Transcript chapt 15

Chapter 15
Lecture Outline
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What is ecology?
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Ecology is the branch of biology that studies
the relationship between organisms and their
environments.
The environment is anything that affects an
organism during its lifetime.
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Includes living and nonliving components
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Biotic and Abiotic Environmental
Factors
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Biotic factors are other living things that
affect an organism.
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Abiotic factors are physical things that affect
an organism.
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Other members of that individual’s population
Pathogens
Food
The atmosphere
Sunlight
Temperature
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Biotic and Abiotic Environmental
Factors
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The Impact of Environment:
Examples
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Fish in a stream
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Plants
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Temperature of the water (abiotic) is affected by the
presence of trees (biotic factor).
The amount of food in the stream (biotic)
The composition of the stream bed affects how fast the
stream flows and the oxygen content of the water (abiotic).
Minerals in the soil (abiotic)
The amount of sunlight or rainfall hitting the plant (abiotic)
Predators and pathogens (biotic)
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Levels of Organization in
Ecology
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Ecologists study organismal interactions at
different levels.
Ecologists study
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How individual organisms interact with their
environment
How populations of the same species change
over time
How different species in a community interact
How all of the abiotic and biotic components in
one geographical area interact as an ecosystem
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Levels of Organization in
Ecology
15-7
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Trophic Levels and Food Chains
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Organisms fit into different categories based
on how they satisfy their energy requirements.
The flow of energy through living things on
earth begins with the sun.
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Energy flows through organisms as they use the energy
from the sun and as they eat each other.
Each stage of energy flow is called a trophic level.
The sequence of organisms eating each other is called
a food chain.
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Trophic Levels in a Food Chain
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The Food Chain
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First trophic level
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Producers use the energy from the sun to make their own
food.
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Plants and certain bacteria perform photosynthesis.
Second trophic level
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Consumers obtain energy by eating organic matter.
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Primary consumers eat the producers directly.
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Third trophic level
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Secondary consumers eat primary consumers.
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Primary carnivores eat primary consumers.
Fourth trophic level
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Herbivores eat plants.
Secondary carnivores eat primary carnivores.
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Other Components of the Food
Chain
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Omnivores
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Decomposers
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Eat both plants and animals
Are classified into trophic levels depending on what they are
eating
Humans are omnivores.
Obtain their energy by breaking down the organic matter of
dead organisms
Convert nonliving organic matter into simple inorganic
molecules that can be re-used by producers
Bacteria, fungi and other microorganisms
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A Summary of Trophic Levels
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Energy Flow through Ecosystems
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The relationship between each trophic
system can be represented by a pyramid.
The different levels in the pyramid can
represent different things.
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The amount of energy available at each level
The quantity of organisms in each level
The mass of organic matter in each level
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Energy and Trophic Levels
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The Pyramid of Energy
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To understand how energy flows through trophic levels,
we must remember the laws of thermodynamics.
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Energy is neither created nor destroyed.
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When energy is converted from one form to another, some
of it escapes to the surroundings as heat.
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Energy flows through trophic levels.
As energy flows through each successive trophic level, some
will be lost as heat.
Therefore, the energy in the higher trophic levels is less than
the initial energy obtained by primary producers.
90% of the energy in a trophic level is lost as it is transferred to
the next trophic level.
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Energy Losses in an Herbivore
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Energy Flow Through an Ecosystem
15-17
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The Pyramid of Numbers
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The energy at each trophic level is difficult to
define.
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Ecologists will simply count the number of
organisms classified in each trophic level.
When these numbers are generated, a pyramid
relationship emerges.
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There are more primary producers than there are
consumers.
There are fewer secondary consumers than primary
consumers.
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Pyramid of Numbers
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The Pyramid of Biomass
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Counting the number of organisms may be
deceiving because large consumers weigh
more than plants.
Measuring the mass of organic matter at
each trophic level is more informative.
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Mass is the collective weight of all of the
individuals in a given trophic level.
The pyramid of biomass shows the 90% loss
at each level.
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The Pyramid of Biomass
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The Cycling of Materials in
Ecosystems—Biogeochemical Cycles
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The amount of matter making up the earth is
relatively constant, even though organisms
are constantly using it.
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All of the building blocks of organic matter
are recycled.
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Occurs because much of the matter used by
organisms is recycled
Carbon, nitrogen, hydrogen, oxygen and
phosphorus
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The Carbon Cycle
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Inorganic carbon in the atmosphere is captured and
converted to organic carbon molecules used by
organisms. The carbon is then released back to the
abiotic environment.
The role of producers: Carbon dioxide gas in the
atmosphere provides the carbon with which plants
build organic molecules.
The role of consumers: Animals eat the organic
molecules and release carbon dioxide back into the
atmosphere.
The role of decomposers: Carbon left in organisms
after they die is released by decomposers.
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The Carbon Cycle
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The Hydrologic Cycle
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Hydrogen is recycled as water.
The water cycle also recycles oxygen.
Heat causes water in oceans, lakes, rivers and soil
to evaporate into the atmosphere.
Plants absorb water from the soil and release it into
the atmosphere via transpiration.
Water vapor in the atmosphere condenses into rain
or snow.
The rain or snow hits the land, some gets absorbed
into the soil, and the rest runs off into oceans, lakes,
streams, etc.
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The Hydrologic Cycle
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The Nitrogen Cycle
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Nitrogen is necessary to build proteins and
nucleic acids.
Nitrogen gas cannot be utilized by most
organisms; it must be converted to nitrates or
ammonia.
Role of nitrogen fixing bacteria: Nitrogen gas
is incorporated into ammonia.
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Nitrogen-fixing bacteria live in soil and attached to
the roots of some plants.
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The Nitrogen Cycle
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Role of producers and consumers: Plants use the ammonia
released by these bacteria to make organic molecules.
Animals get their nitrogen from plants.
– Animals release their excess nitrogen as ammonia or urea.
Role of decomposers and other soil bacteria:
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Decomposers break down nitrogen-containing organic molecules
to ammonia.
Nitrifying bacteria convert ammonia to nitrite, which is converted
by other bacteria to nitrate, which can be used by plants.
Denitrifying bacteria convert nitrites back into nitrogen gas and
release it into the atmosphere.
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The Nitrogen Cycle
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The Phosphorus Cycle
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Phosphorus is necessary for nucleic acids,
bones, teeth, etc.
Phosphorus is stored in rocks.
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Erosion releases phosphorus into water.
Plants get phosphorus from the water.
Animal get phosphorus from plants.
Decomposers release phosphorus from dead
organisms back into the soil.
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The Phosphorus Cycle
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Unique Features of the
Nitrogen Cycle
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Most of the difficult chemical conversions are
made by bacteria and other microorganisms
There are two “loops” in the cycle
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The first takes nitrogen gas from the atmosphere
by nitrogen-fixing bacteria and then back to the
atmosphere by denitrifying bacteria
The second uses decomposers to recycle
nitrogen compounds directly back to producers
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Agriculture and the Nitrogen
Cycle
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In naturally occurring soil, nitrogen is often a
limiting factor.
To increase yields, farmers:
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Add inorganic fertilizers may contain nitrate, ammonia or
both
Alternate nitrogen producing crops (soybeans) with nitrogen
demanding crops (corn)
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Soybean roots have nitrogen-fixing bacteria symbionts.
Grow a nitrogen producing crop and plow it under to allow
decomposers to release the ammonia.
Spread manure and allow decomposers to release
ammonia for plant use.
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Human Use of Ecosystems
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The extent to which humans use an
ecosystem is tied to its productivity.
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Productivity is the rate at which an ecosystem can
accumulate new organic matter.
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Plants are important to productivity.
– Ecosystems with high productivity are warm and
moist with nutrient-rich soil.
 Rainforests, forests, grasslands
 Marshes and estuaries
– Ecosystems with low productivity
 Deserts, arctic areas, open ocean
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Converting Ecosystems
to Human Use
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In the ancient past, humans were simply another
consumer.
In the recent past, the development of agriculture
changed how humans affected ecosystems.
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Humans manipulate certain ecosystems to increase
productivity.
 These manipulations can be destructive and negatively
affect other organisms in the ecosystem.
– The great plains, agriculture and the loss of buffalo
– Converting grasslands to grazing lands displaces
native species.
– Over-fishing aquatic ecosystems creates ecological
imbalance.
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The Energy Pyramid and Human
Nutrition
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Human demand for food is so large that humans
must occupy several trophic levels to meet the need.
Eating at the third trophic level (eating meat) results
in a 99% loss of energy.
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Eating at the second trophic level (eating plants)
allows for a more efficient transfer of energy.
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Cows have to eat a lot of grain, then we only get a portion of
the energy in the cow meat.
Eating plants means more food for more people.
However, plants, particularly grains, do not provide
complete nutrition for under-nourished people.
 Protein is difficult to obtain from grains alone.
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Human Pyramids of Biomass
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