1 / 36

Module 8: Food Chemistry, Nutrition, and Traditional Foods

Module 8: Food Chemistry, Nutrition, and Traditional Foods. Food : Any substances that can be metabolized by an organism to give energy and build tissue Types : Carbohydrates, Proteins, Fats & Oils Others : Vitamins, Minerals, Salts. Molecules of Food: Carbohydrates. 6-C rings, 5-C rings

reia
Download Presentation

Module 8: Food Chemistry, Nutrition, and Traditional Foods

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Module 8: Food Chemistry, Nutrition, and Traditional Foods Food: Any substances that can be metabolized by an organism to give energy and build tissue Types: Carbohydrates, Proteins, Fats & Oils Others: Vitamins, Minerals, Salts

  2. Molecules of Food: Carbohydrates • 6-C rings, 5-C rings • Mono-saccharides (sugar, fructose) Dissacharides (lactose, sucrose) Polysaccharides (starch, fibre, glycogen) • Carbohydrates are assimilated in the body as “mono-saccharides” following digestion

  3. Glucose: Body’s Primary Fuels Lactic Acid + ATP + H2O (anaerobic) Glycogens (Branched polymers for short-term storage in liver) Glucose (monomers) (soluble) Pyruvic Acid CO2 + H20 + ATP (aerobic) • Glucose level in blood stream is highly regulated • Aerobic respiration is releasing 90% of the energy stored in glucose

  4. Glycogen

  5. Anaerobic Metabolism Aerobic Metabolism Pyruvic Acid CO2 + H20 + 32ATP

  6. Molecules of Food: Lipids and Fats Fats: Large biological molecules, diverse compositions, insoluble in water (i.e. non-polar in nature) Types: • Fatty acids (assimilable form) • Triglycerides (in blood) • Phospholipids (cell membranes) • Sterols (e.g. cholesterol) Roles: • Source of energy (during sustained activity) • Structure of cell membrane

  7. Free Fatty Acids (one chain) • Saturated • Unsaturated (e.g. Omega-3, Omega-6)

  8. Fatty Acids • Long-chain fatty acids (12+ carbons) are abundant in meats and fish • Short-chain fatty acids (12 carbons or less) are abundant in dairy products • Cold-water fish are rich in essential omega fatty acids • Unsaturated fatty acids, when cooked, change conformation to a “trans” shape (which tend to accumulate in blood vessels) • Unsaturated fats are more prone to react with oxygen, causing rancidity (common in stored fish)

  9. Triglycerides

  10. Phospholipids • Phospholipids are “modified” triglycerides where one fatty acid chain is replaced by a phosphate group • Soluble in water • Important in cell membrane

  11. Phospholipids

  12. Sterols • Multiple rings of carbon • Best-known sterols: cholesterol (the building block for all other sterols) • Bile acids, some hormones, Vitamin C

  13. Sterols Cholesterol Sitosterol (the most abundant and common plant sterol)

  14. Absorption of Lipids • Fat breakdown occurs in intestines • Smaller units: fatty acids, glycerol, and sterols • Cholesterol and triglycerides are non-polar, hence need “lipoproteins” to carry them in the bloodstream

  15. Molecules of Food: Proteins • Chains of Amino Acids • Diverse roles: enzymes, hormones, regulators, molecular transports, antibodies, building tissue like muscles, and energy • Made up of C, H, O, N, other ions

  16. Amino Acids • Four components around a central carbon (C) • One hydrogen • An amino group (-NH2) • An acid (-COOH) • A functional group Glycine

  17. Amino Acids Essential Amino Acid: Leucine Non-essential Amino Acid: Asparagine

  18. Molecules of Food: Vitamins • Essential organic compounds to ensure proper metabolism • Little caloric value • Water-soluble vitamins (enter directly into bloodstream) • Fat-soluble vitamins (must be transported by carrier proteins) • Several diseases are associated with vitamin deficiencies

  19. Caloric Contents of Food Molecules

  20. Subsistence Food Provisioning • Nutrition for indigenous people in the Arctic is changing rapidly; from 100% to <50% “country food”. • Presence of larger communities, presence of “Co-op” or “Bay” stores, and an increasing cash economy contribute to changes in feeding habits. • Lastly, hunting activities are costly when modern technologies are used  the “pay off” of traditional food provisioning is decreasing.

  21. Concepts Subsistence activities: The hunting, fishing, and gathering of local foods for consumption, sharing, and trade or barter. e.g. caribou, whales, seals, marine birds, waterfowls, eggs, fruits (largely a carnivore diet) Note: Commercial trapping or fishing is generally not viewed as traditional food gathering; although they could be traditional activities.

  22. Example of Subsistence Food Economy Inupiat households in Barrow, Alaska

  23. Production vs. Sharing • Food provisioning is crucial, but sharing is an intricate part of subsistence • Sharing touches upon all members of a community, and represents a way of establishing and maintaining ties to family and within the community at large (e.g. support of elders, non-hunting members) • Sharing is viewed as part of the “culture” of indigenous society

  24. Quality Food: Arctic Char

  25. Quality Food: Beluga

  26. Quality Food: Caribou

  27. Quality Food: Muskox

  28. Quality Food: Polar Bear

  29. Quality Food: Ring Seal

  30. What is special about a subsistence diet in the North?

More Related