|
| Overview |
| Grade Level: 9-12 |
| Background Information:
One of the basic concepts students learn in Ecology or Environmental
Science is succession, which is the regular pattern of changes in
the types of species in a community. While people tend to think
of forests as static, they are constantly changing over time. These
changes follow generally predictable patterns. Scientists study
these patterns to learn how the forest grows and to understand more
about how human interference is changing ecosystems. Because resources
in an ecosystem are limited, organisms are constantly engaged in
a battle to win the resources that they need for growth. Different
organisms have adopted different techniques to take advantage of
resources. Since the forest is constantly growing and changing,
tactics that provided an advantage at one point may not be as advantageous
later. For instance, some species of trees grow quickly with lots
of sunlight. Once they have grown however, their own shade makes
it difficult for their own offspring to survive. Other trees are
better adapted to growing seedlings in shady conditions and eventually
grow to crowd out the first group of trees. With an understanding
of the usual pattern of succession in an area, foresters can determine
how mature a forest is and they can predict what it will look like
in the future.
Initial colonization of disturbed areas is also of interest to
scientists. Particular plant species, known as opportunistic species,
come first and pave the way for other plants. Primary Succession
is the initial colonization of land that has never been colonized
before. This might include areas after a volcanic eruption or after
a glacier recedes. Secondary Succession is recolonization of areas
after a disturbance such as a fire or when a large tree falls. Given
the increasing disturbance of ecosystems by human activity, the
concept of succession has dramatic implications for the future of
the earth as we wait to see how it will recover.
In this activity, students will have an opportunity to experience
video footage that will take them to several different North American
Forests while learning about the concepts associated with succession
in both natural and disturbed environments.
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| Content Standards |
| Related National Standards
This lesson addresses the following National Content Standards
found at: http://books.nap.edu/html/nses
Content Standard C: As a result of their activities in grades
9-12, all students should develop an understanding of:
- The Interdependence of Organisms
- Organisms both cooperate and compete
in ecosystems. The interrelationships and interdependencies
of these organisms may generate ecosystems that are
stable for hundreds or thousands of years.
- Living organisms have the capacity to
produce populations of infinite size, but environments and
resources are finite. This fundamental tension has profound
effects on the interactions between organisms.
- Matter, Energy, and Organization
in Living Systems
- The distribution and abundance of
organisms and populations in ecosystems are limited
by the availability of matter and energy and the ability
of the ecosystem to recycle material.
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| Extension Web Sites
from PBS: |
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Scientific
Frontiers - Nordic Sagas: Island Life
The birth of a volcano provides virgin land to be colonized. Learn
how organisms convert hostile ground into fertile land for an ecosystem
to grow.
Journey
to Amazonia - Levels of Life in the Rainforest
Learn more about the structure of the forest and how different organisms
have evolved to take advantage of resources in different ways.
Newton's
Apple - Balloon Safari
Adopt a plot of land to learn the complex interrelationships of
the organisms that use it.
Scientific
American Frontiers - Galapagos: Backyard Science
Learn techniques that help students and scientists learn more about
ecosystems.
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| Activity 1: Whose Woods are
These? |
| Time Allotted:
30 Miinutes
Materials:
Images of forest plants and animals with safety pins or yarn so
that they can be worn on the students back. Choose organisms from
several different types of forests, for instance a Northwest Old
Growth forest might include: Douglas fir, ferns, spotted owl, deer,
grizzly bears, and banana slugs. Other forests to consider might
include Eastern hardwood forests, a mangrove swamp, the Everglades
or other ecosystems from your area. If you choose organisms from
several different forest ecosystems, place all the organisms from
one ecosystem on cards of a particular color. For instance, organisms
from a Northwest Old Growth forest might be pasted onto a red background,
those from a mangrove swamp on a blue background.
| Objectives: |
- Students will become familiar with forest organisms.
- Students will learn features of some of the different
types of forest.
- Students will begin to learn to classify organisms based
on the type of forest they come from.
- Students will understand that certain species are connected
with other, particular species within their own ecosystem.
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| Teaching Instructions: |
- Place a picture of a forest organism on the back of each
student without them seeing their organism.
- Instruct students that they will play a version of 20
questions, asking only 'yes' or 'no' questions to try to
identify the organism on their back. They may only ask one
question of any individual at a time (this will keep them
moving around the room).
- Give them five minutes to work their way around the room,
asking questions as they go. Under no circumstances should
they look at their card.
- Once the five minutes are up, ask for volunteers to guess
what their organism is and then they can get their card
to see if they are correct. Give hints to students who still
aren't sure.
- Once everyone knows who is on their card, ask them if
they can think of any way to classify the organisms. They
may group them into plants and animals, or evergreens, deciduous
trees, animals, and bugs. Whatever is proposed, discuss
the classification and have the class work out where everyone
fits in.
- Then, have students get together with other kids who have
the same color card. Ask them to figure out what those organisms
have in common.
- Discuss the concept of ecosystems and interdependency
in ecosystems. You might ask students to trace the flow
of nutrients and energy through their group of organisms.
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Watch the AFG Video Segment:
 |
Kentucky's Blanton Forest - Part 1
Blanton
Forest, the largest old-growth forest in Kentucky, provides
a glimpse into a forest ecosystem that has remained untouched
by humans. |
| Discussion Questions for Video Segment |
- What is an old growth forest?
- What is diversity? Why is there so much diversity in an
old growth forest?
- He said that he looked for an 'uneven canopy' when trying
to locate old growth forests. Why do you think that would
be a clue?
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Watch the AFG Video Segments:
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Northwest
Temperate Rain Forests - Part 1
Temperate
rain forests are characterized by high annual rainfall and relatively
mild winters, creating an environment with a rich diversity
of species. |
|
Northwest
Temperate Rain Forests - Part 2
The
diversity of the plants and animals in a temperate rain forest
changes dramatically from the forest floor to the forest canopy. |
| |
| Discussion Questions for Video
Segment: |
- In what ways was the Temperate Rainforest similar to Kentucky's
Blanton Forest?
- In what ways were the two forests different?
- What are examples of limiting factors in forests?
- Why is water not a limiting factor in the rainforest?
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| Additional
Video Segments:
Alternatively, choose additional
segments from the AFG video selection on forests for a virtual
tour of a forest in your neck of the woods.
|
- Bulls Island, South Carolina - Maritime Forest
- Denali National Park - Tiga Forest and Moist Tundra
- Acadia National Park - Forest and Pond
- Mingo Wildlife Reguge - Oak Hickory Forest
- Washington's Hoh Rain Forest - Sitka Spruce Forest
- Hawaii Volcanoes National Park - Tropical Rain forest
- Adirondack Mountains - Forest
- Redwood National Park - Forest
- Siskiyou National Forest - River
- Cape Cod National Seashore - Beech Forest
- Glacier National Park - Forest
- White Mountain, New Hampshire - Forest
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|
| Activity 2: Which Came First? |
| Time Allotted:
30 minutes
Materials:
Access to the AFG video clips and projection capability
| Objectives: |
- Students will learn the concepts of primary and secondary
succession
- Students will illustrate an example of primary succession
after a volcanic eruption.
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| Teaching Instructions: |
- Introduce students to the concepts of primary and secondary
succession in ecosystems. Primary succession is succession
that occurs in areas where no ecosystem or biological activity
has existed previously (eg. After a volcanic eruption, in
paved areas). Secondary succession is a pattern of change
in areas where biological activity or an ecosystem has previously
existed (e.g. after a fire, landslide, logging).
|
Watch the AFG Video Segments:
|
Kentucky's
Blanton Forest - Part 2
Blanton
Forest, the largest old-growth forest in Kentucky, provides
a glimpse into a forest ecosystem that has remained untouched
by humans. |
|
Note: Clip starts at "Hey what's this formation all
about?" Stop after hearing "pretty neat huh, very".
|
| |
- Discuss the following questions:
- How does nature make opportunities for secondary succession
in these woods?
- What would happen here if no trees ever fell down
and left features like this?
- Instruct students to take notes about succession during
the next video. The topic comes up repeatedly but not in
order and not necessarily clearly, so students will have
to listen carefully to catch all references.
|
Watch the AFG Video Segments:
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Crater Lake National Park - Pine Forests
The
area leading up to the Crater Lake rim is characterized by ponderosa
pine forests and volcanic pumice fields. |
| |
- Have students work with a partner or in a group of three
to pool their notes and to make a diagram of succession
after a volcanic eruption. They should try to include as
many steps as they can, using examples from the video (access
to computers so that students can replay the video might
help them to search for things they missed).
- Discuss the following quesitons
- Is this an example of primary succession or secondary
succession? Why?
- Why do you think a pumice desert is called a desert?
- What organisms come first after a volcanic eruption?
Then what happens?
- How might a volcanic eruption be good for an ecosystem?
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|
| Activity 3: Succession
Field Trip |
| Time Allotted:
45 minutes or more (depending on set-up)
Materials:
Paper and pencil
Tape
Cameras (optional, see teaching instructions)
| Objectives: |
- Students will observe examples of primary and secondary
succession areas around their community.
- Students will classify development of ecosystems as primary
or secondary.
- Students will project the future of succession in an area.
- Students will examine the impact of human involvement
on succession.
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|
Teaching Instructions:
Once students are familiar with concepts related to succession,
have them look for examples in your area. This activity can
be conducted by taking students outside to parking lots and
school grounds, or by taking a field trip to a nearby park
or forest. It can be done in class, or as homework. It can
constitute a quick observational trip, or it can become a
major project, depending on the needs of your class. Here
are several suggestions for set-ups:
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- Take a walk around campus, around the block, or to a local
park. Ask students to find examples of primary and secondary
succession (e.g. grass growing through cracks in asphalt,
a grassy lot). Students can create a map to show where different
types of succession occur on their walk. See discussion
questions below.
- Ask students to observe an example each of primary and
secondary succession for homework. They should make observations
in a notebook and bring in to share.
- Assign a project. Students can make a portfolio illustrating
different stages of succession in your area. They might
take photos or make sketches of examples they see and then
organize these into a series showing earliest succession
to more mature examples.
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| Discussion Questions: |
- How is primary succession different from secondary succession?
- What impact do humans have on succession?
- Is a planted garden an example?
- Did you see, or have you ever seen, examples of succession
on houses or other buildings?
- Imagine a lawn on campus or in someone's yard. Are there
any examples of succession there now? If no one maintained
it for five years, what might it look like? What would it
look like after 10 years? 50? 100?
- What might happen in New York City (or L.A., or a city
near you) if people didn't keep it clean?
- In National Forests, government policy has been to suppress
forest fires whenever possible for the last century. Now
some regions are starting to allow fires to burn. Based
on what you know about succession, what impact do you think
this might have in the area? (Note, see the AFG activity
on Forest Fires for more information).
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