1. Human Biology ATAR Unit 1 Chapter Pages
The digestive system

2. Keywords
Making connections

3. Definitions Keyword Meaning Ingestion The taking in of nutrients
Digestion
The breakdown of complex organic molecules into smaller components by mechanical and chemical means
Absorption
The taking up of digested molecules into the internal environment of the cells of the digestive tract
Egestion
The removal of waste materials from the body

4. Digestive systems
The function of the digestive system is to break down the food we eat into simpler organic compounds that can be absorbed by the body
Digestion changes nutrients:
Large to small
Insoluble to soluble

5. Nutrients Nutrients are broken down through:
Mechanical digestion
Breaks food down into smaller pieces
increased surface area
increased efficiency of chemical digestion
Chemical digestion
Enzymes break down food into molecules that can be absorbed into the blood
We need 6 types of nutrients:
Water
Carbohydrates
Fats
Protein
Minerals
Vitamins

6. Mechanical digestion Mastication Teeth Tongue
Incisors
Canines
Premolars
Molars
Tongue
Helps to form a bolus which is swallowed and is forced down into the stomach by peristalsis
Stomach churns food by muscular contractions
Mechanical digestion of food continues in the duodenum of the small intestines

7. Chemical digestion
Enzymes break down food further through chemical digestion
Each nutrient has specific enzymes that work to break it down into its most basic unit
Carbohydrates into glucose
Fats into fatty acids and glycerol
Proteins into amino acids

8. Organs of the digestive system
Mouth
Tongue
Teeth
Pharynx
Epiglottis
Oesophagus
Stomach
Liver
Gall bladder
Pancreas
Small intestine
Caecum
Appendix
Large intestine
Ascending colon
Transverse colon
Descending colon
Rectum
Anus

9. Enzymes of the digestive system
Category
Acts on
End product
Amylases
Carbohydrate
Simple sugars (e.g. glucose)
Lipases
Lipids
Fatty acids
Proteases
Proteins
Amino acids

10. The anatomy of the digestive system
US Govt NIH

11. Digestion in the mouth MECHANICAL Mastication (chewing)
Bolus formation
Swallowing
CHEMICAL
Amylase
Polysaccharides to disaccharides
(Complex carbohydrates to sugars eg. starch to sucrose)

12. Section through the head
Nasal cavity
Palate
Teeth
Tongue
Pharynx
Hyoid bone
Epiglottis
Larynx
Esophagus

13. The salivary glands
Parotid gland
Submandibular gland
Sublingual gland

14. The tongue
Jari Keinänen

15. Human dentition
Incisors
Canine
Premolars
Molars
Upper dentition

16. Human dentition
Pre-molars
Molars
Incisors
Canine
Gray’s Anatomy

17. Tooth section Enamel Dentine Crown Pulp cavity Neck Gum Cementum Root
Root canal
From: The evolution of teeth cavities 1: The healthy tooth
Copyleft : This work is free, you can copy, spread, and modify it under the terms of the Free Art License

18. Peristalsis
Wave-like muscle contractions of the oesophagus and intestines forces the bolus into the stomach and then along the gut. This process is called peristalsis.
BOLUS

19. Digestion in the stomach
MECHANICAL
Muscular churning mixes food with gastric juices (forms chyme)
Rennin (in infants only) curdles milk
CHEMICAL
Hydrochloric acid
Activates pepsinogen to pepsin
Pepsin
Proteins to peptones

20. Absorption in the stomach
Limited absorption of:
Water
Glucose
Alcohol
Some drugs

21. Section through the stomach
Fundus
Esophagus
Rugae
Pyloric sphincter muscle
G Meyer ANHB – UWA

22. Section through the stomach
Esophagus
Three muscle layers
Rugae
Pyloric sphincter muscle
Duodenum

23. Digestion in the duodenum
MECHANICAL
Bile salts emulsify fats (reduce them to small droplets which increases their surface area).
CHEMICAL
Amylase
Disaccharides to monosaccharides eg. sucrose to glucose
Lipase
Fats to fatty acids & glycerol
Trypsin
Peptones to polypeptides

24. Inside the duodenum

25. Digestion in the small intestines
MECHANICAL
Bile salts emulsify fats (reduce them to small droplets to increases their surface area).
CHEMICAL
Maltase
Maltose to glucose
Lactase
Laltose to glucose
Sucrase
Sucrose to glucose
Lipase
Fats to fatty acids & glycerol
Peptidases
Polypeptides to amino acids

26. Absorption in the small intestine
Capillaries
glucose
amino acids
water
Minerals
Lacteals
fatty acids
glycerol

27. Villi The small intestine absorbs most of the nutrients.
It has a rich supply of capillaries
The lining of the small intestine is highly convoluted with many villi
These greatly increase the surface area for absorption

28. Section through small intestine showing villi
Secretory cells
Villus
Gland
L. Slomianka ANHB-UWA

29. Structure of the lining
Villus
Mucosa
Thin muscle layer
Submucosa
Longitudinal muscle layer
Circular muscle layer
Peritoneum

30. The large intestines Function
Further absorption of water and some salts
Bacterial activity – there are trillions of resident bacteria in the large intestine. They are believed to have several important roles including
digestion of cellulose in plant foods
synthesis of some vitamins (e.g. folic acid).

31. The large intestine LIVER Transverse colon Ascending colon Caecum
Descending colon
Appendix
Rectum

32. The liver Functions Deamination of amino acids
Converting glucose to glycogen
Bile production
Storage of iron and vitamins (A, B12, D, E & K)
Synthesis of vitamin A & plasma proteins
Detoxification of drugs (including alcohol) and other toxins.

33. Liver
Stomach
Pancreas

34. Liver lobule Artery, vein & bile duct Central vein Lobule
L. Slomianka ANHB-UWA

35. SUMMARY: Enzymes Amylases carbohydrate simple sugars Salivary amylase
Target nutrient
End product
Where in the body
Amylases
carbohydrate
simple sugars
Salivary amylase
beginning digestion of simple & complex carbohydrates
mouth
Maltase
maltose → glucose
small intestine
Lactase
lactose → glucose
Sucrase
sucrose → glucose
Lipase
lipids
fatty acids
glycerol
Proteases
proteins
amino acids
Pepsin
peptones
stomach
Peptidases