SVN3M1 Chapter 5 Test Review PDF

Summary

This document reviews concepts related to agriculture, aquaculture, plant breeding, and soil science. It includes questions about different aspects of these topics.

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SVN3M1 Chapter 5 Test Review
5.0. Background Information
What is the difference between agriculture and aquaculture?
Agriculture: crop and livestock production
Aquaculture: fish and seafood production (in particular)
The Green Revolution. When was it? Explain what it is. What are pros vs cons?
1950s-1970s → the introduction of new plant varieties and farming methods
Pros: increased food production, more efficient irrigation and farming methods,
improved machines and plant varieties
Cons: increased usage of fertilizers and pesticides, higher amount of water needed,
more beneficial to multinational companies as opposed to family farmers
Describe what plant breeding is. What are traits that breeders incorporate into crops?
Plant breeding: the art and science of changing the traits of plants in order to produce
desired characteristics
Traits: increased quality and yield, increased tolerance of environmental
pressures/pests/pesticides, resistance to viruses/fungi/bacteria,
What is the difference between primary succession and secondary succession?
Primary succession: the colonization of an area previously void of soil and vegetation
Secondary succession: the recolonization of an area after an ecological disturbance in
which soil has remained intact

5.1. Plants And Soil
What are the basic requirements of plants?
Sunlight, gases, soil, water, nutrients and minerals, space
Sunlight: What is the equation for photosynthesis? What is the equation for cellular respiration?
Photosynthesis: CO2 + H20 → C6H12O6 + O2
Cellular respiration: C6H12O6 + O2 → CO2 + H20 + ATP (energy)
Soil: purpose of soil? What is necessary in the soil?
Helps support and anchor the plant to the ground
Must contain water, nutrients, and minerals
Water: what is it used for?
Used in photosynthesis → dissolves nutrients/minerals so they could enter the root
Nutrients: What are the main macronutrients plants need? How do they get into the roots?
Macronutrients: nitrogen, phosphorous, potassium (NPK)
Dissolved in water and absorbed from the soil by the roots
Space: Why do plants need space?
Plants need space to reach light and for roots, stems, and branches to grow
Components of soil: How is soil made? What are the components? What are the layers of soil?
What is humus and why is it important?
Soil: a mixture of mineral grains, air, water, and organic material that support plant life
Made from weathered rock particles, decaying organic material, bedrock, and thousands
of years of activity
○ Weathered rock (45%): sand, gravel, silt, clay
○ Water (25%): rainfall or groundwater
○ Air (25%): self-explanatory
○ Organic material (5%): decaying plants and animals, bacteria, worms, fungi,
insects
Humus: organic material resulting from the breakdown of plant and animal remains
○ Increases water-holding ability and acidity → makes absorbing nutrients easier
○ Makes soil particles stick together and helps create crumbly soil → allows air and
water in
What is the purpose of living organisms in the soil? What are some examples?
Worms → moves through soil, mixes organic and inorganic matter; increases amount of
nutrients available, soil drainage
Bacteria and fungi → decay and recycling of materials
What is the ideal type of soil for agriculture? Why?
LOAM → combines large spaces and water with the ability of clay particles to hold
nutrients and water
○ 80% silt, 20% clay, 50% sand
Soil properties: what is the porosity? What is the soil pH? What pH do plants grow best and
why?
Porosity: size and number of spaces among particles of soil → the more space, the more
absorption/drainage
pH: how acidic or basic a substance is → plants usually thrive in slightly acidic or neutral
soil (6-7), but it differs; depends on rainfall (more = more acidic) and organic matter

5.2. Methods Of Mechanized Agriculture
What is “mechanized agriculture”?
The usage of machines and fossil fuels to raise plants and livestock for food/other
human needs
What is a monoculture? What kind of crops are grown?
Monoculture: the growth of a single crop on a large scale of land
E.g. corn, cotton, wheat, rice, soybeans
Explain the advantages and disadvantages of monocultures
Pros: easier and less expensive to plant and grow, increased crop yields
 Cons: same crops year after year removes soil nutrients, increased usage of fertilizers,
lack of biodiversity (more vulnerable to to pests and diseases)
What happens to the nutrients in the soil when crops grow?
Nutrients that are absorbed into the crops are removed from the field when the crop is
harvested
Must be replaced (or put back in the soil)
What are the MACRO vs the MICRO nutrients?
MACRO: nitrogen, phosphorus, potassium
MICRO: boron, manganese, zinc, calcium
What are synthetic fertilizers?
Petrochemical products
Delivers a fast boost to plants because the nutrients are delivered with water, straight to
the roots
○ Makes the product easy for the plant to absorb and turn that energy into tasty
fruit, luscious leaves, or beautiful flowers
How are aquatic ecosystems affected? Explain how an algae bloom happens and its effects on
the environment
Fertilizers are dissolved by rainwater and carried into rivers, lakes, and other bodies of
water
○ Eutrophication: an excess level of phosphorus and nitrogen → results in algae
reproducing in large numbers
Algae bloom: explosion of algae → blocks sunlight (and prevents photosynthesis); when
they die, bacteria use up all the oxygen decomposing them → kills fish and other
animals
What is a synthetic pesticide? What are natural pesticides? What are “pests”? Examples
Natural pesticides: produced by plants to defend themselves against bacteria, fungi,
pests
Synthetic pesticides: produced by humans → any chemical used to kill or control
populations of fungi, animals, plants
Pests: organisms that affect the health and growth of crops → e.g. weeds insects, fungi
Advantages of the use of pesticides and disadvantages/negative effects (what is
bioaccumulation vs biomagnification?)
Pros: prevents loss of crops (economically beneficial), cost of pesticides is balanced by
the high yields, less tending to the fields, greater profits for farmers
Cons: kills non-target species, increases pesticide resistance, has negative effects on
human health
○ Bioaccumulation: pesticide levels increase through generations; same species,
levels increase
 ○ Biomagnification: pesticide levels move to different animals → magnifying
contamination
What is the PMRA? Why is this important?
Stands for the Pest Control Products Act
Pesticide regulation → strictly regulated for risks by Health Canada
Define irrigation. Explain the three different irrigation methods.
Irrigation: adding water to an agricultural field to allow certain crops to grow where the
lack of water would normally prevent cultivation
Surface/Flood Irrigation: water flows over fields in canals/ditches on a downwards slope
→ inefficient; water is lost through evaporation or runoff
Spray Irrigation: sprinkler system (water is sprayed above plants) → most inefficient;
35% evaporates before reaching the soil
Drip Irrigation: series of pipes with placed openings to deliver water directly to roots →
conserves water but is expensive to build/maintain
What are GMOs? What are 4 modified traits that scientists insert into a species' genes? Give
examples
GMOs: an organism with altered genetic make-up → small section of DNA from one
organism is inserted into another
Types of traits: insect resistance (tomato, potato), herbicide resistance (corn, canola),
insect and herb resistance (corn, cotton), virus resistance (zucchini, papaya)

5.3. Sustainable Agriculture
What is the goal of sustainable agriculture?
Producing food to meet the needs of the present without compromising the ability of
future generations to meet their needs
What are the 8 methods of sustainable agriculture?
Polycultures, soil conservation, soil fertility, organic fertilizers, integrated pest
management, irrigation practices, renewable energy sources, and organic farming
Polycultures: explain this method and why it is beneficial
Polyculture: an agricultural practice where diverse species are raised in the same area
Mimics natural ecosystems, increases biodiversity, helps conserve topsoil, reduces need
for water/fertilizers/pesticides, results in higher yields
Companion Planting: What is it? What is “The Three Sisters”? How do these crops help one
another?
Companion planting: planting two or more plant species close to each other so that
some benefit occurs → pest control, nutrient absorption, higher yields, etc
Three Sisters: Corn, beans, squash
○ Corn provides structure for beans to grow up
 ○ Beans return nitrogen to the soil → benefiting squash
○ Squash provides dense leaf coverage and ground cover → prevents weeds from
growing
Soil Conservation: What are the benefits? What is strip cropping? Why leave the stalks, stems,
and leaves on land after harvesting?
Pros: reduces soil erosion, maintains soil fertility, and reduces loss of topsoil
Strip cropping: planting alternating strips of one type of crop with another crop that
totally covers the soil, called a cover crop
○ Leaving stalks, stems, and leaves also cover the soil, reducing soil erosion and
water runoff
Soil Fertility: What is it? What is crop rotation? How does it work?
Soil fertility: retaining the topsoil and restoring nutrients into the soil after planting
Crop rotation: growing different crops at different times on the same land → preserves
nutrients
○ Plant a crop that removes nutrients from the soil (corn, cotton) → next year,
plant the same area with plants/legumes that add nitrogen back into the soil
(beans, peas)
Organic Fertilizers: Compost, Mulch, Green Manure- explain each. What are the effects of each?
Compost: produced when microorganisms in soil break down organic matter in the
presence of oxygen → reduces soil erosion, adds nutrients to soil
Mulch: protective ground over → reduces soil erosion, adds nutrients to soil, maintains
soil temperature and moisture
Green Manure: growing vegetation on a field and ploughing it into the topsoil →
reduces soil erosion, adds nutrients to soil
IPM: What is it? Explain the goal? What are biological methods? Give an example. What are the
steps in IPM?
IPM: Integrated Pest Management → uses biological organisms, chemical substances,
and crop rotation to keep pests under control
○ Biological methods include introducing natural predators, parasites, or disease
causing organisms
Goal: keep pest populations low so farmers don’t experience economically unacceptable
losses
Steps: identifying pests → monitoring population levels → deciding action that needs to
be taken
○ Four stages: cultural (crop rotations, polyculture, strip rotation), physical (fences,
screens, physical barriers), biological (introduction to predators or parasites),
chemical (natural and synthetic fertilizers)
Irrigation practices: What is the best type of irrigation? Explain why. What is the downside of it?
Recycled water comes from where?
Drip irrigation: delivers water directly to roots of plant → 90% efficiency
○ Initial cost is much higher than other irrigation systems
Recycled water: water from wastewater treatment plants that have been treated so it is
safe to use
Renewable Energy Sources: What are some renewable energy sources? What is the benefit of
using them?
E.g. solar power, wind power, hydropower
Reduces the use of fossil fuels → better for the environment (in every way)
Organic farming: What is an organic product?
Organic product: a product that has been produced according to standards defined by
the government and independent agencies → without the use of fertilizers, pesticides,
hormones, antibiotics, synthetic additives, or GMOs

5.4. Livestock Production
What is livestock? What is it an important source of?
Livestock: domesticated animals raised to provide products for consumption and usage
Important source of proteins, irons, fats, and other nutrients
What is the difference between rangelands and enclosed pastures? What are examples of each?
Rangelands: ecosystems dominated by grasses, wildflowers, and shrubs
○ E.g. grasslands, woodlands, and deserts
Enclosed pastures: fenced area covered by grasses and legumes
○ E.g. farms (of any sort)
What are confined animal feeding operations? What is the purpose of them?
CAFOs: energy intensive industrialized systems where animals are housed in small
spaced
Fed for rapid growth
What are the advantages of rangelands, enclosed pastures, CAFO?
Rangelands/enclosed pastures: important in the grazing industry, provides food for
livestock, reduces soil erosion, regulates flow of water
CAFOs: reduces risk of overgrazing, lower cost, provides employment
What are disadvantages of rangelands, enclosed pastures, CAFOs?
Rangelands: prone to overgrazing → damages ecosystem
Enclosed pastures: biodiversity is affected and controlled (the introduction or removal of
certain plants or predators)
CAFOs: requires large amounts of fossil fuels for production, produces a lot of waste and
runoff, constant use of antibiotics
Raising livestock sustainably. Explain rotational grazing, smart pasture operations, polyculture
systems.
Rotational grazing: confining animals to a small area of pasture for a few days, then
shifting them to a new location → everything is eaten equally, fertilized with manure
Smart pasture operations: feeding animals a grass diet in a smaller pasture → less
energy and maintenance, smaller than CAFOs
Polyculture systems: more than one type of livestock is grown at a time → e.g. cattle and
chicken graze, then grain is grown using the fertilized soil

5.5. Fisheries And Aquaculture
What is aquaculture? What do developed countries depend on?
Aquaculture: also known as “fish farming” → breeding, raising, and harvesting of
animals in specially designed aquatic environments
Developing countries focus on locally caught fish, while developed countries focus on
industrial-scale fishing
What is overexploitation? What is the harm in overexploiting? Explain why it is bad for the
environment?
Overexploitation: the harvesting of a resource to near extinction → results in loss of
biodiversity and the potential collapse in vulnerable (fish) stocks
What are signs that marine resources are being overexploited?
Fish species previously labelled as ‘unacceptable’ are now being marketed to consumers
‘Newly discovered fish’ are overfished
What are the effects of overexploitation on sustainability? What technology is used to locate
fish?
Ocean liners, GPS and sonar systems, and spotter plants are all used to locate a large
amount of fish
What are the three different fishing methods that can affect the sustainability of marine
ecosystems?
Longline fishing boats, trawlers, pots and traps
Explain each method: longline fishing, trawlers, pots and traps
Longline fishing: up to 130 km of lines 2m apart to catch fish (basically a large fishing
line) → can result in by-catch
Trawlers: using a heavy and large net to drag across the ocean bottom to catch fish and
seafood → kills organisms not caught by the net, creates clouds of sediment, large
amounts of by-catch
Pots and traps: wire or wooden cages set across the seafloor used to catch seafood →
when dragged on the ocean floor during harvesting, can lead to increased death rates
Harvesting fish and seafood sustainably: What are the methods to harvest wild fish? (purse
seines, spotter planes, hook and line fishing) Why is this a sustainable method?
Purse seines: using a large circular net to catch schools of fish → doesn’t touch seafloor
and by-catch rates are low
Spotter planes: used (along with purse seines) to spot schools of fish → doesn’t damage
anything
Hook and line fishing: has less hooks than longlines → less by-catch
Why are aquacultures on land-and-base ponds or warehouses more sustainable?
Growing herbivorous fish allows for less feed needed
Fish that feed on different levels of the ecosystem creates an ecologically balanced
system
Wastes, such as manure and dead worms, are used to fertilize the ponds, encouraging
algae growth (a source of food for the fist, and the cycle repeats)