM
PHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISMPHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISM
PHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISM
LimitlessSourav
 
Comparative Anatomy of Respiratory System of Vertebrates
Comparative Anatomy of Respiratory System of VertebratesComparative Anatomy of Respiratory System of Vertebrates
Comparative Anatomy of Respiratory System of Vertebrates
RameshPandi4
 
Mechanisms of osmoregulation in fresh water and marine water invertebrates
Mechanisms of osmoregulation in fresh water and marine water invertebratesMechanisms of osmoregulation in fresh water and marine water invertebrates
Mechanisms of osmoregulation in fresh water and marine water invertebrates
faunafondness
 
Osmoregulation and excretion
Osmoregulation and excretionOsmoregulation and excretion
Osmoregulation and excretion
Ivana Damnjanović
 
NEW TRENDS IN TAXONOMY.pptx
NEW TRENDS IN TAXONOMY.pptxNEW TRENDS IN TAXONOMY.pptx
NEW TRENDS IN TAXONOMY.pptx
RISHAD K A
 
Visceral arches
Visceral archesVisceral arches
Visceral arches
Mohd Asif Kanth
 
Respiratory pigments
Respiratory pigmentsRespiratory pigments
Respiratory pigments
navinkumar689
 
Receptor organs in vertebrates
Receptor organs in vertebratesReceptor organs in vertebrates
Receptor organs in vertebrates
sunandakumre
 
Excretory system
Excretory systemExcretory system
Excretory system
Abhay Rajpoot
 
Excretory+System.pptx
Excretory+System.pptxExcretory+System.pptx
Excretory+System.pptx
Christopher Singh
 

Contenu connexe

Tendances

Vertebrate respiratory system
Vertebrate respiratory systemVertebrate respiratory system
Vertebrate respiratory system
Govt.college,Nagda, ujjain.M.P
 
Excretion Ppt
Excretion PptExcretion Ppt
Excretion Ppt
meyerl
 
Circulatory System Of The Vertebrates
Circulatory System Of The VertebratesCirculatory System Of The Vertebrates
Circulatory System Of The Vertebrates
Geonyzl Alviola
 
Origin of chordata
Origin of chordataOrigin of chordata
Origin of chordata
Govt.college,Nagda, ujjain.M.P
 

Tendances (20)

Osmoregulation
OsmoregulationOsmoregulation
Osmoregulation
 
Vertebrate respiratory system
Vertebrate respiratory systemVertebrate respiratory system
Vertebrate respiratory system
 
Avian respiration
Avian respirationAvian respiration
Avian respiration
 
Excretion Ppt
Excretion PptExcretion Ppt
Excretion Ppt
 
Circulatory System Of The Vertebrates
Circulatory System Of The VertebratesCirculatory System Of The Vertebrates
Circulatory System Of The Vertebrates
 
Comparative account of respiratory organs in vertebrates
Comparative account of respiratory organs in vertebratesComparative account of respiratory organs in vertebrates
Comparative account of respiratory organs in vertebrates
 
Pattern of nitrogenous waste and phylogenectical development of
Pattern of nitrogenous waste and phylogenectical development ofPattern of nitrogenous waste and phylogenectical development of
Pattern of nitrogenous waste and phylogenectical development of
 
succession of kidneys in a vertebrate series
succession of kidneys in a vertebrate seriessuccession of kidneys in a vertebrate series
succession of kidneys in a vertebrate series
 
Osmoregulation in birds and mammals
Osmoregulation in birds and mammalsOsmoregulation in birds and mammals
Osmoregulation in birds and mammals
 
Nervous system of pila
Nervous system of pilaNervous system of pila
Nervous system of pila
 
Origin of chordata
Origin of chordataOrigin of chordata
Origin of chordata
 
Outline of classification of protochordates
Outline of classification of protochordatesOutline of classification of protochordates
Outline of classification of protochordates
 
PHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISM
PHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISMPHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISM
PHYLUM ANNELIDA WITH SPECIAL REFERENCE TO METAMERISM
 
Comparative Anatomy of Respiratory System of Vertebrates
Comparative Anatomy of Respiratory System of VertebratesComparative Anatomy of Respiratory System of Vertebrates
Comparative Anatomy of Respiratory System of Vertebrates
 
Mechanisms of osmoregulation in fresh water and marine water invertebrates
Mechanisms of osmoregulation in fresh water and marine water invertebratesMechanisms of osmoregulation in fresh water and marine water invertebrates
Mechanisms of osmoregulation in fresh water and marine water invertebrates
 
Osmoregulation and excretion
Osmoregulation and excretionOsmoregulation and excretion
Osmoregulation and excretion
 
NEW TRENDS IN TAXONOMY.pptx
NEW TRENDS IN TAXONOMY.pptxNEW TRENDS IN TAXONOMY.pptx
NEW TRENDS IN TAXONOMY.pptx
 
Visceral arches
Visceral archesVisceral arches
Visceral arches
 
Respiratory pigments
Respiratory pigmentsRespiratory pigments
Respiratory pigments
 
Receptor organs in vertebrates
Receptor organs in vertebratesReceptor organs in vertebrates
Receptor organs in vertebrates
 

Similaire à Excretion & osmoregulation.

excretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptxexcretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptx
MujibUrRahman81887
 
excretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptxexcretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptx
MujibUrRahman81887
 
Excretory System
Excretory SystemExcretory System
Excretory System
itutor
 
Urinary and Excretory system
Urinary and Excretory system Urinary and Excretory system
Urinary and Excretory system
harshraman1989
 

Similaire à Excretion & osmoregulation. (20)

Excretory system
Excretory systemExcretory system
Excretory system
 
Excretory+System.pptx
Excretory+System.pptxExcretory+System.pptx
Excretory+System.pptx
 
Biology project.pptx
Biology project.pptxBiology project.pptx
Biology project.pptx
 
Urinary system.
Urinary system.Urinary system.
Urinary system.
 
excretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptxexcretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptx
 
Excretory system
Excretory systemExcretory system
Excretory system
 
Life proccess
Life proccessLife proccess
Life proccess
 
excretory system URINARY SYSTEM GENITOURINARY SYSTEM
excretory system URINARY SYSTEM GENITOURINARY SYSTEMexcretory system URINARY SYSTEM GENITOURINARY SYSTEM
excretory system URINARY SYSTEM GENITOURINARY SYSTEM
 
excretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptxexcretorysystem-130619031624-phpapp01 (1).pptx
excretorysystem-130619031624-phpapp01 (1).pptx
 
urinary system (1).pptx
urinary system (1).pptxurinary system (1).pptx
urinary system (1).pptx
 
Urinary system
Urinary systemUrinary system
Urinary system
 
Excretory System
Excretory SystemExcretory System
Excretory System
 
Excretory system and its parts with details
Excretory system and its parts with detailsExcretory system and its parts with details
Excretory system and its parts with details
 
EXCRETORY SYSTEM
EXCRETORY SYSTEMEXCRETORY SYSTEM
EXCRETORY SYSTEM
 
Excretory system
Excretory systemExcretory system
Excretory system
 
Urinary system 664.pptx ngaun na to
Urinary system 664.pptx ngaun na toUrinary system 664.pptx ngaun na to
Urinary system 664.pptx ngaun na to
 
Excretory system in Human (Class 10)
Excretory system in Human (Class 10)Excretory system in Human (Class 10)
Excretory system in Human (Class 10)
 
CMP3202_P-B_PROJECT_(1)[1].pptx
CMP3202_P-B_PROJECT_(1)[1].pptxCMP3202_P-B_PROJECT_(1)[1].pptx
CMP3202_P-B_PROJECT_(1)[1].pptx
 
Urinary System.pptx
Urinary System.pptxUrinary System.pptx
Urinary System.pptx
 
Urinary and Excretory system
Urinary and Excretory system Urinary and Excretory system
Urinary and Excretory system
 

Dernier

Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
ZurliaSoop
 
Spellings Wk 3 English CAPS CARES Please Practise
Spellings Wk 3 English CAPS CARES Please PractiseSpellings Wk 3 English CAPS CARES Please Practise
Spellings Wk 3 English CAPS CARES Please Practise
AnaAcapella
 

Dernier (20)

Graduate Outcomes Presentation Slides - English
Graduate Outcomes Presentation Slides - EnglishGraduate Outcomes Presentation Slides - English
Graduate Outcomes Presentation Slides - English
 
General Principles of Intellectual Property: Concepts of Intellectual Proper...
General Principles of Intellectual Property: Concepts of Intellectual Proper...General Principles of Intellectual Property: Concepts of Intellectual Proper...
General Principles of Intellectual Property: Concepts of Intellectual Proper...
 
How to setup Pycharm environment for Odoo 17.pptx
How to setup Pycharm environment for Odoo 17.pptxHow to setup Pycharm environment for Odoo 17.pptx
How to setup Pycharm environment for Odoo 17.pptx
 
80 ĐỀ THI THỬ TUYỂN SINH TIẾNG ANH VÀO 10 SỞ GD – ĐT THÀNH PHỐ HỒ CHÍ MINH NĂ...
80 ĐỀ THI THỬ TUYỂN SINH TIẾNG ANH VÀO 10 SỞ GD – ĐT THÀNH PHỐ HỒ CHÍ MINH NĂ...80 ĐỀ THI THỬ TUYỂN SINH TIẾNG ANH VÀO 10 SỞ GD – ĐT THÀNH PHỐ HỒ CHÍ MINH NĂ...
80 ĐỀ THI THỬ TUYỂN SINH TIẾNG ANH VÀO 10 SỞ GD – ĐT THÀNH PHỐ HỒ CHÍ MINH NĂ...
 
2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx
2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx
2024-NATIONAL-LEARNING-CAMP-AND-OTHER.pptx
 
Application orientated numerical on hev.ppt
Application orientated numerical on hev.pptApplication orientated numerical on hev.ppt
Application orientated numerical on hev.ppt
 
Introduction to Nonprofit Accounting: The Basics
Introduction to Nonprofit Accounting: The BasicsIntroduction to Nonprofit Accounting: The Basics
Introduction to Nonprofit Accounting: The Basics
 
Python Notes for mca i year students osmania university.docx
Python Notes for mca i year students osmania university.docxPython Notes for mca i year students osmania university.docx
Python Notes for mca i year students osmania university.docx
 
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
Jual Obat Aborsi Hongkong ( Asli No.1 ) 085657271886 Obat Penggugur Kandungan...
 
SOC 101 Demonstration of Learning Presentation
SOC 101 Demonstration of Learning PresentationSOC 101 Demonstration of Learning Presentation
SOC 101 Demonstration of Learning Presentation
 
On National Teacher Day, meet the 2024-25 Kenan Fellows
On National Teacher Day, meet the 2024-25 Kenan FellowsOn National Teacher Day, meet the 2024-25 Kenan Fellows
On National Teacher Day, meet the 2024-25 Kenan Fellows
 
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptxSKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
SKILL OF INTRODUCING THE LESSON MICRO SKILLS.pptx
 
This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.This PowerPoint helps students to consider the concept of infinity.
This PowerPoint helps students to consider the concept of infinity.
 
Beyond_Borders_Understanding_Anime_and_Manga_Fandom_A_Comprehensive_Audience_...
Beyond_Borders_Understanding_Anime_and_Manga_Fandom_A_Comprehensive_Audience_...Beyond_Borders_Understanding_Anime_and_Manga_Fandom_A_Comprehensive_Audience_...
Beyond_Borders_Understanding_Anime_and_Manga_Fandom_A_Comprehensive_Audience_...
 
Google Gemini An AI Revolution in Education.pptx
Google Gemini An AI Revolution in Education.pptxGoogle Gemini An AI Revolution in Education.pptx
Google Gemini An AI Revolution in Education.pptx
 
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
TỔNG ÔN TẬP THI VÀO LỚP 10 MÔN TIẾNG ANH NĂM HỌC 2023 - 2024 CÓ ĐÁP ÁN (NGỮ Â...
 
FSB Advising Checklist - Orientation 2024
FSB Advising Checklist - Orientation 2024FSB Advising Checklist - Orientation 2024
FSB Advising Checklist - Orientation 2024
 
Unit 3 Emotional Intelligence and Spiritual Intelligence.pdf
Unit 3 Emotional Intelligence and Spiritual Intelligence.pdfUnit 3 Emotional Intelligence and Spiritual Intelligence.pdf
Unit 3 Emotional Intelligence and Spiritual Intelligence.pdf
 
Unit-V; Pricing (Pharma Marketing Management).pptx
Unit-V; Pricing (Pharma Marketing Management).pptxUnit-V; Pricing (Pharma Marketing Management).pptx
Unit-V; Pricing (Pharma Marketing Management).pptx
 
Spellings Wk 3 English CAPS CARES Please Practise
Spellings Wk 3 English CAPS CARES Please PractiseSpellings Wk 3 English CAPS CARES Please Practise
Spellings Wk 3 English CAPS CARES Please Practise
 

Excretion & osmoregulation.

  • 2. What is Excretion  Excretion is the removal of metabolic waste from the cells.  Metabolic waste is the unwanted material that is formed as a result of the bodies metabolism. That is the large number of chemical reactions that occur in the cells, tissues and organs.  The waste products of metabolism are frequently toxic and so must be removed from the body.  Kidney plays important role in excretion process in all vertebrates.  While skin also helps in excretion of urea, inorganic salts & water through sweat glands.
  • 3. Functions of Kidney Elimination on nitro. waste Maintain H2O level ie. osmoregulation Maintain H+ ion concentration ie iso-tonic
  • 4. Modes of excretion process..  Excretion carried out in different manner in different animals viz.  Detoxificatation  Ammonia to urea  Ammonia to uric acid  Deamination  Amino acid to ammonia
  • 6. Ammonotelism  Phenomenon of formation of excretory product in form of ammonia is called as ammonotelism.  Organisms which show this activity are “ammonotelic”.  Ammonia is highly soluble in water & highly toxic in nature  It can be excreted by simple diffusion so its concentration in body is kept very low.  As it is harmful for body tissues hence need to remove as soon as formed.
  • 7. Ammonotelic animals  For elimination of ammonia large quantity of water is required.  Due to this reason ammonotelism is seen in aquatic animals, bony fish, tadpole larva.  Such animals ammonia diffuse through the skin and gills and kidney.
  • 8. Ureotelism  Excretion of nitrogenious waste in form of urea is uricotelism.  In this urea formation require expenditure of energy and formed in liver by ornithine cycle.  Urea can store in water in its dissolved form urine  Modrate amount of water is require ie 50 ml for 1 gm  Animals have this excretory systems are  Turtles  Mammals Ornithine Citralline Arginine NH3 CO2 H2O NH3 H2O Urea H2O
  • 9. Uricotelism  Elimination of nitrogenous waste in form of uric acid.  Synthesis of uric acid require more energy. It takes place by inosinic pathway.  Uric acid is eliminated in form of solid pallets or thick paste which require very less amount of water  10 ml for 1 gm hence useful for desert animals  Animals possess this excretion system are  Snails  Reptiles  Lizards
  • 10. Human Excretory system  Human Excretory System consist of following organs  A pair of kidney,  A pair of ureters,  A single unpaired urinary bladder,  A urethra in males / vestibule in females.
  • 11. Function of the Excretory System  The human excretory system functions to remove waste from the human body.  During this process animals get rid of nitrogenous waste products of metabolism, including ammonia, urea, and uric acid.  Although excretory systems are diverse, nearly all produce urine in a process that involves several steps. Kidneys Urethras Urinary bladder Urethra Organs of the Excretory System
  • 12. 1. Filtration:  The excretory tubule collects filtrate from the blood. Water and solutes are forced by blood pressure across the selectively permeable membranes of a cluster of capillaries and into the excretory tubule. 2. Reabsorption:  The transport epithelium reclaims valuable substances from the filtrate and returns them. 3. Secretion:  Other substances are extracted from body fluids and added to the contents of the excretory tube. 4. Excretion:  The filtrate leaves the system and the body. Function of the Excretory System
  • 13. Structure of the Excretory System  This system consists of specialized structures and capillary networks that assist in the excretory process.  The human excretory system includes the kidney and its functional unit, the nephron.  The excretory activity of the kidney is changed by specialized hormones that regulate the amount of absorption within the nephron. Bladder Kidneys Urethra Ureters Meatus
  • 15.  The kidneys are two bean-shaped organs about five-inches long, three-inches wide and one-inch thick located in your back on each side of your spine.  Each kidney is about the size of a fist and weighs from four to six ounces. They are situated above your waist, with the left kidney a little higher and a little larger.  The right kidney is a little lower and smaller to make room for the liver. The lower ribs protect your kidneys.  Inside the kidneys are nephrons. These are tiny units where the filtering of excess fluids and dissolved particles occurs. There are between 1 and 1.3 million nephrons in each kidney.  Blood enters the kidneys through renal arteries and leaves through renal veins.  Tubes called ureters carry waste products from the kidneys to the urinary bladder for storage or for release.  During urination, urine is expelled from the urinary bladder through the urethra. Kidney
  • 16. Flow of UrineFlow of Urine Glomerulus Renal Tubules Renal Pelvis Renal Calices Ureters Renal cortex Renal capsule Renal medulla Ureter Renal vein Renal artery Nephron
  • 17. Kidneys filter about 1700 liters of blood daily in the average adult. Parts of the kidneys • Cortex -outer protective portion • Medulla -inner soft portion • Hilum -a depression located in the middle of the concave side of the kidney where blood vessels, nerves, and the ureters enter and exit the kidneys Cortex Medulla Hilum  The cortex is where the blood is filtered.  The medulla contains the collecting ducts which carry filtrate (filtered substances) to the pelvis.  The pelvis is a hollow cavity where urine accumulates and drains into the ureter.
  • 18. Ureters Peristalsis, a rhythmic contraction of the ureter smooth muscle which helps to move the urine into the bladder. A tube approximately 6 to 7 inches long attached to each kidney.  Made up of three layers of tissue  Smooth muscle  Fibrous tissue  Mucous layer
  • 19. Urinary Bladder •Hollow, muscular organ that stores urine •Sphincter muscles hold the urine in place •Holds 300 to 400 milliliters of urine before emptying •Walls contain epithelial tissue that stretch to allow the bladder to hold twice its capacity Urethra Prostate gland Ureter Urinary bladder •The trigone is a triangular area at the base of the bladder where the ureters enter and the urethra exits
  • 20. Urethra Female Urethra Male Urethra •Approximately 1.5 inches long •Opens through the meatus •Approximately 8 inches long •Passes through three different regions: Prostate gland Membranous portion Penis A tube of smooth muscle with a mucous lining that carries urine from the bladder to the outside of the body.
  • 21.  The functional units of the kidney are called nephrons.  Nephrons are located in the renal cortex, except for their loops of Henle, which descend into the renal medulla. Nephron
  • 22. Two parts a. Renal Corpuscle 1. Bowman Capsule 2. Glomerulus a. Fenestrae - pore in endothelial walls of glomerulus. b. Podocytes - specialized cells. c. Filteration slits b. Renal Tubule - Series of single layer tubules 1. Proximal Convoluted tubule 2. Loop of Henle 3. Distal Convoluted tubule Nephron Kidneys are made up of nephrons. Blood enters the nephron, where impurities are filtered out and emptied into the collecting duct. The purified blood leaves the nephron through the renal vein.
  • 24.  The glomerulus is a mass of thin-walled capillaries.  The Bowman’s capsule is a double-walled, cup-shaped structure.  The proximal tubule leads from the Bowman’s capsule to the Loop of Henle.  The loop of Henle is a long loop which extends into the medulla.  The distal tubule connects the loop of Henle to the collecting duct.  Each nephron has its own blood supply:  An arteriole  A venule  A network of capillaries connecting them Each nephron releases fluids to a collecting duct, which leads to the ureter.
  • 25. Each kidney contains more than 1 million nephrons.  Blood Flow through the Kidneys Blood enters through the renal artery Arterioles Each arteriole leads to a nephron Renal corpuscle The glomerulus filters fluid from the blood, and is the first place where urine is formed in the kidneys. Blood flows through the glomerulus at a constant rate. Each glomerulus is surrounded by a capsule known as Bowman’s capsule. Blood then passes into the renal tubules where some substances are reabsorbed and the remaining become urine.
  • 26. The Kidneys  As blood enters a nephron through the arteriole, impurities are filtered out and emptied into the collecting duct.  The purified blood exits the nephron through the venule. How is blood filtered?  The mechanism of blood purification involves two distinct processes:  Filtration  Reabsorption
  • 27. Filtration  Passing a liquid or gas through a filter to remove wastes is called filtration.  The filtration of blood mainly takes place in the glomerulus.  The glomerulus is a small network of capillaries encased in the top of the nephron by a hollow, cup-shaped structure called Bowman's capsule.  Fluid from the blood flows into Bowman’s capsule.  The materials filtered from the blood include water, urea, glucose, salts, amino acids, and some vitamins.  Plasma proteins, cells, and platelets remain in the blood because they are too large to pass through the capillary walls.
  • 28. Composition And Formation of Urine  urine formation take place in three different stages :  Ultrafiltration,  Selective Reabsorption,  Tubular secretion.
  • 29. Ultrafiltration  Takes place in Malpighian body, its physical process.  Glomerulus & bowman’s capsule act as filtering unit.  10-1000 X more permeable capillaries of glomerulus help to enter water plasma blood inside the filtering unit  Afferent arteriole diameter is larger than efferent.
  • 30. Selective Reabsorption  This process stake place in two steps :  Passive transport  Active transport.  Water is reabsorbed by osmosis in PCT, DCT, descending loop of Henle almost everywhere except acending part of it known as, “Obligatory absorption of water”.  The kidneys maximum capacity for reabsorption of substance is transport renal threshold.  Eg.  45-95 mg of sugar in 100 ml of blood is normal level, but if it rise above maximum level ie 160 mg per 100 ml. then glucose appears in urine. This knows as “Glucosuria”.
  • 31.  Reabsorption  Most of the material removed from the blood at Bowman's capsule makes its way back into the blood.  The process in which liquid is taken back into a vessel is called reabsorption.  Almost 99% of the water that enters Bowman’s capsule is reabsorbed into the blood.  When the filtrate drains in the collecting ducts, most water and nutrients have been reabsorbed into the blood. Glomerulus Afferent arteriole Efferent arteriole Bowman’s capsule Glomerular Filtration
  • 32.  Remaining material, called urine, is emptied into a collecting duct.  Urine is primarily concentrated in the loop of Henle.  The loop of Henle is a section of the nephron tubule in which water is conserved and the volume of urine minimized.  As the kidney works, purified blood is returned to circulation while urine is collected in the urinary bladder.  Urine is stored here until it is released from the body through a tube called the urethra.
  • 33. Tubular secretion  It does not synthesize or add any material in the urine.  Substance which generally secreted are creatinineand potassium and hydrogen ion.  Secretion of ion in in DCT and collecting tubule is important to regulate the acidity of blood.  Some abnormal substance in blood are also secreted in the urine.  Anti-biotics like penicillin iodine compound, iodopyrace are secreted in urine
  • 34. Composition of Urine  Depends on food that individual eat consume on daily basis.  On an average 1.2-1.5 ltr of urine produced per day.  Characteristic yellow colour is due to presence of pigment “urochrome”.  Contains :  95 % of water  Rest of urea, uric acid, creatinine
  • 35.  Tiny pores in the tubing allow salts and small molecules to pass through.  Wastes diffuse out of the blood into the fluid- filled chamber, allowing purified blood to be returned to the body. Dialysis Air detector Dialysis machine Fresh dialysis fluid Compressed air Vein Artery Shunt Blood pump Blood in tubing flows through dialysis fluid Used dialysis fluid  Blood is removed by a tube and pumped through special tubing that acts like nephrons.