1. Digestion
2. 1) HETEROTROPHIC LIFESTYLE
* Heterotrophic = must obtain nutrients through organic molecules
a. Herbivore = plant eater - 1o consumer
b. Carnivore = meat eater 2o + consumer
c. Omnivore = plant/meat eater 1o and 2o consumers
d. Detritovore = detritus feeder recyclers
detritus = dead and decaying material
3. 2) DIGESTIVE TRACTS
a. General function:
i. Ingest food
ii. Break food down into small molecules that can cross cell membranes
iii. Absorb nutrients
iv. Eliminate waste
4. b. Incomplete ( single opening )
examples:
i. Platyhelminthes (flatworms)
ii. Cnidarians
c. Complete ( 2 openings; mouth & anus ; specialized regions for digestion )
i. Mollusks iii. Arthropods
ii. Annelids iv. Chordates
8. d. Continuous vs. Discontinuous
i. continuous = filter feeders
( no storage location )
ii. discontinuous = all others
( location for storage of food in digestive tract, caecum )
9. 3) DENTITION ( Teeth )
a. Types
i. INCISORS (front, middle)
Chisel-shaped/ shearing
ii. CANINES
Pointed, conical/ ripping, tearing
iii. PREMOLARS
Semi-flat/ grinding
iv. MOLARS
Flattened/ crushing
10. b. An indication of DIET
i. herbivore / grazer
sharp incisors, flat molars, premolars, reduced canines
ii. carnivore / hunter
sharp canines; enlarged molars and premolars- pointed, rough
iii. omnivore / varied diet
combination -> some flattened surfaces/some sharp, pointed surfaces
13. 4) GENERAL DIGESTION
14. Mouth�http://kidshealth.org/parent/general/body_basics/mouth_teeth.html Major Physical Action chew food/digest starch and form bolus (ball)
Enzymes- salivary amylase
Major Chemical Action - starch digestion
Starch + H2O + sal. amylase-> maltose
15. Taste Buds
17. Salivary Gland Major Physical Action
(3 of them) send juices to mouth through ducts
Enzymes- salivary amylase
Major Chemical Action - begins digestion of starch to form disaccharide maltose
18. Pharynx Major Physical Action where digestive and respiratory systems come together then separate
Epiglottis
19. Esophagus p.786 Fig 43.7 Major Physical Action muscle in esophagus contracts rhythmically (peristalsis) to move the bolus to the gastroesophageal sphincter/ transports material to the stomach
Enzymes already present in bolus
Major Chemical Action N/A
21. Stomach p.786-787 Major Physical Action food enters stomach/ contracts to mix food with juices that are secreted from the gastric gland/ lined with protective mucous
Enzymes enzymes from gastric gland -> HCl and pepsin
Major Chemical Action digestion occurs due to HCl and pepsin
23. Gastric Gland Major Physical Action secretion of gastric juices into stomach
Enzymes pepsin/HCl
Major Chemical Action - produce gastric juices which contains HCl to kill bacteria/ pepsin -> acts on protein to produce Amino acids
24. Small Intestine p.788 Major Physical Action functions in the digestion of chyme and absorption of nutrient molecules
Enzymes alkaline mucous -> protects lining of intestine, peptidases, sucrase, maltase, lactase
Major Chemical Action
Starch -> maltose
Peptidases split peptides -> amino acids
Fat droplets -> glycerol and fatty acid
27. Pancreas Major Physical Action controls digestive juices/ secretes insulin into duodenum (small intestine)
Enzymes- pancreatic amylase, trypsin, lipase
Major Chemical Action -
Starch -> maltose
Protein -> peptides
Fat droplets -> glycerol and fatty acid
28. Liver Major Physical Action produces bile, destroys old RBCs/converts hemoglobin to bilirubin and biliverdin, detoxifies blood
Enzymes- bile, stores glucose, sends secretion to duodenum (small intestine)
Major Chemical Action between meals, breaks down glycogen/ glucose
breaks down fats (emulsification)
31. Microvilli /Villi Major Physical Action absorb nutrients in small intestine from food into blood stream ->increase surface area
Enzymes- trace amounts of digestive enzymes to do last minute breakdowns
Major Chemical Action food breakdown just prior to absorption
32. Large Intestine Major Physical Action reabsorbs H2O from chyme/ forms and stores feces until defecation
Enzymes- secretion of mucous (alkaline) -> to neutralize chyme
Major Chemical Action Protects wall of intestine from abrasion/ PH control/ aids in holding feces together
33. Large Intestine Continued
~1.5 m long or 30 ft
No villi
Stores indigestable materials
Absorb, H2O, salts and vitamins
34. Anus Where waste leaves the body
Major Physical Action digestive wastes leave the body
Enzymes water, feces, bile pigments, fat
Major Chemical Action feces 75%
H2O 25% solid matter 1/3
36. B Excretion
1) A matter of maintaining an ion and water balance in the body.
2) NITROGENOUS WASTES
a. arise from the breakdown of amino acids
b. end up with -NH2 which must be converted in order to be removed
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37. A - Ammonia (NH3)
Aquatic invertebrates, bony fish, amphibian larvae
B - Urea
Adult amphibians, mammals
C - Uric Acid
Insects, birds, reptiles
38. 3) FLAME CELLS
a. Cilia in cells beat to expel wastes
b. phylum Platyhelminthes (flatworms)
39.
4) SIMPLE DIFFUSION
a. all cells are in contact with outside environments and therefore exchange wastes through the process of diffusion
b. phylum Cnidaria
40. 5) NEPHRIDIA ( kidney )
a. found in all body segments
b. filtering system ( filter coelomic fluid ) nutrients are collected and re-absorbed, wastes excreted
c. phylum Annelida ( segmented worms)
42. 6) MALPIGHIAN TUBULES
long, thin tubes attached to the gut
b. uric acid flows into the tubules, then into gut
c. nutrients are re-absorbed by the gut, wastes expelled
d. phylum Arthropoda
44. 7) TRUE KIDNEYS
a. nephrons in kidney filter the blood / nutrients are re-absorbed
b. form urine with wastes
47. 1- Glomerular Filtration
* total blood volume is filtered approximately every 40 minutes
* Most water originally filtered out here is generally returned to the body
48. 2 Tubular Reabsorption
* Na+ is pumped into the peritubular cavities (Cl- follows)
* with this higher concentration of ions outside, H2O follows by osmosis
* some nutrients ( glucose, amino acids) re-absorbed here also
* presence of microvilli and mitochondria make re-absorption possible
49. 3 Tubular Secretion
*mainly occurs in the distal convoluted tubule
* rids the body of potentially harmful compounds
50. c. nephron sketch:
* unit of excretion in the kidney (found in the renal cortex)
* one arteriole per nephron branches into capillaries in two places
d. system:
e. phylum Chordata ( Mammilia, Amphibia, Reptilia)
51. 8) KEY IDEA: Why are excretory systems needed?
Removal of TOXIC wastes is key Failure to remove wastes would cause organisms to poison themselves.
