Ecosystems Notes
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Transcript Ecosystems Notes
Ecosystems
Biological Life Science
What is an ecosystem?
System
= regularly interacting
and interdependent
components forming a unified
whole
Ecosystem = an ecological
system;
= a community and its physical
environment treated together as
a functional system
Ecosystem
Unit
of biosphere consisting of interacting
biotic and abiotic factors.
Biotic Factors: Living physical factors of an
environment.
Organisms,
parasites, predation, etc.
Abiotic Factors: Non-living physical factors
of an environment.
Air,
sunlight, water, pressure, etc.
Habitat:
The physical location in
which an organism lives.
Niche: The way of life of an
organism (species).
Includes: Habitat, feeding
habits, reproductive behavior,
etc.
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Parts of the Biosphere
1.
Species – a group of organisms that
can reproduce (Ex – humans).
2.
Population – The number of a species
in a given area (Ex – all the humans
living in Dresden).
3.
Community – All the species in a
given area (Ex – the humans, trees,
grasses, bacteria, squirrels, mice…..
Living in Dresden.)
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Parts of the Biosphere
4.
5.
Ecosystem – The community and all the
nonliving things in an area (Ex – all the
plants, animals, bacteria, fungi and
protists, plus the air, water, and climate
of Dresden).
Biosphere – The area on the Earth that
supports life (includes the bottom of the
oceans to the upper atmosphere).
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Parts of the Ecosystem
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Competition
Since resources will eventually run out,
organisms have to compete for it.
Can be between members of the same
species (Ex – Polar Bears have to compete for
fish to eat). Intraspecific competition
Can be between members of a different
species (Ex – a robin and a woodpecker
might compete over a tree to build a nest in.)
Interspecific competition
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Niche
Niche
– the role an organism plays in the
environment (Ex – The Great White Shark is
the top consumer in some marine
ecosystems.)
If two organisms occupy the same niche
they will compete for resources until one
species is forced out.
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Carrying Capacity
The
maximum number of individuals an
ecosystem can support is the carrying
capacity.
Once the carrying capacity is met,
limiting factors (such as space, food,
shelter) keeps the population size near this
carrying capacity.
Carrying Capacity
# Of Individuals
Time
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Predator – Prey Relationships
Predators Can Control the Prey Population
Predators help control the prey
population (Since there are few predators
of Deer left in New York State, their
population size is out of control).
If there are no natural predators the prey
become overpopulated.
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Predator – Prey Relationships
Prey Populations Can Control the Size of
Predator Populations
If there are few prey in an area, a small
number of predators can survive.
If there are many prey in an area, more
predators can survive.
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Predator-Prey Relationships
The Predators and Prey May Have No
Relationship
If the predators rely on many sources of
food, one disappearing may have little
effect (Ex – If cows go extinct we might
have to eat more chicken, but humans
would still survive.)
Predator-Prey Relationship
Example
Moose
Wolves
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Food Chains
Parts of the Food Chain
1.
2.
Producers – (Autotrophs) make their own food
from abiotic factors (Ex – Green plants make
glucose by photosynthesis.)
Herbivores – Consumers that eat only plants. (Ex
– rabbits eat crops and other plants)
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Food Chains
3.
4.
5.
Carnivores – Eat only other consumers
(Ex – lion).
Omnivores – Eat plants and animals (Ex
– Humans).
Detrivores – (Decomposers) Feed off of
and break down dead organisms.
These are usually bacteria and fungi.
Energy Pyramid
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Food Pyramid Relationships
Biomass Pyramid
Measures the amount of material at each
trophic level.
Like
the Energy Pyramid, the larges
biomass is at the base (producers) and it
decreases as you move up the pyramid.
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Biomass Pyramid
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Food Pyramid
Relationships
Pyramid of Population
Size
The
third pyramid shows the number of individuals
at each trophic level.
Life
the other two pyramids, the largest population
is at the base (producers) and decreases as you
move up the pyramid.
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Pyramid of Population Size
Summary of the Pyramid
Relationships
Energy Pyramid
Shows the relative amount of energy
available at each trophic level.
Organisms use about 10 percent of
this energy for
life processes. The rest is lost as heat.
Biomass Pyramid
Represents the amount of
living organic matter at each
trophic level. Typically, the
greatest biomass is at the
base of the pyramid.
Pyramid of Numbers
Shows the relative
number of individual
organisms at each
trophic level.
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Trophic Levels
A trophic level is the position occupied by an
organism in a food chain.
Trophic levels can be analyzed on an energy
pyramid.
Producers are found at the base of the
pyramid and compromise the first trophic
level.
Primary consumers make up the second
trophic level.
Secondary consumers make up the third
trophic level.
Finally tertiary consumers make up the top
trophic level.
Antarctic
Food
Web
Trophic Levels Found on an
Energy Pyramid
The
greatest amount of energy is found at
the base of the pyramid.
The least amount of energy is found at
top of the pyramid.
Trophic Structure Reminder
Eltonian
pyramids
Number of individuals per species
Is this pyramid stable?
Trophic Structure Reminder
What
if we transformed each species into
biomass instead of absolute numbers?
Biomass
Energy is sometimes considered in terms of
biomass, the mass of all the organisms and
organic material in an area.
There is more biomass at the trophic level of
producers and fewer at the trophic level of
tertiary consumers. (There are more plants on
Earth than there are animals.)
Bio=life
Mass=weight
Bio + Mass = Weight of living things within an
ecosystem.
Trophic Structure Reminder
•Express trophic structure as energy transfer
•Energy pyramids can never be inverted
•Is there room for anyone else
at the top of this food chain?
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Biological Magnification
If
a poison is introduced into an ecosystem, it will
affect each level of the food chain more
severely.
Each
level of the food chain will have more
individuals affected.
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Biological Magnification
Accidental Introductions
Zebra
Mussel – from Caspian Sea to Great Lakes
(1986) from a ship
Now
they are everywhere!!!
Problem: clogs water pipes, smothers native clams,
consumes plankton, no natural predators
Killer
Bees – genetically altered to make more
honey
Africanized
bees escaped and took over Brazilian
honeybees
Problems arose: they are more aggressive, can travel
longer distances, swarm, attack people
The real threat? Agriculture
More Invasive Species
Asian
Carp
Introduced in 1970s
No natural predators
Out compete native fish
and mollusks for food
Snakehead
Fish
Early 2000s
No natural predators
Eat mostly other fish
Can breathe air
4
days out of water
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Nutrient Recycling
Water Cycle - Earth’s water supply is
constantly recycled throughout the
biosphere:
Evaporation – water vapor leaves the
oceans and joins the atmosphere.
Transpiration – water vapor evaporates off of
plant leaves.
Condensation – water vapor in the
atmosphere forms clouds.
Precipitation – water vapor in the
atmosphere falls to the ground (rain.)
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Nutrient Recycling
CO2 and O2 Cycle
Photosynthesis and Cellular Respiration work
together to recycle carbon dioxide and oxygen
in the atmosphere.
Photosynthesis – in plants, uses up CO2 and
produces O2 as a waste.
Cellular Respiration – in consumers, uses O2 and
produces CO2 as a waste.
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Nutrient Recycling
Nitrogen Cycle
The Nitrogen in the atmosphere is made
usable for living things through Nitrogen
Fixation.
Plants use this nitrogen in the soil to make
protein. This is assimilation.
Once the plants and organisms that eat the
plants die, decomposers break down the
remains and return the nitrogen to the soil
and the atmosphere.
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Ecological Succession
As
organisms live in a given area, they
change their environment.
As
the environment changes, so do the
organisms that can live there.
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Ecological Succession
Primary
Succession – a pioneer organism first grows
on a bare rock surface (Ex – Hawaiian Islands)
Secondary
Succession – after a disaster (fire,
drought) succession begins again at an
intermediate stage (Ex – Pine Barrens of Long
Island).
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Human Effects on the
Environment
Negative Effects:
1.
Urbanization
2.
Industrialization
3.
Agriculture
4.
Exploitation of Wildlife
5.
Deforestation
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Greenhouse Effect
Carbon Dioxide and
other Greenhouse
gases trap the suns
energy in our
atmosphere to keep
the earth within a
range of suitable
temperatures for the
survival of the present
organisms
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Global Warming
By
burning fossil fuels (use of automobiles, electricity,
home heating) carbon dioxide is released as a waste
gas.
At the same time we are cutting down trees which
would have used up the Carbon Dioxide.
Global Warming
As a result, Carbon
Dioxide levels increase,
trapping MUCH MORE
heat from the sun and
gradually causing the
Earth to warm up.
Global Warming could
cause sea level to rise,
habitats to be destroyed,
draught, and mass
extinction.
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Acid Rain
Air
pollution in the atmosphere combines
with rain water, lowering the pH of the
rain.
The
resulting acid rain damages
freshwater ecosystems, and there is
evidence linking it to extinctions of many
amphibian species.
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Ozone Layer Depletion
The
ozone layer is part of the upper
atmosphere and blocks harmful rays of the
sun.
The release of CFC’s from aerosol cans and
other sources of air pollution interact with the
atmosphere and deplete the ozone layer.
If the ozone layer is destroyed, harmful rays
from the sun would cause catastrophic
mutations and would threaten all life on Earth.
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Positive Human Influences
Conservation
of Resources
Recycling
Pollution
Controls
Decreasing our dependence on fossil
fuels.