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LAB Growing Grass in Acid Rain
Science 6
Pollution
Background Information
• Acid rain is rarely acidic enough to kill trees and other plant life directly.
• The effect of the acid rain is to weaken the plant making it more vulnerable to insects, diseases, and storm damage.
Acid Rain’s Effect on Trees
Why is Acid Rain Harmful?• Acidic water dissolves the nutrients and helpful
minerals in the soil and then washes them away before trees and other plants can use them to grow.
(phosphorus, potassium, calcium and magnesium)
Why is Acid Rain Harmful?• At the same time, acid rain causes the release
of substances that are toxic to trees and plants, such as aluminum (<5.5) and other metals, into the soil.
(zinc, manganese, copper and iron)
Effect of Acid Rain
Origin of Acid Rain• Sulfur dioxide (SO2) and nitrogen oxides (NOx) are the primary
causes of acid rain.
• SO2 in US– 2/3 comes from electric power plants burning fossil fuels like coal.
• Nitrogen oxides – 1/2 come from cars and trucks burning gasoline. – ¼ electric power plants burning fossil fuels like coal.
Acid rain occurs when these gases react in the atmosphere with water, oxygen, and other chemicals to form various acidic materials. The result is a mild solution of sulfuric acid and nitric acid rain or snow.
Information
• A natural chemical reaction with carbon dioxide in the air turns neutral water slightly acidic.
• Rain water can have a pH of 5.6.
Fresh Water Habitats
• The pH of most lakes and ponds is between 6 and 8. In fresh water, crustaceans, mollusks, and snails begin to die when the pH drops to slightly under 6.0.
Fresh Water Habitats• The young of most species are more sensitive than adults. • Frogs may tolerate relatively high levels of acidity, but if they eat
insects like the mayfly, they may be affected because part of their food supply may disappear.
• Some acid lakes have no fish. At pH 5, most fish eggs cannot hatch. At lower pH levels, some adult fish die.
• Toxic substances like aluminum that wash into the water from the soil may also kill fish.
Level of Plant Tolerance
Video
• EPA video: Effects of Acid Rain
• http://www.epa.gov/acidrain/education/site_students/acid_anim.html
pH of Tested Water Samples(Information)
• Most plants do best in slightly acidic soils between 6.0 and 7.0.
Type of Water pH Level
Tap Water
½ & ½ Water
Acid Water
Vinegar
LAB: Growing a Grass Garden Jobs
• Rotate jobs in your group:– Materials – Encourager– Recorder– Timekeeper– Reader
Problem• How will water of 3 different pH levels
affect the growth of grass?
• What qualities of the grass should we look for when we observe the grass?– height– color– volume– sturdiness– soil– roots
Information
• What do you already know about grass?
• What did you just learn about the effect on plants of water with an acidic pH level?
Hypothesis
• Which of the three gardens do you think will grow the best? Explain why.
• Which of the three gardens do you believe will have the worst growth? Explain why.
• If….then….because….. .
Hypothesis(Educated Guess)
• If the water used on the grass garden has a pH < 5.5, then the grass will not be as tall, green, as many blades or as sturdy because…
__________________________________
I believe the grass garden watered with the ______ water will grow the best because…
I believe the grass garden watered with the ____ water will grow the worst because…
LAB #10 Procedure• M 1 : Fill fluted container with ½ of bag of
soil. (about 2 cups)
• E: Sprinkle the packet of seeds on top of the soil.
• T: Cover seeds with 1 cm (3/8 in) soil.
• Rc: Write period, name, and type of water on masking tape to label. Adhere to front of container.
• Rd: Read the steps IN ORDER for your team to follow.
Procedure
• M : Get 100 ml of the correct type of water you need for your team’s grass garden:– Tap water– ½ and ½ water-– Acid water
• T Carefully pour the100 ml water on your grass garden. Try to spread it out evenly.
Clean-Up
• T - wipe off table, trash and recycle
• Rc – grass gardens to teacher when requested
• M - return bins to LAB table
• E – Return goggles
Follow Up
• On Monday (10/6), Wednesday (10/8), Friday (10/10), and Monday (10/13), we will observe and measure any growth that has occurred. Students will write careful observations on their LAB sheet.
• Then you will water the gardens.
DATA: Period 1Height
Grass Garden
Day 4
10/6
Day 6
10/8
Day 8
10/10
Day 11
10/13
Tap Water
Roots
1 cm 2cm
3 cm
3 cm
R – 2cm
7cm
8 cm
3 cm
10 cm
11 cm
R 3 cm
½ and ½ Water
Roots
.25 cm 1.5cm
2.5 cm
2.5 cm
R – 1.5 cm
5 cm
R – 2 cm
5.5 cm
R – 3.5 cm
8 cm
R – 2.5 cm
8.5 cm
R – 6 cm
Acid
Water
Roots
.5 cm
1 cm
1.5 cm
R – 2 cm
1.5 cm
R – 2 cm
3.5 cm
R –
3.5 cm
R – 3 cm
7 cm
R 4.5 cm
5 cm
R - 4.5 cm
DATA: Period 2Height
Grass Garden
Day 4
10/6
Day 6
10/8
Day 8
10/10
Day 11
10/13
Tap Water
2 mm
R- .5cm
R – 1.5cm
3 cm
10 cm
2.5 cm
R – 3.5 cm
7.5 cm
R – 13 cm
7 cm
R – 10 cm
12.5 cm
R – 17 cm
14cm
R – 7 cm
½ and ½ Water
R- 2cm
R- 1 cm
2.5 cm
R – 6 cm
1.5 cm
3.5 cm
6 cm
R – cm
5 cm
R – 2 cm
8.5 cm
R – 12 cm
5 cm
R – 8 cm
Acid
Water
4 mm
R- 5mm
R - .75 cm
1.5 cm
R – 3.5
1 cm
R – 2 cm
2.5cm
R – 5.5 cm
2.5 cm
R – 2 cm
4.5 cm
R – 2.5 cm
6.5 cm
R – 5 cm
Data: Period 5Height
Grass Garden
Day 4
10/6
Day 6
10/8
Day 8
10/10
Day 11
10/13
Tap Water
pH 6.5
R- 1.5 mm
2 mm
R - 1 cm
3.5 cm
5.5 cm
R- 6 cm
8 cm
R – 7cm
11cm
R – 7 cm
17 cm
R - 10 cm
19 cm
R – 9 cm
½ and ½ Water
pH 5
5 mm
R - 1 cm
R – 6 mm
3.5 cm
R – 4 cm
2.4 cm
R - 4 cm
8cm
R – 4 cm
9.2cm
R – 4.5 cm
13 cm
R – 13.5 cm
13 cm
R –cm
Acid
Water
pH 4
R – 1 cm
R - 5 mm
1.5 cm
R- 2.5 cm
2 cm
R – 6 cm
7cm
R – 8 cm
5 cm
R - 8.5 cm
7 cm
R – 9 cm
11 cm
R – 10.5 cm
DATA: Period 7Height
Grass Garden
Day 4
10/6
Day 6
10/8
Day 8
10/10
Day 11
10/13
Tap Water
pH 6.5
R – 1 cm
1 mm
R -
2.5 cm
3 cm
R – 3 cm
8cm
R – 10 cm
6 cm
R – 9 cm
13 cm
R – 14 cm
12 cm
R – 15 cm
½ and ½ Water
pH 5
R - .5 cm
R – 4mm
2.75 cm
R – 5 cm
3 cm
R – 4.5 cm
5.5 cm
R – 5 cm
6 cm
R – 5 cm
10 cm
R – 8 cm
10 cm
R – 7 cm
Acid
Water
pH 4
R – 1 cm
R – 1 cm
2.5 cm
R – 2 cm
2.5 cm
R – 5 cm
4.5 cm
R – 6 cm
4.5 cm
R – 5.5 cm
9 cm
R - 14 cm
7.5 cm
R – 8 cm
Clean - up
• E: wipe out bin
• R: wipe off table
• T: carry garden to windowsill
• M 2: return beaker and masking tape to bin
• M 1: return bin to table
Written ObservationType of Water _____________
Day 4• color No grass
• volume Seeds scattered over the surface
• sturdiness Straight
• soil dry, cracked surfaced, minute white crusty objects spread on top of soil
• roots 5 roots visible only through the bottom, white, fuzzy root hairs attached to the roots
Day 6• color
• volume
• sturdiness
• soil
• roots
Written ObservationType of Water _____________
Day 4• color
• volume
• sturdiness
• soil
• roots
Day 6• color
• volume
• sturdiness
• soil
• roots
Written ObservationType of Water _____________
Day 4• color
• volume
• sturdiness
• soil
• roots
Day 6• color
• volume
• sturdiness
• soil
• roots
Written ObservationType of Water _____________
Day 8• color
• volume
• sturdiness
• soil
• roots
Day 11• color
• volume
• sturdiness
• soil
• roots
Written ObservationType of Water _____________
Day 8• color
• volume
• sturdiness
• soil
• roots
Day 11• color
• volume
• sturdiness
• soil
• roots
Written ObservationType of Water _____________
Day 8• color
• volume
• sturdiness
• soil
• roots
Day 11• color
• volume
• sturdiness
• soil
• roots
Grass Garden Conclusion
• #1
• Do you accept or reject your hypothesis?
• WHY?
• I accept (or reject) my hypothesis because
Grass Garden Conclusion
• #2
• Do you see a difference between the gardens that are watered with different pH water?
• What do you see?
• What relationship is there between the pH of water and the growth of the grass?
Conclusion
• Do you have any questions? What makes you curious?
• Were there any errors? Explain
Restate the problem
Answer the problem by accepting or rejecting
the hypothesis
Cite examples from the data to support the
acceptance or rejection of your hypothesis
Explain how the examples support your answer
Raise insight / how is this
important? REMEMBER: - Answer ALL PARTS of the question - A paragraph is 6-8 sentences
RACER