Transcript Station 15

Reporting Category 5
Interdependence Within
Environmental Systems
Station 15
Ecological Succession
Essential Question – Bell Ringer
• How do the processes and events that occur
within an ecosystem affect the species and
populations of organisms that live in that
ecosystem?
The processes and events that occur within an
ecosystem change the conditions found in the
ecosystem. For example, as soil develops in a
primary succession stage, the conditions
become more favorable for a different species to
migrate in and inhabit the ecosystem. The new
species would not have been able to exist in the
ecosystem before the pioneer species that first
inhabited the ecosystem set the stage for new
species’ survival.
Pre-Review Question
True/False
An Ecological Succession is the natural the
process by which ecosystems change and
develop over time.
TRUE
Pre-Review Question
What are the stages that occur in an
ecological succession?
Primary
Secondary (Young then Old)
Climax
Pre-Review Question
Determine if the following organisms are
likely to be among the first to inhabit an
ecosystem after a volcanic eruption?
A. Moss and Lichen? Yes
B. Heterotrophs? No
C. Carnivores? No
D. Autotrophs? Yes
Lab Activities
• You will now go to the lab and complete
the activities for today’s topics.
Place each card in
the appropriate
position on the
Ecological
Succession Model
sheet.
Read each card and
make sure you know
which autotrophs and
which heterotrophs
exist in each
succession. Continue
until all cards are
placed on the model.
Copy the chart in
your journal.
Discuss with your partner:
Why are there no heterotrophs in the
primary succession stage?
There are no heterotrophs inhabiting
the ecosystem in the primary
succession stage because the
autotrophs are not able to support
them until the end of the primary
succession stage, when the soil
conditions are better suited to support
a more diverse species of plants.
Discuss with your partner:
How do the processes and events that occur during
the primary succession stage result in the
appearance of more diverse populations of
autotrophs in the first stage of secondary
succession?
In the primary succession stage, the process of
chemical weathering and the event of lichen
growth cause rocks to break down, forming soil.
As some of the lichens die, they add organic
material to the broken down rock. This early
stage of soil can now support other autotrophs
that in turn attract the kinds of heterotrophs that
feed on them. This adds to the diversity of the
ecosystem.
Discuss with your partner:
What effect does a more diverse population of
autotrophs in both stages of secondary succession
have on the appearance of heterotrophs?
A more diverse population of autotrophs
increases the diversity of heterotrophs that
depend on the diversity of autotrophs
present in the ecosystem.
Discuss with your partner:
What conditions exist in a climax community
that support the statement “a climax
community is in a steady state of ecological
equilibrium”?
A climax community is one that is mature, selfsustaining, and stable. The biotic and abiotic
conditions are altered and stabilized to such
levels that they support the entire community.
This will continue until an outside disturbance
occurs, shifting the community from the climax
stage.
Discuss with your partner:
What effects would the natural disturbances you
chose have on the diversity of organisms in the
ecosystem if it were in the young stage of secondary
succession?
Answers will vary.
For example, a volcanic eruption would destroy
all living organisms and the soil, reverting the
ecosystem back to the primary succession
stage. However, if the disaster is the result of a
flood, the soil may not be completely removed
and the ecosystem would not regress to the
primary succession stage.
Discuss with your partner:
What are some kinds of disturbances or disasters
that are caused by humans?
Select one and discuss the effects it could have on
the diversity of the species in the ecosystem affected
by this event.
Answers will vary.
Key points to consider:
• Is the disturbance indeed caused by human
actions such as over-grazing of animals, nuclear
disaster, deforestation, or growth of human
populations?
• Did the student clearly consider the effects on
the ecosystem in terms of both the biotic and
abiotic factors?
I need to remember………
• Species living in an ecosystem gradually change over time, as do the
physical and chemical environments within that ecosystem.
• Succession takes place because organisms interact with one another
in an ecosystem.
• Left undisturbed, succession follows predictable stages: primary,
secondary, and climax communities.
• Autotrophs are the first pioneer species to inhabit an ecosystem in the
primary stage; they create conditions that may be favorable to other
autotrophs.
• Heterotrophs follow autotrophs in the stages of succession—first
herbivore heterotrophs and then carnivores and omnivores.
• An ecosystem reaches stability when it becomes a climax community.
In this stage it is stable, mature, self-sustaining, and has reached an
ecological equilibrium.
Post Review Question
At which point in an ecological
succession would the following occur?
Seeds brought by wind and other animals
have a place to grow. Secondary
No heterotrophic organisms inhabit the
ecosystem.
Primary
Large trees become the dominant plant
species.
Climax
Post-Review Question
Why are there not carnivores in an
ecosystem going through a primary
succession?
Because there is nothing for them to eat
Post-Review Question
Which two words could describe the
migration of species into a new habitat.
A. Exitation
B. Colonization
C. Emigration
D. Immigration
Post-Review Question
Look at the natural disasters or human
disruptions below and determine to which
stage they would send and ecosystem…
Flood - Secondary
Fire - Secondary
Volcanic Erupuption - Primary
Deforestation - Secondary
Pollution - Secondary
Hurricane - Secondary