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Excretion The removal of cellular waste products. The metabolic activities of living organisms produce wastes. metabolic activity waste respiration dehydration synthesis protein* metabolism other metabolic activities CO 2, H 2 O H2OH2O nitrogenous wastes mineral salts *proteins contain nitrogen!
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Proteins are composed of repeating units called _________________ amino acids Amino acids contain the element Nitrogen: O H H C C N OH R H When these amino acids are broken down (hydrolyzed), nitrogenous wastes are produced. This process is called _____________________ deamination Nitrogenous wastes vary from the extremely toxic to nontoxic as follows: extremely toxic less toxic nontoxic ammonia urea uric acid
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Adaptations for Excretion 1. Protists (ameba, paramecium) CO 2 & H 2 O diffuse across the cell membrane excess H 2 O pumped out by contractile vacuole 2. Algae CO 2 from respiration is recycled/reused for photosynthesis
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3. Plants recycle CO 2 & O 2 for photosynthesis and respiration toxic wastes are stored in vacuoles ( can be harmful to organisms that eat the plant)…go to excess gases leave stomates and lenticels http://plantanswers.tamu.edu/publications/poison/poison.html See “Awesome Adaptations” sheet
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Human Excretion excretionvs.egestion removal of metabolic wastes (CO 2, H 2 O, salts & nitrogenous wastes: ammonia, urea, uric acid) removal of undigested or indigestible material (fiber, corn, penny)
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lungs 4. skin liver kidney
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Organs of Excretion 1. Lungs- 2. Liver- ~aids in the emulsification of fat ~contains salts, cholesterol & urochrome “clearing house” of the body largest organ in the body breaks down dead and worn out RBCs hemoglobin found in RBC broken down to urochrome (yellow): the pigment in bile if bile isn’t eliminated properly, the skin becomes jaundice (yellow) ~eliminated with feces ~stored in gall bladderbile … CO 2 & H 2 O from aerobic respiration are removed when you exhale
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The liver also disposes of nitrogenous wastes by makingurea : Proteins amino acids deamination bloodurea travels through sweat urine Deamination…breaks down an amino acid and removes the NH 2 group : O H H C C N OH R H The remaining C,H and O are available now to be reassembled into products that are useful to the body (very efficient!)
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Ex).pyruvic acid- can enter the respiration pathway & produce energy glycogen- form of stored energy in animals fats- can be stored for energy ---------------------------------------------------------------------- The liver also detoxifies (makes harmless) substances such as alcohol
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3.skin- contains sweat glands (coiled tubes in dermis) that have ducts leading to pores in the epidermis capillaries surround sweat glands: H 2 O, salts & urea diffuse from bloodgland to form sweat sweat regulates body T 0 /homeostasis when sweat evaporates and cools the skin
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4. Urinary system A.consists of: 1. kidneys-filter waste from blood, produce urine 2. ureters-carry urine from kidney to bladder 3. urinary bladder-stores urine 4. urethra-carries urine from bladder out of body
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B. Structure of the kidney 3. pelvis- 1. cortex- 2. medulla- outer region, blood is filtered, has nephrons middle, has collecting tubules & nephrons inner, connected to the ureter C. Nephron: the functional unit of the kidney 1. microscopic filtering units 3. located in the cortex and medulla 2. about 1 million/kidney (increased surface area for filtration)
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cortex pelvis ureter urethra bladder ureter kidney adrenal gland renal vein renal artery medulla
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D. Formation of Urine occurs in the nephrons consists of 2 stages: FILTRATION a. blood enters the glomerulus (bed of capillaries) b. substances under pressure move into the Bowman’s capsule c. this is called filtrate and contains: waterglucose saltsamino acids urea filtration filtration (of the blood) reabsorption reabsorption (when the blood reabsorbs the materials it needs)
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Bowman’s capsule renal artery renal arteriole glomerulus renal vein capillary renal venule Loop of Henle collecting tubule good stuff waste reabsorbedcollected as urine
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Note: blood cells and large molecules like proteins are too large to pass into Bowman’s capsule. If they detect blood or protein in your urine, there’s a problem! REABSORPTION a. Filtrate moves through the Loop of Henle d.Approx. 180 L filtrate/day produced but only 1 to 1.5L urine/day b/c ……. your kidneys reabsorb most of the filtrate to maintain water, salt and nutrient levels in your body. b.Most water, some salts & all glucose and amino acids are reabsorbed (returned to the blood) by the capillaries that surround the Loop of Henle. ~water diffuses ~other substances may require active transport
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c. The fluid remaining in the tubule is called urine (water, salts, urea) e.Kidney threshold level ~most substances have a threshold level in the blood d. Urine passes to the collecting duct ureter bladder ~ if the blood concentration of a substance exceeds this level, the excess is NOT reabsorbed, but it is excreted Diuretic drugs- ex) sugar found in the urine of a diabetic Medications that decrease the amount of fluid/water in your body by INCREASING FILTRATION AND DECREASING REABSORPTION(of the fluid/water) An increase in fluid may be caused by (and a cause of) congestive heart failure, liver disease, kidney disease nephron clip \\Shsshared\SHSSHARED\Science Dept L\biomovies\nephron.mov \\Shsshared\SHSSHARED\Science Dept L\biomovies\nephron.mov
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Disruption sheet
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alveoli :: lungs villi :: small intestine :: kidney Functional unit analogy nephron
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blood vessels /loop of Henle
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