FEEDING THE WORLD Chapter 11 HUMAN NUTRITION • ~24,000 starve each day; 8.8 million each year • ~1 billion lack access to adequate food supply • Population keeps growing requires more land to be used for agriculture, eat less meat, and harvest more fish NUTRITIONAL REQUIREMENTS Undernutrition a. not consuming enough calories b. 100 to 400 less kilocalories a day c. susceptible to disease, less energy, improper brain development Malnourished a. diet lacks correct balance of protein, carbohydrates, vitamins and minerals b. doesn’t matter how many calories consumed c. ~3 billion according to WHO Famine a. deaths occur due to extreme food insecurity b. crop failures, drought, etc Results of malnourishment a. blindness – Vitamin A deficiency b. anemia – iron deficiency * most widespread nutritional deficiency * malaria, AIDS, parasite infections Overnutrition a. too many calories b. obesity * > 20% ideal weight * Type II diabetes, hypertension, heart disease, stroke c. due to availability/affordability of certain foods Variety of foods available a. grains (corn, rice, wheat) – 300kg b. meat (livestock and poultry) – 40kg c. fish – 21kg Reasons for undernutrition and malnourishment a. #1 – poverty b. rise in food prices c. large amounts of crops are grown to feed livestock and poultry rather than people * corn and soybeans d. grain production * depends on 1. amount of land used 2. global weather and precipitation 3. price of grain 4. productivity of land INDUSTRIAL AGRICULTURE • Farming more mechanized • Increase use of fossil fuels • Green Revolution a. small farms/human labor industrial operations/machinery b. fertilization, irrigation, mechanization, pesticides, monocropping c. increased food production significantly GREEN REVOLUTION • Mechanization • Irrigation a. benefits - efficient use of H20 b. consequences - waterlogging - salinization - depletion of groundwater - saltwater intrusion • Fertilizers a. N, P, and K b. organic - decomposed animal manure c. synthetic - produced commercially - advantages * easy application, targeted nutrient content, easily absorbed - disadvantages * fossil fuel energy required, run-off, don’t add organic matter to soil • Monocropping a. dominant agricultural practice in US (wheat and cotton) b. benefits 1. increased efficiency and productivity c. drawbacks 1. soil erosion 2. vulnerability to pests • Pesticides a. kill or control pests b. insecticides, herbicides c. broad spectrum v. selective d. persistant v. non-persistant - DDT - bioaccumulation - Roundup e. can kill other species in addition to the targeted pests f. pesticide treadmill GENETIC ENGINEERING • Higher crop yields • Better food quality • Reductions in pesticide use • Higher profits • Lower costs ALTERNATIVES TO INDUSTRIAL FARMING • Industrial agriculture = conventional agriculture • Traditional farming a. shifting agriculture b. nomadic grazing c. intercropping d. agroforestry • Shifting Agriculture a. “slash and burn” b. moderately warm climate and nutrient-poor soils c. large amounts of nutrients found in vegetation d. desertification http://www.ingafoundation.org/slash-and-burn/#.Us7pGvVYQuc • Nomadic Grazing a. move herds of animals to seasonally productive feeding grounds • Sustainable Agriculture a. fulfills need for food b. enhances quality of soil c. less use of nonrenewable resources d. emphasizes conservation and soil improvement e. intercropping 1. 2 or more crop species planted in same field at same time f. agroforestry 1. intercropping trees with vegetables 2. reduces soil erosion http://www.conbio.info/post/registration-is-now-open-for-the-world-congress-onagroforestry-2014-wca2014/ • No-till Agriculture a. avoid soil degradation b. leaves roots intact in soil c. reduces emissions of CO 2 d. negative - increases use of herbicides • Organic agriculture a. production of crops without the use of synthetic fertilizers/pesticides • Integrated Pest Management a. techniques designed to minimize pesticide inputs b. crop rotation, intercropping, pest-resistant crops, limited use of pesticides http://www.pestmanagement.rutgers.edu/ipm/vegetable/ipmposter.jpg FARMING OF MEAT AND FISH • High – Density Animal Farming a. CAFOs (concentrated animal feeding operations) b. “feedlots” c. used for beef cattle, dairy cows, hogs, and poultry d. minimizes land costs while improving feeding efficiency e. animals given antibiotics and nutrients f. serious waste disposal problem http://prairierivers.org/how-to-protect-rivers/preventing-waterpollution/illinoisfactoryfarmwatch/ • Free-Range Chicken and Beef a. graze on land b. little to no supplemental feeding c. little to no use of antibiotics d. uses more land e. higher costs of meat http://www.sheknows.com/living/articles/808002/the-facts-on-freerange-what-does-itreally-mean • Harvesting Fish a. fishery – commercially harvestable population of fish b. caught through a variety of techniques c. can unintentionally catch nontargeted fish declining their population (some are keystone species) d. aquaculture - farming of aquatic organisms - catfish and trout in US http://www.globalpartnershipforoceans.org/key-issues/aquaculture%E2%80%99s-role-risethough-challenges-remain