This lecture will help you understand: The relationship between soils and agriculture Fundamentals...
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This lecture will help you understand:• The relationship between soils and
agriculture• Fundamentals of soil science• Soil erosion and degradation• Principles of soil conservation• The green revolution• Pest management• Pollination• Genetically modified food• Preserving crop diversity• Feedlot agriculture and aquaculture• Sustainable agriculture
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Pre-activity
• Read the “No-till” policy in place in Brazil– What is the biggest reason they needed this
policy?– Explain how it works– Does this work everywhere? Explain– What is the percentage of erosion now?– How did the idea spread to other countries?• Friends of the Land
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No-till agriculture in Southern Brazil• Southern Brazil’s climate and soils make for
bountiful harvests.• Repeated planting has diminished the
productivity of the soil.– Topsoil was being eroded away, and fertilizers are
polluting waterways.– Crop yields have fallen.
• Leaving crop residues on their fields after harvesting and planting “cover crops” reduced erosion, increased yields, and cut costs.
• These no-till techniques have benefited everyone.
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Soil: the foundation for agriculture
• Land devoted to agriculture covers 38% of Earth’s land surface.
• Agriculture: practice of raising crops and livestock for human use and consumption
• Cropland: land used to raise plants for human use • Rangeland or pasture: land used for grazing
livestock
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Impacts of agriculture
• Traditional agriculture: agriculture using human and animal muscle power, hand tools, and simple machines
• Industrialized agriculture: using large-scale mechanization and fossil fuels to boost yields– Also uses pesticides, irrigation, and fertilizers
• Mismanaged agriculture turns grasslands into deserts; removes forests; diminishes biodiversity; and pollutes soil, air, and water.– Fertile soil is blown and washed away.– Land suitable for farming is running out.– We must improve the efficiency of food production.
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Soil as a system
• Soil: a plant-supporting system consisting of disintegrated rock, organic matter, air, gases, nutrients– Dead and living
microorganisms and decaying material
– Bacteria, algae, earthworms, insects, and other animals
Since soil is composed of living and non-living matter, it is considered an ecosystem.
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Soil formation is slow and complex
• Parent material: the base geologic material of soil– Lava, volcanic ash, rock, dunes, river sediments– Bedrock: the continuous mass of solid rock
comprising the Earth’s crust• Weathering: the physical, chemical, or biological
processes that break down rocks to form soil• Biological activity also contributes to soil formation.– Through deposition, decomposition, and
accumulation of organic matter– Humus: a dark, spongy, crumbly mass of material
formed by partial decomposition
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A soil profile consists of horizons
• Horizon: each layer of soil• Soil profile: the cross-section
of soil as a whole• Soil profiles can have 6
horizons.– Topsoil (A horizon):
inorganic and organic material that is the most nutritive for plants
– Leaching: dissolved particles move down through horizons
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Soils display great variety• Topsoil is vital for agriculture.– But unsustainable practices reduce the soil’s fertility
and ability to hold water.• Soil scientists classify soils using color, texture,
structure, and pH.– Loam: soil with an even mixture of pore and particle
sizes– The soil most suitable for agriculture is a loamy
mixture with a pH close to neutral that is workable and can hold nutrients.
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Regional differences in soils affect agriculture
• Rainforest soils are much less productive than temperate grasslands.– Rain leaches minerals and nutrients, reducing their
accessibility to roots.– Swidden agriculture: cultivation of a plot for a few years
and then letting it regrow into forest• Temperate grasslands have lower rainfall and less nutrient
leaching.– Nutrients remain within reach of plants.– These soils can be repeatedly farmed with appropriate
farming techniques.
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Soil degradation has many causes• Poor agricultural practices reduce
soil’s ability to support life.– We are cultivating more
unsuitable lands.• Soil degradation results from
agriculture, deforestation, and overgrazing.
• Over the past 50 years, soil degradation has reduced global crop production by 13%.
Problems affecting soil productivity include erosion, desertification, salinization, waterlogging, nutrient depletion, structural changes, and pollution.
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Activity:• Read, “Soil Degradation” pages 138-144• Take notes over the section– How are Erosion & Desertification global problems– Discuss the Dust Bowl– How can farmers conserve soils (6). Be sure to understand each
for discussion in class tomorrow– Discuss how irrigation and fertilizers both help and hurt– What is overgrazing– List the policies set out in the text that promote conservation
• HW: weighing the issues, pg. 141
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Erosion carries soil away• Erosion: the removal of material from one place to another by
wind or water– Deposition: the arrival of eroded material at its new location
• Flowing water deposits sediment in river valleys and deltas.– Floodplains are excellent for farming.
• Erosion removes topsoil, the most valuable soil layer.– Erosion occurs faster than new soil is formed.– It increases through: excessive tilling, overgrazing, and clearing
forests.– Plant communities protect soil from erosion.
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Erosion and desertification are global problems
• Humans are the primary cause of erosion.– It is occurring at unnaturally high rates.
• More than 19 billion ha (47 billion acres) of the world’s croplands suffer from erosion and other soil degradation.
• In Africa, erosion over the next 40 years could reduce crop yields by half.– Coupled with rapid population growth, some observers
describe the future of agriculture as a crisis situation.
In the U.S., erosion has declined, but farmlands still lose 5 tons of soil for every ton of grain harvested.
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Desertification
• Desertification: a loss of more than 10% soil productivity– Erosion, soil compaction, forest
removal, overgrazing, salinization, climate change, depletion of water sources
• Most prone areas = arid lands
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Desertification has high costs• Desertification affects 1/3 of the planet’s land area.– In over 100 countries
• 50 million people may be displaced within 10 years due to desertification from climate change.
• Costs tens of billions of dollars each year– China loses over $6.5 billion/year
• Deserts are expanding and massive dust storms are occurring worldwide.
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The Dust Bowl• In the late 19th and early 20th
centuries, settlers arrived in Oklahoma, Texas, Kansas, New Mexico, and Colorado
• Grew wheat, grazed cattle– Removed vegetation
• A drought in the 1930s made conditions worse.
• Thousands of farmers left their land and had to rely on governmental help.
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The Soil Conservation Service
• The U.S. Congress passed the Soil Conservation Act of 1935, creating the Soil Conservation Service (SCS).
• The SCS works with farmers to develop conservation plans for farms.– The earliest example of interdisciplinary approaches to
environmental problem solving– Serves as a model for similar efforts elsewhere
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Protecting soil: crop rotation and contour farming
• Crop rotation: alternating the crops grown from one season or year to the next – Minimizes erosion, pest
damage– Wheat or corn and soybeans
• Contour farming: plowing furrows sideways across a hillside, perpendicular to its slope, to prevent gullies
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Protecting soil: terracing & intercropping• Terracing: level platforms are
cut into steep hillsides, sometimes with raised edges– A “staircase” to contain water
• Intercropping: planting different types of crops in alternating bands or other spatially mixed arrangements– Increases ground cover
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Protecting soil: shelterbelts and no-till farming
• Shelterbelts or Windbreaks: rows of trees or other tall, perennial plants that are planted along the edges of fields to slow the wind
• No-till farming: furrows are cut in the soil, a seed is dropped in, and the furrow is closed
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Pros and cons of no-till farming
• Almost half of U.S. farmland uses no-till farming.
• Benefits: reduced soil erosion, greater crop yields, enhanced soils
• Negatives: increased use of herbicides and fertilizers
• But green manure (dead plants used as fertilizer) and rotating crops minimize these negatives
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Irrigation: boosted productivity, but problems, too
• Irrigation: artificially providing water to support agriculture– Unproductive regions become
farmland• Waterlogging: over-irrigated soils – Water suffocates roots
• Salinization: the buildup of salts in surface soil layers– Worse in arid areas
Salinization inhibits production of 20% of all irrigated cropland, costing more than $11 billion/year.
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Preventing salinization
• It is easier and cheaper to prevent salinization than to fix it.
• Do not plant water-guzzling crops in sensitive areas.
• Irrigate with low-salt water.• Irrigate efficiently, supplying
only water that the crop requires.– Drip irrigation targets
water directly to plants.
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Fertilizers boost yields but cause problems
• Fertilizer: substances that contain essential nutrients• Inorganic fertilizers: mined or synthetically manufactured
mineral supplements• Organic fertilizers: the remains or wastes of organisms– Manure, crop residues, fresh vegetation– Compost: produced by decomposition of organic matter
• Inorganic fertilizer use has skyrocketed and boosted production.– But overapplying fertilizer can ruin the soil and cause severe
pollution.– Runoff causes eutrophication in nearby water systems.– Nitrates leach through soil and contaminate groundwater.
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Overgrazing causes soil degradation• Overgrazing: too many animals eat too much of the plant
cover – A leading cause of soil degradation
• Government policies (few rules and inexpensive fees) facilitate overgrazing.
The world’s 3.4 billion livestock degrade rangeland and costs $23.3 billion/year
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Some policies promote soil conservation
• Every 5 to 6 years, Congress passes a farm bill.– Many provisions require farmers to adopt soil
conservation plans before getting subsidies.• Conservation Reserve Program (1985)– Pays farmers to plant highly erodible land with trees and
grasses instead of crops– Each dollar invested saves 1 ton of topsoil.– Generates income for farmers – Improves water quality and provides habitat for wildlife– With current higher food prices, many farmers are
planting more acres.
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Activity: • Read, “The Race to Feed the World” p. 144-149• Take Notes over the section– Why do 850million people not have enough to eat?– What is Food Security, and does it apply to the above #– What is the Green Revolution, and how has it boosted agriculture?
• Pros and cons
– Discuss the Pesticide vs pest evolution– What is biocontrol? Give examples; pros and cons– What is IPM? – What are pollinators, and why are they crucial to farming? What is
“Colony Collapse Disorder”?
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Today, we are producing more food per person
• The human population is expected to reach 9 billion by 2050.
• Food production currently exceeds population growth.• But 850 million people in developing countries do not have
enough to eat.
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Some starve, others eat too much• Undernourishment: people receive too few calories per day• Malnutrition: receiving too few nutrients in food– Every 5 seconds, a child starves to death.
• Overnutrition: receiving too many calories each day– In the U.S., people eat junk food and don’t exercise.– Worldwide, more than 300 million people are obese.
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Food security• Food security: the guarantee of adequate and reliable food
supply to all people at all times– We have reduced hunger by half since 1970.– Through fossil fuels, irrigation, fertilizers, pesticides, more
agricultural land, more productive crops, and livestock• Monoculture: the uniform planting of a single crop– Industrialized agriculture requires that vast fields are
planted with single types of crops.• In recent years, grain production has decreased.
Since 1985, world grain production per person has fallen by 9%.
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The green revolution• Uses technologies to dramatically
increase crop output – Stunning success transformed
agriculture in developing countries• Spread to the developing world in the
1940s with wheat, rice, corn • Depended on large amounts of:– Synthetic fertilizers – Chemical pesticides – Irrigation – Heavy equipment
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Green revolution: costs & benefits• From 1900 to 2000, cultivated area increased 33%,
while energy inputs increased 80 times!• Positive effects on natural resources: reduced pressure
to convert more natural land to cropland– Prevented some deforestation and habitat conversion
• Negative effects on natural resources:– Pollution and reduced biodiversity– Erosion, salinization and desertification– Increased susceptibility to crop diseases
• Today, soil quality is declining, resulting in lower yields.
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Pests and pollinators• Pest: any organism that damages valuable crops • Weed: any plant that competes with crops• Pesticides: poisons that target pest organisms– Insecticides: target insects– Herbicides: target plants– Fungicides: target fungi
• 400 million kg (900 million lbs.) of pesticides are applied in the U.S. each year.– 75% of this is applied to agricultural land.– Usage is increasing in developing countries.
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Common pesticides
• More than $32 billion is spent on pesticides each year in the world. – 1/3 of this is spent
in the U.S.
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Resistance to pesticides• Some individuals are genetically immune to a pesticide.– They survive and pass these genes to their offspring.
• Pesticides stop being effective.– Evolutionary arms race: chemists increase chemical
toxicity to compete with resistant pests
In 2008, 550 species were resistant to 300 pesticides.
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Biological control
• Biological control (Biocontrol): uses a pest’s natural predators to control the pest– Leads to steep reductions in
chemical pesticide use– Cactus moths control invasive
prickly pear cactus– Bacillus thuringiensis (Bt): soil
bacteria that kills many pests
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Biocontrol involves risks• No one can predict the effects of an introduced
species.• The agent may become invasive and harm non-target
organisms.– Cactus moths are eating rare Florida cacti.
• Removing a biocontrol agent is harder than halting pesticide use.– The harm done by biocontrol agents may be permanent.
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Integrated Pest Management (IPM)• IPM uses multiple techniques to suppress pests.– Biocontrol– Chemicals, when necessary– Population monitoring – Habitat alteration– Crop rotation and transgenic crops– Alternative tillage methods– Mechanical pest removal
Within 4 years of using IPM in Indonesia, rice yields rose 13%, and $179 million was saved by phasing out subsidies.
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We depend on insects to pollinate crops
• Most insects do not harm agriculture, and some are absolutely vital.– 800 cultivated plant species rely on insect pollinators.
• Pollination: male plant sex cells (pollen) fertilize female sex cells– By wind or animals
• Pollinators include:– Hummingbirds– Bats– Insects
Flowers are evolutionary adaptations to attract pollinators.
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Conservation of pollinators is vital
• Populations of native pollinators have plummeted.• Honeybees pollinate more than 100 crops — 1/3 of the U.S. diet.
– Recently, introduced parasitic mites have devastated hives.• To conserve pollinators:
– Reduce or eliminate pesticide use – Plant gardens of flowering plants
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Activity:• Read the remainder of the chapter (149-158)– What does the term GM stand for? How does it work? Be
sure you understand this concept– Read the examples of figure 7.16. give feedback– How is this technique transforming the products worlwide?
What are the impacts?– What is feedlot agriculture? How does our food choice
impact world energy numbers?– What is Aquaculture?– Compare traditional agriculture to sustainable practices
• HW: Seeking Solutions q’s 4 and 5
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Genetically modified organisms• Relentless population
growth demands still more agricultural .
• Genetic engineering: laboratory manipulation of genetic material
• Genetically modified organisms: organisms that have been genetically engineered by…
• Recombinant DNA: DNA created from multiple organisms
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Biotechnology is impacting our lives
• Biotechnology: the material application of biological science to create products derived from organisms
• Transgenic organism: an organism that contains DNA from another species – Transgenes: the genes that have moved between
organisms
• Biotechnology has helped us create medicines, clean up pollution, and dissolve blood clots.
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Some genetically modified foods
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Genetic engineering versus agricultural breeding
• Artificial selection has influenced the genetic makeup of livestock and crops for thousands of years.
• Proponents of GM crops say GM foods are safe.• Critics of GM foods say:– Traditional breeding uses genes from the same species.– Selective breeding deals with whole organisms, not just genes.– In traditional breeding, genes come together on their own.
Traditional breeding changes organisms through selection, while genetic engineering is more like the process of mutation.
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Biotechnology: Changing our world• GM foods have become big business.• Many traits engineered into crops make them more efficient
and economical for farmers to grow.– Most U.S. soybeans, corn, cotton, and canola are
genetically modified.
Globally, in 2007, more than 12 million farmers grew GM foods on 114 million ha of farmland, producing $6.9 billion worth of crops.
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What are the impacts of GM crops?
• As GM crops expanded, scientists and citizens became concerned.– Dangerous to human health– Escaping transgenes could pollute ecosystems and
damage non-target organisms.– Pests could evolve resistance to the supercrops.– Interbreed with closely related wild plants– Could ruin the integrity of native ancestral races
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Many aspects of GM foods remain unknown
• Supporters make the following points:– Millions of Americans eat GM foods without signs of
harm.– Consequences of interbreeding remain debatable. – Herbicide-resistant crops encourage no-till farming.– GM crops may require less fertilizer and irrigation.
• Critics argue that we should adopt the precautionary principle — don’t do any new action until it’s understood.
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The GM debate involves more than science
• Ethical issues play a large role.– People don’t like “tinkering” with the food supply.– Some fear domination of the food supply by large
agrobiotech corporations (i.e., Monsanto, Dow).– Research is funded by corporations that will profit if
GM foods are approved for use.
The GM industry is driven by market considerations of companies selling proprietary products.
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Different cultures view GM foods differently
• Europeans are uneasy about GM foods.– European governments demand that GM foods are labeled.
• U.S. consumers have largely accepted GM crops.– They don’t even realize their foods contain GM products.
• The future of GM foods will hinge on social, economic, legal, and political factors, as well as scientific ones.
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Preserving crop diversity: insurance against failure
• The genetic diversity of ancestral varieties of crops must be preserved.– Any single catastrophe can wipe out an
entire monocrop.– These varieties contain genes that could
confer resistance to diseases and pests.• Seed banks: institutions that preserve seed
types as a kind of living museum of genetic diversity– Seeds are collected, preserved, and
periodically planted.
Britain’s Royal Botanic Garden’s Millennium Seed Bank holds more than 1 billion seeds.
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Eating animal products has significant impacts
• As wealth and commerce increase, so does consumption of meat, milk, and eggs.– Global meat production has increased fivefold.– Per capita meat consumption has doubled.
Today, over 20 billion domestic animals are produced for food; the typical American eats over 200 kg (440 lbs) of meat per year.
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Feedlot agriculture• Feedlots (factory farms): also
called Concentrated Animal Feeding Operations (CAFOs)– Huge warehouses or pens
designed to deliver energy-rich food to animals living at extremely high densities
– Over ½ of the world’s pork and poultry come from feedlots.
Debeaked chickens spend their lives in cages; U.S. farms can house hundreds of thousands of chickens in such conditions.
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The benefits & drawbacks of feedlots
• The benefits of feedlots include:– Greater production of food– Unavoidable in countries with high levels of meat
consumption, like the U.S. – They take livestock off the land and reduce the
impact that they would have on it.
• Drawbacks of feedlots include:– Contributions to water and air pollution– Poor waste containment causes outbreaks of
disease.– Heavy uses of antibiotics to control disease
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Energy choices through food choices
• Our food choices impact energy and land use.
• 90% of energy is lost every time energy moves from one trophic level to the next.
• Eating lower on the food chain increases the number of people the Earth can support.
• Some animals convert grain into meat more efficiently than others.
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Environ ramifications of eating meat • Land and water are needed to raise food for livestock.• Producing eggs and chicken meat requires the least
space and water.– Producing beef requires the most space and water.
When we choose what to eat, we also choose how we use resources.
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Aquaculture• Wild fish populations are plummeting.– Technology and increased demand
• Aquaculture: raising aquatic organisms for food in a controlled environment (“fish farm”)– Aquatic species are raised in open-
water pens or land-based ponds.• The fastest-growing type of food
production– Provides a third of the world’s fish – Most widespread in Asia
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The benefits and drawbacks of aquaculture
• Benefits:– A reliable protein source– Sustainable– Increases food security – Reduces fishing pressure on
wild fish stocks– Energy efficient
• Drawbacks:– Diseases can occur,
requiring expensive antibiotics
– Reduces food security– Large amounts of waste– Growing grain to feed
fish is inefficient– Farmed fish may escape
and introduce disease into the wild
A larger, transgenic salmon (top) vs. a smaller wild salmon
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Sustainable Agriculture
• Industrial agriculture may seem necessary, but less-intensive agricultural methods may be better in the long run.
• Sustainable agriculture: does not deplete soil, pollute water, or decrease genetic diversity
• Low-input agriculture: uses smaller amounts of pesticide, fertilizers, growth hormones, water, and fossil fuel energy than industrial agriculture
• Organic agriculture: uses no synthetic fertilizers, insecticides, fungicides, or herbicides– Relies on biological approaches (composting and biocontrol)
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Organic agriculture is increasing• People debate the meaning of the
word “organic.”– Organic Food Production Act
(1990) establishes national standards for organic products.
– The USDA issued criteria in 2000 by which food could be labeled organic.
• The market for organic food is increasing.– Farmers in all 50 states and 130
nations practice commercial organic farming.
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The benefits of organic farming• For farmers:– Lower input costs, enhanced income from higher-value
products, reduced chemical pollution, and soil degradation
• For consumers:– Concern about pesticide’s health risks– A desire to improve environmental quality
• Government initiatives can encourage organic farming.– Conversion often means a temporary loss in income for
farmers.
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Organic agriculture succeeds in cities
• Increasing numbers of farmers and consumers are supporting local small-scale agriculture.– Farmers’ markets in North America provide fresh, local
produce in season.• Community-supported agriculture: consumers pay farmers in
advance for a share of their yield– Consumers get fresh food.– Farmers get a guaranteed income.
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Conclusion• Intensive commercial agriculture has substantial
negative environmental impacts.– Industrialized agriculture has relieved pressures on the
land and resources.
• If our planet will be able to support 9 billion humans, we must shift to sustainable agriculture.– Biological pest control; organic agriculture; pollinator
protection; preservation of native crop diversity; aquaculture; and careful, responsible genetic modification of food
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QUESTION: Review
Traditional subsistence agriculture uses all of the following EXCEPT:a) Animal powerb) Human powerc) Hand toolsd) Fossil fuelse) Simple machines
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QUESTION: Review
_________ is the physical, chemical, or biological processes that break down rocks to form soil.
a) Weatheringb) Humidifyingc) Erosiond) Desertificatione) Swidden agriculture
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QUESTION: Review
Which horizon is the most valuable for agriculture?a) B horizonb) E horizonc) Topsoil (A horizon)d) R horizone) Leaching horizon
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QUESTION: Review
Erosion increases through all of the following EXCEPT: a) Excessive tilling b) Overgrazing c) Clearing forestsd) All of the above increase erosion.e) None of the above increase erosion.
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QUESTION: ReviewWhich sustainable farming method involves plowing furrows sideways across a hillside?
a) Terracing b) Crop rotation c) Shelterbeltsd) Contour farminge) Intercropping
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QUESTION: Review
Which sustainable farming method involves planting different types of crops in alternating bands?
a) Terracing b) Crop rotation c) Shelterbeltsd) Contour farminge) Intercropping
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QUESTION: ReviewWhich term means “receiving too many calories each day”?a) Undernourishmentb) Overnutritionc) Food securityd) Malnutritione) Starvation
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QUESTION: Review
What is a monoculture?a) A type of subsistence agricultureb) A way to maximize biodiversityc) The uniform planting of a single cropd) The planting of multiple crops in a field e) Maximization of a person’s diet
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QUESTION: Review
The green revolution involved all of the following EXCEPT:
a) Increased uses of pesticidesb) Increased uses of fertilizersc) Increased erosiond) Heavy equipmente) Decreased susceptibility to crop diseases
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QUESTION: ReviewWhich of the following is involved in Integrated Pest Management (IPM)?
a) Crop rotationb) Population monitoringc) No chemical used) Habitat alteratione) Biocontrol
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QUESTION: ReviewWhich statement about GM food production is NOT correct?
a) Proponents of GM foods say they are safe.b) It uses genes from different species.c) GM foods are generally limited to rare, expensive
foods.d) GM crops may need less fertilizers.e) Ethical issues play a large role in whether GM
foods are accepted by people.
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QUESTION: ReviewWhich of the following is the fastest growing type of agriculture?
a) Concentrated animal feeding operationsb) Sustainable agriculturec) Aquacultured) Monoculturese) Seed banks
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QUESTION: Weighing the Issues
Which of the following should be used to encourage farmers to switch to sustainable farming techniques?
a) Money from the federal governmentb) Awards and honors from the federal governmentc) Increased taxes if the farmer does not switchd) Education of the farmer and appeals to his or her
ethical standardse) None of these; it’s nobody’s business what farmers do
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QUESTION: Weighing the Issues
People in the U.S. can eat so much meat because of factory farming. However, many people are troubled by the conditions that animals are kept in. Should the quality of the animals’ lives be considered when we decide how to raise food?
a) Yes, the quality of an animal’s life is important, too.b) Yes, but only if it does not interfere with access to meat.c) Yes, and people should have to pay more for their meat
products.d) No, animals have no right to a quality of life.e) I don’t care. I’m not particularly fond of cows or chickens.
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QUESTION: Interpreting Graphs and Data
If the average person eats 3 kg of meat per week, how many kg of grain are required if the meat came from a cow?
a) 60 kg
b) 22 kg
c) 3 kg
d) 12 kg
e) 20 kg
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QUESTION: Interpreting Graphs & Data
What does this graph tell us about the relationship between organic cropland, pastureland, and certified operations?
a) All aspects of organic agriculture have grown rapidly.
b) Growth of organic agriculture has slowed.
c) Very little cropland is available for organic food.
d) Pasture has decreased for organic livestock.
e) People in the U.S. are not interested in organic food.