Pre-Visit
Activities : Decomposers are Recyclers
Third - Fifth Grade Online Curriculum : Communities
Third - Fifth Grade Online Curriculum : Communities
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Pre-Visit
Activities : Decomposers are Recyclers
Third - Fifth Grade Online Curriculum : Communities |
|
MAIN Focus
Question Activity
Synopsis Time
Frame Student
Key Terms
Teacher
Key Terms
Have you ever seen fuzzy or slimy stuff growing on food
that has been left in the refrigerator for too long? What
in the world is that stuff? What does it do?
Students will conduct an experiment on decomposition by
placing different types of food sprayed with water in glass
jars, sealing the jars and observing what happens to the food
over time.
Initial set-up of experiments will take students approximately
30-50 minutes. Students will need to record observations,
daily or every other day, for two weeks. Students will need
15-30 minutes to record observations.
OBJECTIVES
The learner will be able to:
STANDARDS
Grade Level |
Standards |
3rd Grade |
3-1.2, 3-1.3, 3-1.4, 3-1.7, 3-1.8, 3-2.4, 3-2.5 |
4th Grade |
4-1.3, 4-1.4, 4-1.7, 4-2.5, 4-2.6 |
5th Grade |
5-1.3, 5-1.6, 5-1.8, 5-2.4 |
| * Bold standards are the main standards addressed in this activity. | |
Third Grade Indicators
| 3-1.2 | Classify objects or events in sequential order. |
| 3-1.3 | Generate questions such as “what if?” or “how?” about objects, organisms, and events in the environment and use those questions to conduct a simple scientific investigation. |
| 3-1.4 | Predict the outcome of a simple investigation and compare the result with the prediction. |
| 3-1.7 | Explain why similar investigations might produce different results. |
| 3-1.8 | Use appropriate safety procedures when conducting investigations. |
| 3-2.4 | Explain how changes in the habitats of plants and animals affect their survival. |
| 3-2.5 | Summarize the organization of simple food chains (including the roles of producers, consumers, and decomposers). |
| 4-1.3 | Summarize the characteristics of a simple scientific investigation that represent a fair test (including a question that identifies the problem, a prediction that indicates a possible outcome, a process that tests one manipulated variable at a time, and results that are communicated and explained). |
| 4-1.4 | Distinguish among observations, predictions, and inferences |
| 4-1.7 | Use appropriate safety procedures when conducting investigations |
| 4-2.5 | Explain how an organism’s patterns of behavior are related to its environment (including the kinds and the number of other organisms present, the availability of food and other resources, and the physical characteristics of the environment). |
| 4-2.6 | Explain how organisms cause changes in their environment. |
Fifth Grade Indicators
| 5-1.3 | Plan and conduct controlled scientific investigations, manipulating one variable at a time. |
| 5-1.6 | Evaluate results of an investigation to formulate a valid conclusion based on evidence and communicate the findings of the evaluation in oral or written form. |
| 5-1.8 | Use appropriate safety procedures when conducting investigations. |
| 5-2.4 | Identify the roles of organisms as they interact and depend on one another through food chains and food webs in an ecosystem, considering producers and consumers (herbivores, carnivores, and omnivores), decomposers (microorganisms, termites, worms, and fungi), predators and prey, and parasites and hosts. |
BACKGROUND Key
Points Detailed Information Decomposers play a crucial
role in communities; they cause plant and animal matter that is no longer living
(i.e. leaves, carcasses, and feces) to decay or rot and thus return nutrients
to the soil. This process helps to recycle the nutrients that are available
within communities. Fungi and bacteria are the principal decomposers that keep
communities filled with nutrients that are essential for plant growth. Fungi
and bacteria decompose complex molecules like sugars and proteins (that are
trapped in falling leaves or in the bodies of dead organism) to nitrate, carbon
dioxide, and other simple inorganic compounds that plants can use and need.
Without decomposers, nitrogen, carbon and other elements would remain in
wastes and corpses and would not be available for other organisms. Without decomposers,
the land and the ocean would be filled with animal waste and corpses! Bacteria are the most effective
and numerous decomposers and are the first to start the process of decay. Fungi
soon join the bacteria, followed later in the cycle by organisms like centipedes,
beetles, millipedes, and earthworms. Many items in your refrigerator
or growing in your yard are potential food for decomposers. Organic materials
contain carbon and nitrogen- nutrients that provide energy and growth to microorganisms,
like bacteria. All organic materials have
a ratio of carbon to nitrogen (C:N) in their tissues. Leaves are high in carbon
while vegetable scraps are higher in nitrogen. The C:N ratios are significant
because tiny decomposers need about 30 parts of carbon for every 1 part of nitrogen
in the organic material. If the ratio is greater than 30:1, nitrogen will be
lacking, and materials will decompose more slowly. Anything organic will decay,
however it may take longer when the C:N ratio is too high. Note that foods with
synthetic preservatives or foods containing natural preservatives (like vinegar
or salt) will decay more slowly than foods that do not contain any type of preservative.
Inorganic materials, like plastics and other human made synthetic materials,
can take months to hundreds of years to decompose. Average Carbon to Nitrogen
Ratios for Organic Materials
The fuzzy stuff that grows
on foods that have been left in the refrigerator or out on the shelf for too
long is mold. Mold, mushrooms, truffles, yeast, and the blue streaks in blue
cheese are all types of fungus. The pharmaceutical industry grows fungi to
make antibiotics, chemicals that are produced by one organism that inhibits
the growth of or kills another organism. In 1928, Alexander Fleming was studying
bacteria and accidentally contaminated one of his bacterial cultures with
a strain of the Penicillum fungus. He observed that the fungus killed
his bacteria. We now know that many fungi secrete antibiotics as weapons against
bacteria that may be competing with the fungus for food or attacking the fungus.
Ten years later, Howard Florey purified penicillin and began marketing it
as an antibiotic to treat bacterial infections in people. Unlike green plants, fungi
do not grow from seeds they grow from spores. Also unlike plants, fungi have
no chlorophyll and cannot make their own food by harvesting energy from the
sun. Fungi feed by producing chemicals that make things, like food, rot. As
the food rots, the fungus grows. Remember that mold is a type of fungus and
there are many different types of mold. The mold that grows on bread initially
looks like white, fuzzy cotton, but after a week will turn black. The black
color is due to the presence of hundreds of tiny spores. Believe it or not, the
air is so loaded with spores from fungi that as soon as an animal dies or
a leaf falls, it is covered with spores from fungi. Spores can be carried
by wind or water, but need to land in a moist place to germinate (to begin
to grow). Therefore, the best way to protect materials from mold is to keep
them as dry as possible. Some fungi can be detrimental to humans. The British,
during the Revolutionary War, lost more ships to wood rot caused by fungus
than they did to enemy attack. In the humid environment of South Carolina,
wooden homes are attacked by mold. Ringworm and Athlete's foot are examples
of diseases that fungi cause in humans. South Carolina Aquarium
Spotlight Organisms Fungi are not as hard
to see. Anyone who has seen a mushroom or seen mold on bread has seen a fungus.
Like bacteria, most fungi are decomposers. Fungi have the potential to be
just about anywhere, because they reproduce by spores. Spores are microscopic
and easily dispersed by wind or water. When a spore lands on a moist organic
surface, it will begin to germinate and then will develop into an adult mushroom
or mold, feeding as it grows. In the South Carolina Aquarium, fungi will likely
grow in exhibits that contain soil, that are moist, and that contain dead
material, like leaves. Look for fungi in the mountain forest aviary and the
blackwater swamp exhibit.
This section will give you the main information you should know to teach
the activity.
This section gives more in-depth background to increase your own knowledge,
in case you want to expand upon the activity or you are asked detailed questions
by students.
Vegetable
scraps
12-20:1
Coffee
grounds
20:1
Grass
12-25:1
Leaves
30-80:1
Bark
100-130:1
Paper
150-200:1
From Clemson Extension's Recycling Yard Trimming: Home Composting. Information
Leaflet 48. Revised April 1996.
Bacteria
& Fungi
Decomposers can be found not only in each and every exhibit within the Aquarium,
but just about everywhere, though you would need a microscope to be able to
see most of them. One type of decomposer, bacteria, is living all around us.
Anton van Leeuwenhook, the inventor of the microscope, said, "There
are more [things] living in the scum in a man's mouth than there are men in
a whole kingdom." Though too small to be seen, bacteria are abundant
across the earth. Though some bacteria are photosynthetic or cause diseases,
many are decomposers helping to break down dead plant and animal matter.
PROCEDURES Materials
Procedure
Experiment variations
For advanced
students or students in the fifth grade, investigate how water impacts the experiment
detailed above. Spray food items with water and seal in jars and compare to
food items that are not sprayed with water and sealed in jars. If you were an Athlete's
foot fungus fearing athlete, would you rather run regular marathons
during the summer in the Sonoran Desert or in the Congaree Swamp? Follow-up questions
For advanced students or
students in the fifth grade, investigate how temperature impacts the experiment
detailed above. Place the four jars in full sunlight, and four jars in the refrigerator.
Record observations over time and compare results. If you were a fungus fearing
scientist, would you want to study animals in the tropics or at the North Pole?
ASSESSMENT Assessment:
A Language Link If they were a plant that
needed to grow quickly, in which garden area would they choose to live in and
why? Scoring Rubric (Out of
3 Points) Cross-Curricular Extensions
Students are
asked to write a story from a plants point of view. Each student is a plant
that is looking for a place to settle down and grow quickly. There are two different
gardens available in which they can choose to grow, however the dirt in each
garden is the same and does not contain many nutrients that they can use. Everything
about each garden is exactly the same, except what has been spread on top of
the soil. They can choose to live in one of the following moist gardens:
Social Studies Extension
Students should research different methods that have been used over time
to prevent food spoilage. The student's research can have a broad focus or a
narrow focus on an industry or a country. Examples of different methods that
student groups can research include: refrigeration and freezing, salting, smoking,
bottling, canning, vacuum packing, and the use of preservatives. The results
of each student's research can be written in a report or illustrated on poster
board.
RESOURCES Teacher Reference Books Larson, Gary, There's A Hair In My Dirt!, Harper Perennial, New York,
1998. McLaughlin, Molly, Earthworms, Dirt, and Rotten Leaves, Macmillian Publishing
Co., New York, 1986. Teacher Reference Website Student Reference Books
Glaser, Linda, Compost,
Millbrook Press, Connecticut, 1996 Handelsman, Judith F., Gardens
From Garbage ,Millbrook Press, Connecticut, 1993 Pascoe, Elaine, Slime
Molds and Fungi, Blackbirch Press, Connecticut, 1999 Ring, Elizabeth, What
Rot! Nature's Mighty Recycler, Millbrook Press, Connecticut, 1996 Silverstein, Dr. Alvin,
Virginia, and Robert, Fungi, Twenty-First Century Books, New York, 1996 Curricula For more information click
on: Project WILD For more information click
on: Field Trip Sites If you are aware of other
books, videos, websites, curricula, fieldtrip destinations or other materials
that would make excellent resources for this activity, please e-mail them to
us for inclusion in this list at: Education@scaquarium.org
Appelhof, Mary, Worms Eat My Garbage, Flower Press, 1982.
Provides information on setting up and maintaining worm composting systems.
This book provides a hilarious look at a maiden's view of the surrounding forest
and the recycler's role in the habitat through the eyes of Father Worm. The
book is not suitable for children but an excellent resource for teachers.
Examines the earthworm and its environment, also includes experiments.
Cornell Composting
www.cfe.cornell.edu/compost/Composting_homepage.html
Site provides information
on composting for teachers and students.
Bailey, Donna, Recycling Garbage, F. Watts, New York, 1991
Discusses how waste materials are recycled and ways children can act more responsibly
toward the environment.
The book describes, from a child's perspective, what composting is, what it
does, and how to go about it.
Instructions are provided for growing indoor gardens using kitchen scraps.
Experiments are used to explore and explain characteristics of different types
of fungi.
This book provides details on how rot and all the tiny organisms that cause
it maintain the cycle of life.
Fungi varieties, characteristics, and role in the ecosystem are introduced.
Aquatic Project WILD
Aquatic Project WILD is an interdisciplinary curriculum for K-12 teachers
on aquatic wildlife and ecosystems. The activities cover a broad range of environmental
and conservation topics. For information on signing up for workshops, call the
South Carolina Department of Natural Resources at (803) 734-3814.
www.dnr.state.sc.us/cec/educate/edu1.html#teacher
Project WILD is an interdisciplinary curriculum for K-12 teachers on a broad
range of environmental and conservation topics. For information on signing up
for workshops, call the South Carolina Department of Natural Resources at (803)
734-3814.
www.dnr.state.sc.us/cec/educate/edu1.html#teacher
Decomposers
Decomposers play a vital role in any wildlife community by breaking down
dead organisms and waste material and by returning nutrients to the soil. The
blackwater swamp is one of the best habitats to visit where the effects of decomposition
are visible. The reddish black coloration of the water in a blackwater swamp
is caused by the decomposition of leaves in the water. As the leaves decompose,
they release tannins, which stain the water black. Below are listed sites where
blackwater swamps and rivers are easily accessible for school groups.
Located near Harleyville, Francis Biedler Forest is the last remaining stand
of virgin bald cypress trees and tupelo gum in the world. It gives students
the opportunity to see a pristine blackwater swamp habitat. The forest is
open to the public Tuesday through Sunday and offers interpretive environmental
education programs. For more information call (843) 462-2150 or click on www.pride-net.com/swamp/.
Cypress Gardens is a preserved blackwater swamp habitat located between Goose
Creek and Moncks Corner. Trails, boats, a butterfly garden and freshwater
aquariums can all be found here. The garden is opened seven days a week and
offers environmental education programs for school groups. For more information
call (843) 553-0515.
This preserve, located between Conway and Florence, protects 9000 acres of
forestland, blackwater river and oxbow lakes. Though the preserve does not
offer any education programs, it is open to school groups seven days a week.
For more information call (803) 734-3893.