The Secret to Transplanting Lilies
Gardening is a popular pastime that requires an understanding of plants and soil to produce beautiful gardens. The gardener in this Science Friday video took great care when transplanting her lilies by making sure the roots were not exposed to the air for a long period of time. She also mixed potting soil with compost to ensure the bulbs received the nutrients they would need for growth.
Quart-sized clear round plastic food containers (you can use old take-out soup containers) – two for each student
Nylon stocking, cut to fit diameter of the clear plastic food container – one for each student
Small plants, one for each student. Plants should be small enough to fit into the size of the food container.
Spoons – one for each student
Horticulture: the science of cultivating plants.
Terrarium: an enclosed container to grow plants.
Compost: a mixture of decayed plants and other organic matter used for enriching soil.
Perlite: a grayish or white volcanic mineral used in horticulture for promoting aeration and retaining moisture.
Biosphere: the part of the Earth and its atmosphere in which living organisms exist.
Begin the lesson by having the students watch the Science Friday video, “The Secret of Transplanting Lilies.” Begin a discussion with the students on the steps gardener Tracey Hohman took when transplanting her hot pink lilies. Tell the students that even if they don’t have a backyard, they can create a small indoor garden by building their own terrarium.
Activity One: Soil Study
1. Have students create a chart with two columns labeled “Materials” and “Observations,” respectively. In the Materials column, have students list the following: compost, horticultural charcoal, pebbles, potting soil, peat moss, perlite, sand, and nylon stocking.
2. Have students use the magnifying lens to observe the different materials, and then record their descriptions and/or sketches of each one in the Observations column on the chart. Some characteristics to observe and record are size, color, smell and texture.
3. Tell students that these are the materials needed to make a terrarium. Review the definition of a terrarium and have students suggest how to use these materials in a terrarium.
4. Have students draw a diagram that illustrates what they think is the best way to layer these materials in their terrarium. Have students compare and contrast their diagrams, and explain their choices of layering materials.
Activity Two: Building Biospheres
1. Into a clear plastic container, ask students to add three teaspoons of pebbles followed by three teaspoons of horticulture charcoal. Place a piece of nylon stocking over these two layers. Why do the students think that these specific materials were placed at the bottom of the biosphere?
2. Have students examine the remaining materials. Should they also be separated into layers to build the rest of the terrarium? Tell students that the remaining materials work best when they are mixed together to create a nutrient rich soil.
3. In a separate container, have students mix the following ingredients to make their soil mixture:
- 4 teaspoons potting soil
- 2 teaspoons perlite
- 2 teaspoons peat moss
- 1 teaspoon sand
- 2 teaspoons compost
4. After the soil mixture is completely mixed, have students gently pour it on top of the pebble/stocking layer. Have students use their thumb to make a depression in the soil mixture large enough for each small plant to fit into, but not so large that the depression is deeper than the stocking.
5. Have students add two teaspoons of water to each depression. Why is water being added to the soil mixture before planting?
6. Hand out plants to students and have them place each plant in a depression, making sure to cover the roots completely. Add four to five teaspoons of water. Why is it necessary to add more water? Check to make sure that the soil appears moist. If the soil appears dry, add one teaspoon at a time until soil becomes moist.
7. Rinse the empty clear plastic food container, and place it over the container with the plant so that the two openings are facing each other. Using tape, seal the two containers together. Why is the container being sealed?
8. Review the diagrams that the students created earlier. Were any of the student’s suggestions for layering the terrarium different? Could any of the models that differ still serve well as a terrarium?
9. Review with students the best way to maintain their terrarium. What would the plant need to survive? Have students observe their terrarium for the next few days. What are the different natural processes that are occurring within the terrarium? Have students keep a journal recording the appearance of the terrarium (water condensation, plant growth, etc.) over time.
The Earth’s biosphere includes a number of vital non-living, or inorganic, components such as sunlight, air, water, and soil that make it possible for life to survive. A terrarium illustrates how living organisms such as plants can survive in a closed environment, provided that these vital non-living components are included.
• Why did the soil mixture require different amounts of compost, potting soil, peat moss, perlite and sand instead of the same amount of everything?
• Will the soil mixture used in this lesson promote growth in other types of plants? Would a cactus survive in this terrarium?
• Why are water droplets forming on the sides of the terrarium?
Have students make daily observations of terrarium growth in their science notebooks. The data can be graphed and compared to other terrariums.