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Bozeman Osmoregulation - 197
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Excretory System and Osmoregulation
Posterior vena cava Renal artery and vein Aorta Ureter Urinary bladder Urethra (a) Excretory organs and major associated blood vessels Kidney Excretory System and Osmoregulation Chapter 44 199
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Osmoregulation The regulating of water and solute concentrations to maintain homeostasis Osmolarity – moles solute / liter Isoosmotic – equal osmolarity internal and external Hypoosmotic – more dilute = more H2O Hyperosmotic – more concentrated = less H2O more solute
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Osmoregulation Osmoconformers – isoosmotic with external environment and therefore do not need to regulate osmolarity Marine invertebrates Osmoregulators – body fluids are not isoosmotic with external environment Environment Hypoosmotic – water constantly diffuses into the organism and they must get rid of excess water Freshwater animals and fish – constantly peeing Hyperosmotic – water constantly diffuses from the organism and they must uptake water Marine fish – drink saltwater to take in water and actively pump out the salt
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Osmoregulation Freshwater Marine Uptake of water and some ions in food
Osmotic water gain through gills and other parts of body surface salt ions by gills Excretion of large amounts of water in dilute urine from kidneys Gain of water and salt ions from food and by drinking seawater Osmotic water loss through gills and other parts of body surface Excretion of salt ions from gills Excretion of salt ions and small amounts of water in scanty urine from kidneys
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Excretory System - 199 Functions
Rid the body of nitrogen containing waste Rid the body of metabolic wastes Maintain homeostasis Filtration Reabsorption Secretion Excretion Filtration. The excretory tubule collects a 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. Reabsorption. The transport epithelium reclaims valuable substances from the filtrate and returns them to the body fluids. Secretion. Other substances, such as toxins and excess ions, are extracted from body fluids and added to the contents of the excretory tubule. Excretion. The filtrate leaves the system and the body. Capillary Excretory tubule Filtrate Urine 1 2 3 4
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Excretory System Structures Lungs Renal artery Skin Renal vein Kidney
Renal cortex Renal medulla Nephrons Renal artery Renal vein Ureter Urinary bladder Urethra
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198 IQ 44.5 Structure your knowledge #1
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Juxta- medullary nephron Cortical To renal pelvis Renal cortex medulla
Collecting duct To renal pelvis Renal cortex medulla 20 µm Afferent arteriole from renal artery Glomerulus Bowman’s capsule Proximal tubule Peritubular capillaries SEM Efferent arteriole from glomerulus Branch of renal vein Descending limb Ascending Loop of Henle Distal tubule (c) Nephron Vasa recta (d) Filtrate and blood flow
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Nitrogenous waste disposal - 201
Ammonia – highly toxic Requires lots of water to excrete Freshwater fish Urea – less toxic Requires minimal water Requires energy to convert from ammonia Land animals and marine fish Uric Acid – virtually nontoxic Insoluble in water – paste Extremely energetically costly to produce Reptiles and birds – low access to water
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Proteins Nucleic acids Amino acids Nitrogenous bases –NH2 Amino groups Most aquatic animals, including most bony fishes Mammals, most amphibians, sharks, some bony fishes Many reptiles (including birds), insects, land snails Ammonia Urea Uric acid NH3 NH2 O C N H HN
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Filtration - 201 Blood is first filtered in the liver removing toxins to produce urea which travels to the kidney. Blood pressure forces blood in the glomerulus into the Bowman’s capsule Water and small solutes pass through the Bowman’s capsule and large molecules such as blood cells and proteins stay in the capillaries Filtrate
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Reabsorption Valuable substances in the filtrate are reabsorbed into the capillaries of the blood. Proximal (convoluted) tubule Loop of Henle Distal (convoluted) tubule Collecting Duct
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Secretion Transfer of substances such as toxins from the blood in the capillaries to the Nephron (renal tubule) Maintains the pH of blood PCT and DCT H+ NH3
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Proximal tubule Filtrate H2O Salts (NaCl and others) HCO3– H+ Urea Glucose; amino acids Some drugs Key Active transport Passive transport CORTEX OUTER MEDULLA INNER Descending limb of loop of Henle Thick segment of ascending limb Thin segment Collecting duct NaCl Distal tubule Nutrients HCO3 K+ NH3 1 4 3 2 5
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Osmolarity of interstitial fluid (mosm/L)
H2O NaCl 300 100 400 600 900 1200 700 200 Active transport Passive transport OUTER MEDULLA INNER MEDULLA CORTEX Urea Osmolarity of interstitial fluid (mosm/L)
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Section of kidney from a rat
Excretion Collecting Duct Carries filtrate (urine) from multiple nephrons to the renal pelvis to the ureter to the bladder to the urethra where it is excreted. (b) Kidney structure Ureter Section of kidney from a rat Renal medulla cortex pelvis
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Flow map – Excretion of nitrogenous wastes – start in the liver
Summarize
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Feedback mechanisms – 205 -209
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