Food & Soil
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Transcript of Food & Soil
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Food & Soil Chapter 14 & 16
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Return yearly No need to prepare soil
Advantages-less labor; reduces soil erosion; deeper roots mean less need for irrigation; less pollution from chemical fertilizers & pesticides
Perennial crops
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Experimenting with ecology approach to agriculture
Polyculture- perennial grasses, legumes, sunflowers, grain crops, & plants that provide natural insecticides
Land Institute in Kansas
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Croplands – grains Rangelands – meat Ocean fisheries
Food Providers
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Wheat Rice Corn
Most important crops
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High-input Uses large amounts of fossil fuel energy,
water, commercial fertilizers, pesticides
Monoculture
Industrialized agriculture
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Form of industrialized Tropical developing countries Cash crops (bananas, coffee, soybeans,
sugar cane, cocoa, vegetables) Monoculture
Plantation Agriculture
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Uses human labor or draft animals Produces enough crops or livestock for
family
Traditional Subsistence Ag
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Increased input of human & draft labor, fertilizers, & water
Produces food for family & to sell for income
Traditional Intensive Ag
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1. Develop & plant monocultures- selectively bred or genetically engineered key crops (rice, wheat, corn)
2. Produce high yields by high inputs of fertilizers, pesticides, water
3. Multiple cropping- increase number of crops grown per year on a plot of land
Green Revolution
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1st Green Revolution- high input approach 1950 – 1970
2nd Green Revolution- since 1967, fast-growing dwarf varieties of rice & wheat
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Saves large areas of forests, grasslands, wetlands, & easily eroded mountain terrain from being used to grow food
More Food, Less Land
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Superfarms- big companies & larger family-owned farms control 75% of US food production
Production has doubled since 1950 More efficient- input decreases, output
increases US farm products cost 1/3 less than in 1910 Energy- 10 units / 1 unit of food on the table
Agricultural Industry
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Practice of growing several crops on the same plot
Interplanting
http://www.endtimesreport.com/album.html
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Plot contains several varieties of same crop
Polyvarietal Cultivation
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2 or more different crops at the same time on a plot
Intercropping
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Alley cropping Crops & trees are grown together
Agroforestry
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Different plants maturing at various times are planted together
Polyculture
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Of low-input polyculture1. Less need for fertilizer2. Less need for water3. Protection from erosion4. Less need for insecticides5. Less need for herbicides6. Insurance against profit loss
Advantages
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Soil replenishment & crop growth1. Plant corn & trees at start of growing season2. Cut trees at start of 2nd growing season3. Add phosphate rock4. Plant leaves & stems (waste) of Mexican
sunflower – provides nutrients
Africa
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Movement of soil components (surface litter & topsoil)
Causes:◦ Farming, logging, construction, overgrazing, off-
road vehicles, deliberate burning Effects:
◦ Loss of soil fertility◦ Sediment in surface water
Soil Erosion
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Global – erodes 38% faster than topsoil is produced
US- 16% higher
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Food Security Act 1985 Subsidy for taking erodible land out of
production Replant with grass or trees for 10-15 years
Farm Act
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Wind erosion Crop failure Extensive drought
Started soil conservation practices
Dust Bowl
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Conversion of usable land to desertlike land◦ 1/3 of all land◦ 70% of drylands
Prevention (or slowing)- reduce overgrazing, deforestation & destructive forms of planting, irrigation, & mining
Desertification
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Causes of desertification
ConsequencesCauses
Worsening drought
Famine
Economic losses
Lower living standards
Environmentalrefugees
Overgrazing
Deforestation
Erosion
Salinization
Soil compaction
Natural climate change
Figure 14-10Page 283
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Salinization- accumulation of salts in upper soil layers from annual applications of irrigation water◦ Reduces yield on 1/5 of cropland
Waterlogging- saturation of soil with irrigation water◦ Water table rises closer to surface◦ Reduces yield on 1/10 of cropland
Irrigation Issues
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Reduce irrigation
Switch to salt-tolerant crops(such as barley, cotton, sugar beet)
Prevention
Flushing soil(expensive andwastes water)
Not growing crops for 2-5 years
Installing under- ground drainagesystems (expensive)
Cleanup
Solutions
Soil SalinizationFigure 14-12
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Soil Conservation Using methods to reduce soil erosion &
restore soil fertility
Conventional tillage farming- farmers plow, break up, then smooth soil for planting surface◦ Often leaves soil bare
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Conservation tillage farming- disturbs soil as little as possible while planting crops
◦ Minimum tillage- soil not disturbed over winter◦ No till- special planting machines inject seeds,
fertilizers, & weed killers into thin slits in unplowed soil, cut is smoothed over
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Figure 14-13
Reduces erosion
Saves fuel
Cuts costs
Holds more soil water
Reduces soil compaction
Allows several crops per season
Does not reduce crop yields
Reduces CO2 release from soil
Can increase herbicide use for some crops
Leaves stalks that can harbor crop pests and fungal diseases and increase pesticide use
Requires investment in expensive equipment
DisadvantagesAdvantages
Trade-OffsConservation Tillage
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Terracing- cutting series of steps into a hillside◦ Retains water at each level = controls runoff
Reducing Soil Erosion
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Control farming- plowing/planting crops across slope (instead of up & down)◦ Each row holds soil & slows water runoff
Strip cropping- plant alternating strips of a row crop (cotton/corn with grass/legume)◦ Cover crop traps soil = slows erosion & spread of
pests/disease
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Contour plowing & strip cropping
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Alley cropping (agroforestry)- several crops plants in strips between trees & shrubs (used for fruit or fuel wood)
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Windbreaks (shelter-belt)- tall row of trees surround plot
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Land classification- identify easily erodible land◦ Suitable/unsuitable for cultivation
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Organic fertilizer- using plant/animal materials to restore nutrients
Commercial inorganic fertilizer- produced from minerals
Fertilizers
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Trade-OffsInorganic Commercial Fertilizers
Advantages Disadvantages
Do not add humus to soil
Reduce organic matter in soil
Reduce ability of soil to hold water
Lower oxygen content of soil
Require large amounts ofenergy to produce,transport, and apply
Release the greenhouse gas nitrous oxide (N2O)
Runoff can overfertilizenearby lakes and kill fish
Easy to transport
Easy to store
Easy to apply
Inexpensive to produce
Help feed one of every three people in theworld
Without commercialinorganic fertilizers,world food output coulddrop by 40%
Figure 14-15Page 286
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Animal manure- dung & urine of cattle, horses, poultry, other farm animals◦ Adds organic nitrogen◦ Stimulates soil bacteria & fungi
Green manure- freshly cut or growing green vegetables plowed into soil◦ Increases organic matter & humus
Compost- formed when (oxygen &) microorganisms in soil break down organic matter (leaves, food wastes, paper, wood)
Organic Fertilizers
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Spores of mushrooms- (puffballs & truffles) take in moisture & nutrients◦ One application lasts all year
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Plant areas with nutrient-depleting crops then legumes the next year◦ Restores nutrients◦ Reduces erosion by keeping soil covered◦ Reduces crop losses to insects
Crop Rotation
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Chronic undernutrition- cannot grow or buy enough food to meet basic energy needs◦ Mental retardation◦ Stunted growth◦ Susceptible to infectious diseases (diarrhea,
measles) Malnutrition- results from deficiencies of
protein & key nutrients
Nutrition Problems
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Marasmus- diet low in calories & protein◦ Nursing infants of malnourished mothers◦ Children who don’t get enough food after being
weaned◦ Thin, shriveled (looks like a very old miniature
starving person)◦ Effects can be reversed with balanced diet
From Malnutrition
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Kwashiorkor- severe protein deficiency in infants & children (1-3)◦ New baby deprives them of breast milk◦ Diet changes to grain or sweet potatoes (enough
calories, not enough protein)◦ Bloated belly, reddish-orange hair,
discolored/puffy skin◦ Effects can be cured with balanced diet◦ EXCEPT- mental retardation & stunted growth
825 million- 95% in developing countries 5.5 million premature deaths
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1. Immunize children2. Encourage breast feeding3. Prevent dehydration (from diarrhea)4. Prevent blindness in children (Vitamin A)5. Family planning services6. Increase education for women
Reducing Deaths
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Vitamin A- blindness, death
Iron- anemia, fatigue, increased chances of infection, increased chance of dying in childbirth, infant- increased chances of death due to infection
Iodine- stunted growth, mental retardation, goiter (enlargement of thyroid gland that can lead to deafness)
Deficiencies
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Food energy intakes exceed energy use & causes excess body fat
Harmful effects:◦ Lower life expectancy◦ Greater susceptibility to disease & illness◦ Lower productivity◦ Lower life quality
2/3 of US adults are overweight 1/3 obese
Overnutrition
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Falling grain production Rise in meat consumption Large (potential) food supply deficit
China’s Food Problems
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Figure 14-19Page 292
ProjectedDisadvantages
Need less fertilizer
Need less water
More resistant to insects,plant disease, frost, anddrought
Faster growth
Can grow in slightly saltysoils
Less spoilage
Better flavor
Less use of conventionalpesticides
Tolerate higher levels ofpesticide use
Higher yields
ProjectedAdvantages
Trade-OffsGenetically Modified Food and Crops
Irreversible andunpredictable genetic and ecological effects
Harmful toxins in foodFrom possible plant cellMutations
New allergens in food
Lower nutrition
Increased evolution ofPesticide-resistantInsects and plant disease
Creation of herbicide-Resistant weeds
Harm beneficial insects
Lower genetic diversity
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1. Requires huge amounts of fertilizer & water to increase yield
2. High cost3. Decreased yields due to soil erosion & loss of
fertility4. Irrigated soil becomes salty & waterlogged5. Underground & surface water becomes depleted
& polluted with pesticides & nitrates6. Population of rapidly breeding pests develop
genetic immunity to pesticides
Limits to Increased Food Production
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Winged bean◦ Fast growing◦ Many edible parts◦ Needs little fertilizers (nitrogen-fixing root
nodules)
Microlivestock- edible insects◦ Potential sources of protein, vitamins, minerals◦ Black ant larvae◦ Giant waterbugs◦ Emperor moth caterpillars◦ Cockroaches
Types of New Food
http://factoidz.com/winged-bean-nutrition-and-health-benefits/
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Convincing farmers to take financial risk
Convincing consumers to try new foods
Problems with New Foods
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40% of food production
AND 2/3 of rice & wheat
Come from 20% of irrigated croplans
Food Production Good news-
irrigated area has grown 3x
Bad news- population is growing faster
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Tropical forests & arid land = poor soil fertility, steep slopes
Unlikely to be sustainable if cultivated
Increasing Irrigated Land
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Irrigation would require expensive dams Large inputs of fossil fuels to move water Groundwater depletion Expensive to stop:
◦ Erosion◦ Groundwater depletion◦ Salinization◦ Waterlogging
Problems
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Grow more food in urban areas like:◦ Empty lots◦ Backyards◦ Rooftops◦ Balconies
Urban Areas
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70% of food is wasted ◦ Spoilage◦ Inefficient processing & preparation◦ Plate waste
Food Wastes
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Rangeland- grasslands in temperate & tropical climates that supply forage or vegetation for grazing or browsing animals
Pasture- managed grasslands or enclosed meadows usually planted with domesticated grasses or other forage
Renewable grasslands- as long as only upper ½ is eaten (grasses grown from base, not tip); can be grazed again & again
Meat Production
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Animal waste may contaminate groundwater or nearby streams
Smell Increased demand for feed (grain)
Environmental Effects
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Too many animals graze too long & exceed the carrying capacity of grassland area
1. Lowers net primary productivity2. Reduces grass cover3. Prolonged drought may lead to desertification
Overgrazing
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1. Move to another grazing area2. Fence off riparian areas3. Provide supplemental feed at selected sites
Sustainable Rangeland Management
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Fisheries- concentrations of particular aquatic species suitable for commercial harvesting in ocean area or inland body of water
Aquaculture- raising marine & freshwater fish like livestock in ponds, underwater cages, & from inland freshwater fishing (from lakes, rivers, reservoirs, ponds)
7% of global food supply; 55% from fisheries
Fish
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Trawling- dragging funnel-shaped net along ocean bottom◦ Shrimp, cod, flounder, scallops (seals, sea turtles)
Purse-seine- large net is closed around feeding school near surface◦ Tuna, mackerel, anchovies, herring (dolphins)
Longlining- line with many hooks (80 miles long with thousands of hooks)◦ Swordfish, tuna, shark, halibut, cod (sea turtles)
Driftnet- huge drifting nets (overfishing)
Fishing Methods
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Spotter airplane
Fish farmingin cage
Trawlerfishing
Purse-seinefishing
sonartrawl flaptrawllines
trawl bag
Long line fishing
lines withhooks
Drift-net fishing
fish caughtby gills
float buoy
Figure 14-24
fish school
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Overfishing- too little breeding stock is left to maintain population
Commercial extinction- caused by prolonged overfishing; species no long profitable to hunt
Overfishing + habitat degradation = 14 major commercial fish species have been severely depleted
Issues
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Fish farming- cultivating fish in a controlled environment & harvesting them at desired size
Fish ranching- hold species (like salmon) in captivity & releasing them to spawn, adults ar then harvested
Other Methods
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Figure 14-27
Highly efficient
High yield in smallvolume of water
Increased yieldsthrough cross-breeding and genetic engineering
Can reduce over-harvesting of conventional fisheries
Little use of fuel
Profit not tied to price of oil
High profits
AdvantagesLarge inputs of land, feed, And water needed
Produces large and concentrated outputs of waste
Destroys mangrove forests
Increased grain productionneeded to feed some species
Fish can be killed by pesticide runoff from nearby cropland
Dense populations vulnerable to disease
Tanks too contaminated touse after about 5 years
Disadvantages
Trade-OffsAquaculture
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Figure 14-28
• Reduce use of fishmeal as a feed to reduce depletion of other fish
• Improve pollution management of aquaculture wastes
• Reduce escape of aquaculture species into the wild
• Restrict location of fish farms to reduce loss of mangrove forests and other threatened areas
• Farm some aquaculture species (such as salmon and cobia) in deeply submerged cages to protect them from wave action and predators and allow dilution of wastes into the ocean
• Set up a system for certifying sustainable forms of aquaculture
Solutions
More Sustainable Aquaculture
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Food Production Policy Price controls
◦ + low prices for consumers◦ - loss of income for farmers
Subsidies & tax breaks◦ + reduces money used as incentives◦ - may produce more than can be sold
Eliminate price controls & subsidies◦ + uses $ to reward conservation◦ - increase in food prices
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Figure 14-29
High-yield polyculture
Organic fertilizers
Biological pest control
Integrated pestmanagement
Irrigation efficiency
Perennial crops
Crop rotation
Use of more water-efficient crops
Soil conservation
Subsidies for more sustainable farming and fishing
IncreaseSoil erosion
Soil salinization
Aquifer depletion
Overgrazing
Overfishing
Loss of biodiversity
Loss of primecropland
Food waste
Subsidies for unsustainable farming and fishing
Population growth
Poverty
Decrease
SolutionsSustainable Agriculture
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Moving to Sustainable Ag. Increase research on sustainable agriculture
& improving human nutrition Demonstrations of sustainable agricultural
systems Provide subsidies & increased foreign aid for
sustainable practices Training programs & creation of college
curricula
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Figure 14-30Page 303
• Waste les food
• Reduce or eliminate meat consumption
• Feed pets balanced grain foods instead of meat
• Use organic farming to grow some of your food
• Buy organic food
• Compost your food wastes
What Can You Do?
Sustainable Agriculture