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Terrestrial Ecology Notes
Chapters 3, 5 and 7
Miller 15th Edition
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Chapter Overview Questions What is ecology? What basic processes keep us and other
organisms alive? What are the major components of an ecosystem? What happens to energy in an ecosystem? What are soils and how are they formed? What happens to matter in an ecosystem? How do scientists study ecosystems?
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Chapter Overview Questions What factors the earth’s climate? How does climate determine where the
earth’s major biome’s are found? What are the major types of desert biomes? What are the major types of grassland
biomes?
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Chapter Overview Questions (cont’d) What are the major types of forest and
mountain biomes? How have human activities affected the
world’s desert, grassland, forest, and mountain biomes?
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THE NATURE OF ECOLOGY
Ecology is a study of connections in nature. How organisms
interact with one another and with their nonliving environment.
Figure 3-2Figure 3-2
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Organisms and Species Organisms, the different forms of life on earth,
can be classified into different species based on certain characteristics.
Figure 3-3Figure 3-3
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Species Diversity and Niche Structure: Different Species Playing Different Roles Biological communities differ in the types and
numbers of species they contain and the ecological roles those species play. Species diversity: the number of different species it
contains (species richness) combined with the abundance of individuals within each of those species (species evenness).
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Indicator Species: Biological Smoke Alarms
Species that serve as early warnings of damage to a community or an ecosystem. Presence or absence of trout species because
they are sensitive to temperature and oxygen levels.
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Case Study: Why are Amphibians Vanishing?
Frogs serve as indicator species because different parts of their life cycles can be easily disturbed.
Figure 7-3Figure 7-3
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Case Study: Why are Amphibians Vanishing? Habitat loss and fragmentation. Prolonged drought. Pollution. Increases in ultraviolet radiation. Parasites. Viral and Fungal diseases. Overhunting. Natural immigration or deliberate introduction of
nonnative predators and competitors.
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Keystone Species: Major Players
Keystone species help determine the types and numbers of other species in a community thereby helping to sustain it.
Figures 7-4 and 7-5Figures 7-4 and 7-5
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Foundation Species: Other Major Players
Expansion of keystone species category. Foundation species can create and enhance
habitats that can benefit other species in a community. Elephants push over, break, or uproot trees,
creating forest openings promoting grass growth for other species to utilize.
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Population A group of individual organisms
of the same species living w/in a particular area.
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Community
The population of all species living & interacting in an area.
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Ecosystem A community of different species
interacting together & with the chemical & physical factors making up its non-living environment.
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Nonliving and Living Components of Ecosystems Ecosystems consist of nonliving (abiotic) and
living (biotic) components.
Figure 3-10Figure 3-10
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Fig. 3-2, p. 51
Communities
Subatomic Particles
Atoms
Molecules
Protoplasm
Cells
Tissues
Organs
Organ systems
Organisms
Populations
Populations
Communities
Ecosystems
Biosphere
Earth
Planets
Solar systems
Galaxies
Universe
Organisms
Realm of ecology
Ecosystems
Biosphere
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Habitat The place where an organism or a
population lives.
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Niche The total way of life or role of a
species in an ecosystem. All the physical, chemical, and
biological conditions a species needs to live & reproduce in an ecosystem.
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Predator An organisms that captures & feeds on
parts or all of another animal.
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Prey An organisms that is captured & serves
as a source of food for another animal.
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Tragedy of the Commons A common-property resource, which are
owned by no one but are available to all users free of charge.
Most are potentially renewable. Ex. Clean air, open ocean and its fish,
migratory birds, Antarctica, the ozone, and space.
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Biomass The organic matter produced by plants;
dry weight. Energy from wood, garbage &
agricultural waste. Can be used for electrical energy!
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Decomposition As plant or animal matter dies it will break
down and return the chemicals back to the soil.
This happens very quickly in tropical rainforest which results in low-nutrient soils.
Grasslands have the deepest and most nutrient rich of all soils
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Producers: Basic Source of All Food
Most producers capture sunlight to produce carbohydrates by photosynthesis:
The process in which glucose is synthesized by plants.
Photosynthesis
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Productivity The amount of increase in organic matter
per unit of time.
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Fig. 3-11, p. 58
Zone of intolerance
Optimum rangeZone of physiological
stress
Zone of physiological
stress
Zone of intolerance
TemperatureLow High
Noorganisms
Feworganisms
Upper limit of tolerance
Po
pu
lati
on
siz
e
Abundance of organismsFew organisms
Noorganisms
Lower limit of tolerance
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Carrying Capacity The maximum population of a
particular species that a given habitat can support over time.
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A: Represents the biotic potential of the species
B: Shows how the population overshoots the carrying capacity
C: Represents the logistic growth
D: Represents linear growth
E: Carrying capacity- the maximum number of individuals that can be supported by a particular ecosystem.
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Consumers: Eating and Recycling to Survive
Consumers (heterotrophs) get their food by eating or breaking down all or parts of other organisms or their remains. Herbivores
Primary consumers that eat producers Carnivores
Primary consumers eat primary consumers Third and higher level consumers: carnivores that eat
carnivores. Omnivores
Feed on both plant and animals.
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Producers An organism that uses solar energy (green
plant) or chemical energy (some bacteria) to manufacture its food.
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Primary Consumer (herbivore) An organism that feeds directly on
all or parts of plants.
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Secondary Consumer (carnivore) An organisms that feeds only on
primary consumers. Most are animals, but some are plants (Venus fly-trap).
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Tertiary Consumer (carnivore) Animals that feed on animal-
eating animals. Ex. hawks, lions, bass, and sharks.
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Quaternary Consumer (carnivore) An animal that feeds on tertiary
consumers. Ex. humans.
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Decomposer (scavenger, detritivore) An organism that digests parts of dead
organisms, cast-off fragments, and wastes of living organisms. Ex. bacteria and fungi.
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Decomposers and Detrivores
Decomposers: Recycle nutrients in ecosystems. Detrivores: Insects or other scavengers that feed on
wastes or dead bodies.Figure 3-13Figure 3-13
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Fig. 3-14, p. 61
Abiotic chemicals(carbon dioxide,
oxygen, nitrogen, minerals)
Heat
Heat
Heat
Heat
Heat Solarenergy
Consumers(herbivores, carnivores)
Producers(plants)
Decomposers(bacteria, fungi)
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Food Webs/Chains Purpose – determines
how energy & nutrients move from one organism to another through the ecosystem
Arrows – point from the producer to the consumer
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Fig. 3-17, p. 64
Heat
Heat
Heat
Heat
Heat
Heat Heat Heat
Detritivores (decomposers and detritus feeders)
First Trophic Level
Second TrophicLevel
Third Trophic Level
Fourth Trophic Level
Solar energy
Producers(plants)
Primary consumers(herbivores)
Secondary consumers(carnivores)
Tertiary consumers
(top carnivores)
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Structure Shows the decrease in usable energy
available at each succeeding trophic level in a food chain or web.
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Energy Flow in an Ecosystem: Losing Energy in Food Chains and Webs
In accordance with the 2nd law of thermodynamics, there is a decrease in the amount of energy available to each succeeding organism in a food chain or web.
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Energy Flow in an Ecosystem: Losing Energy in Food Chains and Webs
Ecological efficiency: percentage of useable energy transferred as biomass from one trophic level to the next.
Figure 3-19Figure 3-19
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Relationship Between Biomass and Energy Biomass is dry weight & represents
the chemical energy stored at each energy level.
Water is neither a source of energy, nor has any nutritional value.
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10% Rule
We assume that 90% of the energy at each energy level is lost because the organism uses the energy. (heat)
It is more efficient to eat lower on the energy pyramid. You get more out of it!
This is why top predators are few in number & vulnerable to extinction.
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Energy Flow & Feeding Relationships Direction:
grain steer human Measurement – samples are taken,
dried, & weighed
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Description Two kinds of organisms, such as
lions and zebras, are said to have a predator-prey relationship.
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Cycle See graph (page 203 and 204)
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Importance in Population Control Predators usually kill the sick, weak or aged.
This helps to let the rest of the prey have greater access to the available food supply.
It also improves the genetic stock.
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SPECIES INTERACTIONS: COMPETITION AND PREDATION
Species can interact through competition, predation, parasitism, mutualism, and commensalism.
Some species evolve adaptations that allow them to reduce or avoid competition for resources with other species (resource partitioning).
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Symbiosis Parasitism –when 1 species (parasite)
feeds on part of another species (host) by living on or in it for a large portion of host's life.
Commensalism – benefits one species but doesn't harm or help the other
Mutualism – both species benefit
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Parasites: Sponging Off of Others Although parasites can harm their hosts,
they can promote community biodiversity. Some parasites live in host (micororganisms,
tapeworms). Some parasites live outside host (fleas, ticks,
mistletoe plants, sea lampreys). Some have little contact with host (dump-
nesting birds like cowbirds, some duck species)
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Mutualism: Win-Win Relationship
Two species can interact in ways that benefit both of them.
Figure 7-9Figure 7-9
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Fig. 7-9a, p. 154(a) Oxpeckers and black rhinoceros
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Commensalism: Using without Harming
Some species interact in a way that helps one species but has little or no effect on the other.
Figure 7-10Figure 7-10
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Limited Resources A population can grow until competition
for limited resources increases & the carrying capacity (C.C.) is reached.
Population Growth Cycle
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Typical Phases 1. The population overshoots the C.C. 2. This is because of a reproductive time
lag (the period required for the birth rate to fall & the death rate to rise).
3. The population has a dieback or crashes.
4. The carrying capacity is reached.
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Relationship to Human Population Growth
Infectious disease can control humans. Ex. the Bubonic plague.
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Habitat Needs Cover – shelter; trees, shrubs, etc. Water Nutrients
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Macronutrients Chemicals organisms need in large
numbers to live, grow, and reproduce.
Ex. carbon, oxygen, hydrogen, nitrogen, calcium, and iron.
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Micronutrients These are needed in small or even
trace amounts. Ex. sodium, zinc copper, chlorine, and
iodine.
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Carbon, Phosphorous, and Nitrogen Cycles
The cyclic movement of chemicals (see overhead).
Carbon cycle: pg 73-74 Phosphorous cycle: pg 76 Nitrogen cycle: pg 74-76 Sulfur cycle: pg 77-78
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Fig. 3-7, p. 55
Nitrogencycle
Biosphere
Heat in the environment
Heat Heat Heat
Phosphoruscycle
Carboncycle
Oxygencycle
Watercycle
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CARBON CYCLE
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Effects of Human Activities on Carbon Cycle
We alter the carbon cycle by adding excess CO2 to the atmosphere through: Burning fossil fuels. Clearing vegetation
faster than it is replaced.
Figure 3-28Figure 3-28
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Phosphorous Cycle
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Effects of Human Activities on the Phosphorous Cycle
We remove large amounts of phosphate from the earth to make fertilizer.
We reduce phosphorous in tropical soils by clearing forests.
We add excess phosphates to aquatic systems from runoff of animal wastes and fertilizers.
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Phosphorus Bacteria are not as important in the phosphorus cycle
as in the nitrogen cycle. Phosphorus is not usually found in the atmosphere or
in a gas state only as dust. The phosphorus cycle is slow and phosphorus is
usually found in rock formations and ocean sediments. Phosphorus is found in fertilizers because most soil is
deficient in it and plants need it. Phosphorus is usually insoluble in water and is not
found in most aquatic environments.
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Nitrogen Cycle
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Effects of Human Activities on the Nitrogen Cycle
We alter the nitrogen cycle by: Adding gases that contribute to acid rain. Adding nitrous oxide to the atmosphere through
farming practices which can warm the atmosphere and deplete ozone.
Contaminating ground water from nitrate ions in inorganic fertilizers.
Releasing nitrogen into the troposphere through deforestation.
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Effects of Human Activities on the Nitrogen Cycle
Human activities such as production of fertilizers now fix more nitrogen than all natural sources combined.
Figure 3-30Figure 3-30
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Nitrogen Fixation This is the first step of the nitrogen cycle
where specialized bacteria convert gaseous nitrogen to ammonia that can be used by plants. This is done by cyanobacteria or bacteria living in the nodules on the root of various plants.
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Nitrification Ammonia is converted to nitrite, then to
nitrate
Plant roots absorb ammonium ions and nitrate ions for use in making molecules such as DNA, amino acids and proteins.
Assimilation
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Ammonification After nitrogen has served its purpose in
living organisms, decomposing bacteria convert the nitrogen-rich compounds, wastes, and dead bodies into simpler compounds such as ammonia. Denitrification
•Nitrate ions and nitrite ions are converted into nitrous oxide gas and nitrogen gas.This happens when a soil nutrient is reduced and released into the atmosphere as a gas.
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The Sulfur Cycle
Figure 3-32Figure 3-32
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Effects of Human Activities on the Sulfur Cycle
We add sulfur dioxide to the atmosphere by: Burning coal and oil Refining sulfur containing petroleum. Convert sulfur-containing metallic ores into
free metals such as copper, lead, and zinc releasing sulfur dioxide into the environment.
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Definition The many forms of life found on the
Earth. “Wildness” Genetic Diversity – the variety of genetic
make-up w/in a single species Species Diversity – the variety of species in
different habitats on the Earth
Biodiversity
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Importance It gives us food, wood, energy,
free recycling, purification & natural pest control.
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Measurement Genetic tests, count/release, and
tagging.
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The Gaia Hypothesis: Is the Earth Alive?
Some have proposed that the earth’s various forms of life control or at least influence its chemical cycles and other earth-sustaining processes. The strong Gaia hypothesis: life controls the
earth’s life-sustaining processes. The weak Gaia hypothesis: life influences the
earth’s life-sustaining processes.
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Biomes The most important factors in a biome are
temperature and precipitation. Biomes tend to converge around latitude
lines on the globe.
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CLIMATE: A BRIEF INTRODUCTION
Weather is a local area’s short-term physical conditions such as temperature and precipitation.
Climate is a region’s average weather conditions over a long time. Latitude and elevation help determine climate.
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Earth’s Current Climate Zones
Figure 5-2Figure 5-2
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BIOMES: CLIMATE AND LIFE ON LAND
Different climates lead to different communities of organisms, especially vegetation. Biomes – large terrestrial regions characterized
by similar climate, soil, plants, and animals. Each biome contains many ecosystems whose
communities have adapted to differences in climate, soil, and other environmental factors.
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BIOMES: CLIMATE AND LIFE ON LAND
Figure 5-9Figure 5-9
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BIOMES: CLIMATE AND LIFE ON LAND
Biome type is determined by precipitation, temperature and soil type
Figure 5-10Figure 5-10
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Desert The evaporation is greater than the
precipitation (usually less than 25 cm). Covers 30% of the earth.
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DESERT BIOMES
Variations in annual temperature (red) and precipitation (blue) in tropical, temperate and cold deserts.
Figure 5-12Figure 5-12
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FOREST BIOMES
Forests have enough precipitation to support stands of trees and are found in tropical, temperate, and polar regions.
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FOREST BIOMES
Variations in annual temperature (red) and precipitation (blue) in tropical, temperate, and polar forests.
Figure 5-19Figure 5-19
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Taiga (evergreen coniferous forest) Just south of the tundra (northern part of N.
America), it covers 11% of earth’s land. Its winters are long, dry & cold. Some places have sunlight 6 to 8 hours a day. The summers are short and mild, w/ sunlight 19 hours a day.
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MOUNTAIN BIOMES (Taiga)
High-elevation islands of biodiversity
Often have snow-covered peaks that reflect solar radiation and gradually release water to lower-elevation streams and ecosystems.
Figure 5-25Figure 5-25
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Evergreen Coniferous Forests
Consist mostly of cone-bearing evergreen trees that keep their needles year-round to help the trees survive long and cold winters.
Figure 5-23Figure 5-23
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Tropical Rainforest Near the equator. It has warm
temperatures, high humidity & heavy rainfall.
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Tropical Rain Forest Tropical rain forests
have heavy rainfall and a rich diversity of species. Found near the
equator. Have year-round
uniformity warm temperatures and high humidity.
Figure 5-20Figure 5-20
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Tropical Rain Forest
Filling such niches enables species to avoid or minimize competition and coexist
Figure 5-21Figure 5-21
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Temperate Rain Forests
Coastal areas support huge cone-bearing evergreen trees such as redwoods and Douglas fir in a cool moist environment.
Figure 5-24Figure 5-24
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Temperate Deciduous Forest It has moderate temperatures, long, warm
summers, cold winters &lots of rain. Trees include oaks, hickory, maple, and beech.
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Temperate Deciduous Forest
Most of the trees survive winter by dropping their leaves, which decay and produce a nutrient-rich soil.
Figure 5-22Figure 5-22
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Grassland The rainfall is erratic & fires are
common. It has & shrubs that are good for grazing animals.
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GRASSLANDS AND CHAPARRAL BIOMES
Variations in annual temperature (red) and precipitation (blue).
Figure 5-14Figure 5-14
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Savanna The tropical & subtropical grassland.
It is warm all year long with alternating wet & dry seasons.
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Chaparral (temperate grassland) These are coastal areas. Winters are mild
& wet, w/ summers being long, hot, & dry.
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Chaparral
Chaparral has a moderate climate but its dense thickets of spiny shrubs are subject to periodic fires.
Figure 5-18Figure 5-18
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Temperate Grasslands
The cold winters and hot dry summers have deep and fertile soil that make them ideal for growing crops and grazing cattle.
Figure 5-15Figure 5-15
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Tundra (polar grasslands) Covers 10% of earth’s land. Most of the year,
these treeless plains are bitterly cold with ice & snow. It has a 6 to 8 week summer w/ sunlight nearly 24 hours a day.
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Polar Grasslands
Polar grasslands are covered with ice and snow except during a brief summer.
Figure 5-17Figure 5-17
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Definition The process where plants & animals of
a particular area are replaced by other more complex species over time.
Succession
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Primary vs. Secondary Primary begins with a lifeless area where there is
no soil (ex. bare rock). Soil formation begins with lichens or moss.
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Secondary begins in an area where the natural community has been disturbed, removed, or destroyed, but soil or bottom sediments remain.
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Pioneer Communities Lichens and moss.
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Climax Communities The area dominated by a few, long-
lived plant species.
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Stages Land – rock lichen small shrubs large
shrubs small trees large trees
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Water – bare bottom small/few underwater vegetation temporary pond and prairie forest and swamp
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Relation to Biomes and Biodiversity Ecosystems are constantly changing in
response to changing environmental conditions.
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HUMAN IMPACTS ON TERRESTRIAL BIOMES
Human activities have damaged or disturbed more than half of the world’s terrestrial ecosystems.
Humans have had a number of specific harmful effects on the world’s deserts, grasslands, forests, and mountains.
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Fig. 5-26, p. 123
Natural Capital Degradation
Desert
Large desert cities
Soil destruction by off-road vehicles
Soil salinization from irrigation
Depletion of groundwater
Land disturbance and pollution from mineral extraction
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Fig. 5-27, p. 123
Oil production and off-road vehicles in arctic tundra
Overgrazing by livestock
Release of CO2 to atmosphere from grassland burning
Conversion to cropland
Grasslands
Natural Capital Degradation
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Fig. 5-28, p. 124
Clearing for agriculture, livestock grazing, timber, and urban development
Conversion of diverse forests to tree plantations
Damage from off-road vehicles
Natural Capital Degradation
Forests
Pollution of forest streams
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Fig. 5-29, p. 124
Natural Capital Degradation
Mountains
Agriculture
Timber extraction
Mineral extraction
Hydroelectric dams and reservoirs
Increasing tourism
Urban air pollution
Increased ultraviolet radiationfrom ozone depletion
Soil damage from off-roadvehicles
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Development (habitat destruction) Humans
eliminate some wildlife habitats.
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TYPES OF SPECIES Native, nonnative, indicator, keystone, and
foundation species play different ecological roles in communities. Native: those that normally live and thrive in a
particular community. Nonnative species: those that migrate,
deliberately or accidentally introduced into a community.
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Importation of Species Ex. The Chinese chestnut had a fungus
that spread & virtually eliminated the American chestnut.
Kudzu
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Introduced (invasive) species They displace native species They lower biodiversity The can adapt very quickly to local habitats They contribute to habitat fragmentation They can reproduce very quickly
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Hunting Over-hunting/hunting of top predators
for big game.
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Pollution CFC’s, CO2, oil spills.
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Habitat Restoration Trying to rebuild what was ruined.
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Reclamation Returning vegetation to an area that has
been mined or disturbed by human use. This can be done by re-planting, cleaning
up pollution, regulations (laws) or any other activity designed to “fix” a destroyed area.
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Agriculture Cut/burn techniques & the loss of habitat.