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Chapter 3
Ecosystem Ecology

Friedland and Relyea Environmental Science for AP®, second edition
© 2015 W.H. Freeman and Company/BFW

AP® is a trademark registered and/or owned by the College Board®, which was not involved in the production of, and does not endorse, this product.
 Easter Island
Please share your synopsis and personal comments
on what happened on Easter Island.

“The disaster happened not with a bang but with a whimper.”
 Levels of Organization

Put the following terms in order from
simplest to most complex:

Biosphere – earth (6)
Individual(1)
Biome(5)
Community(2)
Population(3)
Ecosystem (4)
 Module 6
The Movement of Energy

After reading this module you should be able to

explain the concept of ecosystem boundaries.

describe the processes of photosynthesis and respiration.

distinguish among the trophic levels that exist in food
chains and food webs.

quantify ecosystem productivity.

explain energy transfer efficiency and trophic pyramids.
Ecosystem boundaries are not clearly defined

An ecosystem …is a particular location on earth with
interacting biotic(everything that is living) and
abiotic(non-living) components

Some ecosystems, such as a caves and lakes, have very
_distinctive boundaries_. However, in most ecosystems it
is difficult to determine where one ecosystems stops and
the next begins.

Even though it is helpful to distinguish between two
_different, ecosystems _interact_ with other ecosystems.

Biosphere The region …of our planet where life resides
the combination of all ecosystems on earth.
 Ecosystem
Boundaries

Large and small ecosystems. (a) The Greater Yellowstone Ecosystem includes the
land within Yellowstone National Park and many adjacent properties. (b) Some
ecosystems are very small, such as a rain-filled tree hole that houses a diversity of
microbes and aquatic insects.
 Can you read this sentence?
glucose formula
 Photosynthesis captures energy and
respiration releases energy
Producer an organism that uses the energy of the sun to produce
usable forms of energy Also known as Autotroph (only ones
who can produce their own food through photosynthesis).
Photosynthesis The process by which producers use solar
energy to convert carbon dioxide and water into glucose.

Cellular respiration The process by which cells unlock the
energy of chemical compounds ( breathing)

➔ Aerobic(using oxyg) respiration The process by which cells
convert glucose and oxygen into energy,carbon dioxide and water
➔ Anaerobic(wo oxyg)respiration The process by which cells
convert glucose energy in the absence of oxygen.
 Photosynthesis
and Respiration

Photosynthesis and
respiration. Photosynthesis is
the process by which producers
use solar energy to convert
carbon dioxide and water into
glucose and oxygen. Respiration
is the process by which
organisms convert glucose and
oxygen into water and carbon
dioxide, releasing the energy
needed to live, grow, and
reproduce. All organisms,
including producers, perform
_Respiration_.
Who
remembers the
names used in
ecology to
describe these
organisms and
their
interactions
when it comes
to energy
transfer? food
web- 2 or more
food chains
 Energy captured by producers moves
through many trophic levels

Consumer An organism that is incapable of photosynthesis and
must obtain its energy by consuming other organisms Also known
as Heterotroph.( cant produce its own food)
Herbivore A consumer that eats producers.Also known as
Primary consumer.
Carnivore A consumer that eats other consumers
Secondary consumer A carnivore that eats primary consumers
Tertiary consumer A carnivore that eats secondary consumers
Trophic levels The successive levels of organisms consuming
each other (Who eats who?)
Food chain The sequence of consumption from producers
through tertiary consumers
 Trophic Levels

Simple food chains. A simple food chain that links producers and consumers in a linear
fashion illustrates how energy and matter move through the trophic levels of an ecosystem.
(a) An example of a terrestrial food chain. (b) An example of an aquatic food chain.
 Trophic levels

Food web A complex model of how energy and matter
move between trophic levels
Scavenger An organism that consumes dead animals

Detritivore An organism that specializes in breaking
down dead tissues and waste products into smaller
particles.

Decomposers Fungi and bacteria that convert organic
matter into small _elements and molecules_that can be
recycled back into the ecosystem.
Trophic levels
Trophic Levels
A simplified food web. Food
webs are more realistic
representations of trophic
relationships than simple food
chains. They include
scavengers, detritivores, and
decomposers, and they
recognize that some species
feed at multiple trophic levels.
Arrows indicate the direction of
energy movement. This is a real
but somewhat simplified food
web; in an actual ecosystem,
many more organisms are
present. In addition, there are
many more energy movements.
Some ecosystems are more
productive than others

Gross primary productivity (GPP) The total
amount of solar energy that producers in an
ecosystem capture via photosynthesis over a
given amount of time. (1% of solar
energy)(how much energy the entire sun gives
to life on earth)

Net primary productivity (NPP) The energy
captured by producers in an ecosystem minus
the energy producers respire (What’s left for
the rest of the food web)(whats left over )
Ecosystem
Productivity

Gross and net primary
productivity. Producers
typically capture only
about 1 percent of
available solar energy
via photosynthesis. This
is known as gross
primary productivity, or
GPP. About 60 percent
of GPP is typically used
for respiration. The
remaining 40 percent of
GPP is used for the
growth and reproduction
of the producers. This is
known as net primary
productivity, or NPP.
The efficiency of energy transfer
affects the energy present in each
trophic level
Biomass The total mass of all living matter in a
specific area

Standing crop The amount of biomass present in an
ecosystem at a particular time

Ecological efficiency The proportion of consumed
energy that can be passed from one trophic level to
another

Trophic pyramid A representation of the distribution
of biomass ,numbers, or energy among trophic levels.
 Ecosystem
Efficiency

What’s a
Joule?
Remember
a joule is
the SI unit
of work or
energy.

Trophic pyramid for the Serengeti ecosystem. The amount of energy that is present at
each trophic level is shown in joules (J). The pyramid assumes 10 percent ecological
efficiency, but efficiencies can range from 5 to 20 percent across different ecosystems. For
most ecosystems, graphing the numbers of individuals or biomass within each trophic level
would produce a similar pyramid.
 Module 7
The Movement of Matter

After reading this module you should be able to

describe how water cycles within ecosystems.

explain how carbon cycles within ecosystems.

describe how nitrogen cycles within ecosystems.

explain how phosphorus cycles within ecosystems.

discuss the movement of calcium, magnesium,
potassium, and sulfur within ecosystems.
 The hydrologic cycle moves water
through the biosphere

Biogeochemical cycle The
movements of matter within and
between ecosystems
Hydrologic cycle The
movement of water through the
system
The
Hydrologic
Cycle
The
hydrologic
cycle. Water
moves from
the
atmosphere to
Earth’s
surface and
back to the
atmosphere.
know evaporation
precipitation and
infiltration
 The Hydrologic Cycle

Transpiration The release of
water from leaves during
photosynthesis

Evapotranspiration The
combined amount of
evaporation and transpiration

Runoff Water that moves
across the land and into
streams
The carbon cycle moves between air,
water, and land

Carbon cycle The movement of carbon around
the biosphere
 The Carbon
Cycle
The carbon cycle.
Producers take up carbon
from the atmosphere via
photosynthesis and pass it on
to _consumers_ and
_decomposers_. Some
inorganic carbon sediments
out of the water to form
sedimentary rock while some
organic carbon may be
buried and become fossil
fuels. Respiration by
organisms _returns_ carbon
to the atmosphere and water.
_combustion_ of fossil fuels
and other organic matter
returns carbon to the
atmosphere.
 The nitrogen cycle includes many
chemical transformations
Macronutrient One of six
elements that organisms need in
relatively large amounts: nitrogen,
phosphorus, potassium,
calcium, magnesium, and sulfur.

Limiting nutrient A nutrient
required for the growth of an
organism but available in a lower
quantity than other nutrients

Nitrogen cycle The movement of
nitrogen around the
biosphere(earth)
The Nitrogen Cycle
Nitrogen fixation A process by which some
organisms can convert nitrogen gas molecules
directly into ammonia( decomposers do this)

Nitrification The conversion of ammonia
(NH4+) into nitrite (NO2– ) and then into nitrate
(NO3– ).

Assimilation The process by which producers
incorporate elements into their tissues(plants
take in nitrogen and assimilate ( fit in) with the
environment)
The Nitrogen Cycle
Mineralization The process by which fungal and bacterial
decomposers break down the organic matter found in dead
bodies and waste products and convert it into inorganic
compound.

Ammonification The process by which fungal and bacterial
decomposers break down the organic nitrogen found in dead
bodies and waste products and convert it into inorganic
ammonium

Denitrification The conversion of of nitrate(No3-) in a series
of steps into the gases nitrous oxide(N2o) and eventually
nitrogen gas which is emitted into the atmosphere

Leaching The transportation of dissolved molecules through
the soil via groundwater
The Nitrogen
Cycle
The nitrogen
cycle. The nitrogen
cycle moves
nitrogen from the
atmosphere and
into soils through
several fixation
pathways, including
the production of
fertilizers by
humans. In the soil,
nitrogen can exist in
several forms.
Denitrifying bacteria
release nitrogen
gas back into the
atmosphere.
 The phosphorus cycle moves between
land and water
Phosphorus cycle The
movement of phosphorus
around the
biosphere(phosphorus is very
imp to humans bcz they add it
to fertilizer to help the plants
grow faster) (

Algal bloom A rapid
increase in the algal population
of a waterway because of
phosphorus( rapid increase in
algae)

Hypoxic(suffocating)
low levels in oxygen
The Phosphorus
Cycle
The phosphorus cycle.
The phosphorus cycle
begins with the
_weathering_ or _mining_ of
phosphate rocks and use of
phosphate fertilizer, which
releases phosphorus into
the soil
and water. This phosphorus
can be used by _producers_
and subsequently moves
through the food web. In
water, phosphorus can
precipitate out of solution
and form sediments, which
over time are transformed
into new phosphate rocks.
Calcium, magnesium, potassium, and
sulfur also cycle in ecosystems

Sulfur cycle The movement of sulfur around
the biosphere
you find sulfur in
underground in sediments
in factories
fumes of volcanos
The Sulfur Cycle
The sulfur cycle. Most
sulfur exists as _____. As
these rocks are weathered
over time, they release
sulfate ions (SO42− ) that
______ can take up and
assimilate. This assimilated
sulfur then passes through
the food web. ______, the
burning of fossil fuels, and
the mining of copper put
sulfur dioxide (SO2) into the
atmosphere. In the
atmosphere, sulfur dioxide
combines with water to form
sulfuric acid (H2SO4). This
sulfuric acid is carried back
to Earth when it rains or
snows.