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 Experiment
7: Grade Level: 7th through 12th
BUILD
YOUR OWN WATERSHED
Background
The land we live on is divided into watersheds. A watershed is
a land area whose runoff drains into any river, stream, lake,
or ocean. Small watersheds, such as the watershed for the creek
behind your house, or the watershed for the pond down the road,
drain into small bodies of water, and cover small land areas.
The runoff from small watersheds join together, and their combined
areas become a new, larger watershed. Large watersheds, such as
the Mississippi Basin and the Chesapeake Bay watershed, drain
into large bodies of water, and cover immense land areas. Despite
their differences in sizes, all watersheds share common properties.
They all perform the same function of transporting water over
the Earth’s surface. The watersheds encompass suburban lawns,
parking lots and city streets. Water seeps down through the soil
to aquifers, which are underground rivers that slowly move water
below watersheds to outlet points at springs, rivers, lakes, and
oceans. Many human activities have an effect on watersheds. Construction
projects like dams can limit the flow of water; construction of
roads and buildings can divert and even increase the flow of water.
Agricultural fertilizers can run off of crop fields and inadvertently
fertilize harmful microorganisms in rivers and lakes, having an
adverse effect on water quality and marine life. The irresponsible
disposal of household and industrial chemicals can be harmful
because these chemicals travel through the watershed, poisoning
life and damaging natural ecosystems. Watersheds can also have
an effect on humans. Many communities use rivers and streams as
their source of drinking water. Water treatment prepares this
water for human consumption, but if the water is laden with chemicals
and microorganisms, it can be difficult to treat effectively.
Floods are one of the major events in a watershed. Homes built
on flood plains, low lying areas adjacent to rivers, are susceptible
to flooding conditions when heavy precipitation exceeds the watershed’s
capacity to absorb water. Rivers, streams, and lakes overflow,
threaten human lives, and damage or destroy roads, building, and
flood control measures. Watersheds can also become dry, causing
water shortages for those who depend on their lakes and rivers
for drinking water. It is clear that humans have a close relationship
with watersheds. The responsible planning of watershed use and
development is important to ensure the ecosystems sustained by
the watersheds are not destroyed and to protect the health and
safety of our communities.
Note
Prior to the demonstration, the teacher should engage the students
in activities involving identification of a local watershed. Maps
can be used to facilitate this activity, and a field trip to a
local river or pond can serve to demonstrate the concept of a
watershed. Ask students to identify where the water is coming
from. How far does the watershed extend? For a small stream, the
answer may be several hundred feet; but for a lake or river, the
watershed may be much larger.
Objective
This experiment illustrates the basic properties of a watershed:
how water flows from higher elevations to lover elevations, and
how watersheds are interconnected. The students will understand
how the placement of buildings, roads, and parking lots can be
important to watershed runoff, and how careless use and disposal
of harmful contaminants can have a serious effect on downstream
watershed denizens.
Materials
- 1 large
Tupperware container (about 1.5'W x 3'L x 1'H)
- 2 lbs.
of modeling clay
- 3 lbs.
of sand (any type)
- 2 lbs.
of aquarium gravel
- 1 roll
of wax paper (or tin foil, plastic wrap, etc. --water repellent
surface)
- 1/4 cup
of cocoa mix, iced tea mix, or other flavored drink mix (to
represent chemicals)
- 1 spray
bottle or bucket full of water
Procedure
(Note: Prepare
steps 1 to 4 before students are present.)
1. Wash
the aquarium gravel carefully to remove any powder residue that
may add cloudiness to the water. Fill the container to about
2 inches from the bottom with the gravel. Slope the gravel slightly
so that at one end (downslope), the gravel is only about 1⁄2
inch deep and at the other end (upslope), the gravel is about
3 inches deep. This gravel layer will represent the aquifer.
2. Mix the
clay and the sand. The consistency of this mix should be gritty,
with slightly more clay than sand. This mixture should allow
water to run freely over it, but if left standing, the water
should slowly permeate the surface. Add this mixture to the
container carefully, so as not to disturb the slope of the aquifer
already placed. The slopes should be similar, with about 2 inches
of sand/clay mix overlying the gravel already placed, and on
the downhill end there should be about 3" of gravel left
exposed.
3. Carve
a channel in the middle of the clay/sand layer, about 1⁄2
inch deep and about 1 inch wide. This channel will represent
the main river of the watershed. Near the top of the slope,
split the channel into two or three separate channels to represent
tributaries. You may wish to add other tributaries along the
main branch of the “river” to further illustrate
other watersheds.
4. With
some extra clay/sand mix, build little hills between the tributaries.
These hills separate the smaller watersheds, but when looked
at as a whole the entire “river” system is one watershed.
You may also wish to add some small model trees or green felt
to represent forests or fields. Buildings can be represented
with small blocks of wood.
5. Along
the main river, flatten out an area that is about 8 inches by
3 inches. Cut out a piece of wax paper to be about 4 inches
by 3 inches in size. Stick this down onto the clay/sand mix,
sloping it slightly towards the river. If necessary, use some
clay to hold the edges down. Explain to students that this wax
paper represents the impervious surface of a parking lot.
6. Fill
the bottom of the aquarium up to about 2 inches from the bottom
with water. The water should fill all of the aquarium gravel
“aquifer” area, and should just reach up to the
lowest extent of the clay/sand mixture. Explain to students
that the aquifer captures and transports water that seeps down
through the soil.
7. Using
the spray bottle, simulate rain over the flattened soil area
and the parking lot. Ask the students to note that the “rain”
soaks through the soil, but runs off the parking lot to the
river. Ask them what the effect would be if the entire watershed
was “paved”.
8. Sprinkle
some cocoa mix over the sides of one of the smaller watersheds.
Tell the students that the cocoa represents pollution. Over
one of the unpolluted “watersheds,” cause some rain
with the spray bottle (*it may be necessary to cause more rain
by pouring water). Note that the runoff from the rain is clean.
Now, make it rain over the polluted area. Ask the students to
note how the pollution travels down through the watershed, contaminating
all downstream areas. Discuss with the students why the pollution
is a problem, and what can be done to fix the problem.
Follow-Up
Questions
1. What are
some possible sources of watershed pollution in your community?
2. What other
impervious surfaces besides parking lots can cause excessive
runoff in a watershed?
3. What can
be done to reduce our impact on watersheds and their environment?
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