Post on 18-Jan-2016
Food
Human nutritional needs• Vitamin A:
– Too little: increases susceptibility to infection and blindness
– Leafy green vegetables; orange fruits
– 100+ million children; Africa, SE Asia
• Iodine– Too little: leads to enlarged thyroid, mental retardation
– Added to salt
– 1 in 10 people, especially S and SE Asia
• Iron– Too little: leads to anemia, infection and fatigue
– Found in meat, leafy greens
– 1 in 3 people in developing world
Foods we eat
• 30,000 edible plants– Only 14 plants and 9 terrestrial animals supply
90% world’s calories
• 3 crops provide more than half of calories– Wheat– Rice– Corn
Green revolution to
Gene revolution
• Traditionally: crops improved by conventional breeding, crossing– = artificial selection
• Genetic engineering may be more precise, quicker
GREEN REVOLUTION
• In 1950s and 60s, scientists developed new seeds for crops (wheat, corn, rice, etc) that were much HIGHER YIELDING.– Means: more grain produced on each acre
• Mexico went from net food importer to net food exporter
But . . .
• Green revolution seeds require– Lots of fertilizer– Lots of pesticides– Irrigation
Has the Green Revolution ended world hunger?
• NO
• There is enough food in the world for everyone to have an adequate diet
• But, some people have more than enough, and waste food; others cannot purchase enough food to stave off hunger
History of the Green Revolution
• Norman Borlaug – father of the Green Revolution
– winner of Nobel Peace Prize in 1970
• Started in Mexico in 1944.• Within a generation, Mexico had gone from a food
importing country to a food exporting country.• Plant breeding to create new seed varieties that
have higher yields.
Recipe for a Revolution
• High Yielding Varieties (HYV) seeds– Increased nitrogen absorption potential– Semi-dwarf varieties
• By 1970:– 20% of wheat area and 30% of rice area in developing countries
planted with HYV
Recipe for a Revolution
• Required application of:– Nitrogen Fertilizers– Synthetic Pesticides– Irrigation
• F1 Hybrids• Double-Cropping farmland• Continued Expansion of Green Revolution crops
– As farmers got increased yields from rice and wheat, they planted more land in rice and wheat at the expense of other crops
– Effect on biodiversity?
Social impacts
• Farmers had larger incomes• Stimulated the non-farm economy• Improved rural (farmers and others)
nutrition because they had more $ to spend• Slowed down conversion of land to
agriculture • But favored large, mechanized farms over
small, ``family’’ farms
Green revolution in India
•
Green revolution problems
• Requires heavy doses of fertilizer, irrigation, equipment– Fossil fuel use increase
• Emphasizes rice, wheat (commodity crops) not subsistence crops
Fertilizer use
• Steady increase from 1950s.• Why erratic beginning 1980s?
Land planted in crops
• Net Result: Drop of per capita
acreage - that is land planted per person - this decrease is due to an increasing population which by itself would lead to a decreased per capita if land were not added proportionally, and the additional decrease due to land withdrawal...
• 1950: .24 acres/person
• 1986: .1 5 acres/person
• 2000: .1 2 acres/person
Animal agriculture
• Refers to raising animals for food
• Includes also fish farming = aquaculture
Annual percent calories per capita from livestock products
Per capita meat consumption
Total meat consumption
What do livestock eat?
• Grasses and other forage crops on 3.5 billion hectares
• Crop residues
• By-products of food and fiber processing
• 1/3 of all the cereal grains grown worldwide (2/3 in the U.S.)
CAFOs
•
• Concentrated Animal Feeding Operations
CAFO
• • Chickens with little room to run around in a darkened warehouse
• Diseases spread easily, so chicken farmers use lots of ______________
CAFO = Concentrated Animal Feeding Operation
•
Biotechnology
• Introducing genes from one organism to a crop plant or animal.
• Herbicide resistance• Pesticide resistance
Terminator technology• Genes added to crops that make the seeds infertile• Therefore, farmers can’t save seeds from their
harvest for planting the next season– This is typically done in poor countries
• Problems:– Farmer must buy seeds every year.
– If terminator escaped, wild plants could be made infertile.
– The first problem is real; the second problem is mostly hypeplants are infertile, so low fitness
•
Green to Gene revolution
• Green revolution yielding to gene revolution
• Using genetic engineering to develop crops with new traits.
What sorts of traits?
• Greater tolerance of heat or cold
• Drought tolerance
• Herbicide resistance
• Pesticide expressed in plant
• Tolerance of poor soils
GMOs
• Possible advantages– Less fertilizer or water
– Need less pesticide application, or safer pesticides
– Tolerate herbicides
• Possible disadvantages– Unintended ecological
consequences of releasing GMOs
– Increased use of herbicides (``because we can’’)
– Possible human health issues (e.g., allergy)
Returns from Anim al Production(Energy in H um an Food / Energy in Feed)
Total Hum an Edible
Product USA Other USA Other
Beef .07 .04 .65 7.60
Pork .21 .16 .31 0.40
Poultry m eat .19 .19 .28 0.50
Eggs .17 .13 .24 0.30
M ilk .25 .15 1.07 3.05
Feed Inputs
Indirect Contributions of Animal Agriculture to Food Supply
Draught power - for >50% of world’s cropland
Transport
Maintenance of soil fertility and organic matter content
Nutrient recycling/waste disposal
Manure as fuel
Source of cash for purchase of fertilizer, seed, food
Food reserve; buffer for variations in crop production
Is animal agriculture good or bad for the environment?
• Good:– Manure for crops
– In some cases, grazing can improve habitat by reducing weeds, increasing biodiversity of plants and insects
• Special case, low density of animals
• Bad– Heavy grazing reduces
biodiversity
– Leads to soil compaction and erosion
– CAFOs pollute air and water