Tag: plant science for children (Page 4 of 5)

Plant Science: Seed Dispersal

The majority of plants can’t move from where they are planted once they start growing, yet we see plants almost everywhere. How do they get there?

Plant-Science-Lessons

Many plants travel as seeds, which have many different ways to spread and scatter. Some seeds are carried by animals, some float on the wind, others float on water, some simply roll down hill due to gravity, and still others have ways to shoot out of their seed pods. The ways that seeds move from place to place is called “seed dispersal.”

See for example, these spectacular examples of seed dispersal in this video from the Smithsonian Channel.

 

Activity 1. Investigate seed structure and movement through observation.

Take a look at some of seeds and guess how they might be transported from place to place.

mystery-seed-221How about these tickseed sunflower seeds? How do you think they are dispersed?

chinese-elm-seeds

How do the Chinese elm seeds (samara) look? How do you think they move around?

acacia-salicina-seedWillow acacia seeds have red or orange structures attached to  them. Any idea how those might help the seeds move around?

mystery-seed18-2Do you have any idea how these filaree seeds move about?

shagbark hickory nutsHow about these hickory nuts?

For the answers, see the bottom of this post.

Go outside and look for seeds, particularly in the fall. Observe them and try to figure out how their structure helps them get from place to place. Look at them through a hand lens. Toss them in the air. Blow on them. Put the seeds in a puddle. See if they will stick to your sleeve. Think about where you see seeds and how they got there.

Once you have made your observations, research what others have found out about how those particular seeds disperse. If little is known, design and conduct your own experiments.

Activity 2. Floating Seeds

Seeds – like the sea bean – can float from place to place. They don’t have to be in a big body of water like the ocean, either. A small trickle created by a downpour of rain may be enough to float seeds away.

Gather:

  • Large bowl, sink, tub or aquarium to fill with water
  • Seeds or fruits to test for ability to float:   coconuts, cranberries, a pinto bean or other dried bean, etc.

Predict what will happen to each item and then test each item. Let the seeds or fruit float as long as possible to show that they might reach land without sinking. You might want to cut open a cranberry to show the seeds inside.  (Remember that cranberries are harvested by floating them in ponds). Is a cranberry that has been cut open still able to float?

cranberries-2

More advanced activity:

Scientists in Hawaii needed to know how plants arrived on the islands in order to protect native species and prevent introductions of invasive species. A scientist named Henry Guppy placed different seeds in jars of seawater for several months to see how long they could float.

Design your own experiment to test which seeds float in your area and investigate how they do it.

Have you ever gone to the beach or the shore of a lake? Look for seeds on the shore that were carried there by water.

Wayne’s World has an extensive discussion of the botany of drift seeds and drift fruit (those that float).

Activity 3. Flying Seeds

Most of us have seen seeds flying in the air at one time or another. Dandelions, milkweeds, maple keys and cottonwoods are just a few examples of trees with seeds that ride the wind.

Dandelion and oleander seeds fly with structures that are like tiny parachutes. If you are interested, try investigating parachutes.

Design an experiment to test how far a dandelion seed can fly. How would you measure it?

Science Buddies has suggestions for how to carry out a seed dispersal experiment called Gone with The Wind (based on a similar experiment at Scientific American).

red-maple-keys-461

Advanced:

Maple keys are so interesting that scientists take high speed movies of them to discover the secrets of their movements. According to this study, the keys produce swirling air like mini-tornadoes while they spin. Here the seed has been dropped in oil to make the whirls easier to see.

Do you see the tiny swirls that form over the end of the “tail” part of the key? Cool!

For more about maple key science, try these links:

If you want to learn more details about the botany behind wind dispersal, try Wayne’s World.

Do you have a question about seed dispersal? Feel free to free to leave your questions or further activity suggestions in the comments.
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To see our complete plant science lessons, either visit the plant science category (newest posts to oldest posts) or the plant science section of our experiment archive page (links to posts in order).

For more information about plants and seeds, try our Seed of the Week archive or the mystery seed tag and Seed of the Week category.

Seed dispersal answers:

  1. Tickseed sunflower seeds have barbs that stick to clothing and fur. They are carried by animals.
  2. The wings on the Chinese elm seeds help them float on the wind.
  3. The red and orange structures on the willow acacia seeds are eaten by birds and other animals. The animals carry away the seeds, eat the red part and discard the hard, slippery seeds.
  4. Filaree seeds have an interesting ability to twist themselves into the soil. They are like tiny drills.
  5. Nuts, like hickory nuts, are often carried away and buried by animals.

 

Plant Science: What is a Seed?

Plant-Science-Lessons

Today let’s learn about seeds.

Seeds are the way certain plants reproduce. Only gymnosperms (conifers, ginkgoes, etc.) and angiosperms (flowering plants) produce seeds.

A seed consists of a plant embryo surrounded by a protective seed coat. Many seeds also contain a source of food for the developing embryo.

Seeds come in a remarkable variety of sizes, shapes, and colors.

Seed Activities for Kids

Caution:  Commercially-available seeds may be treated with pesticides, particularly fungicides. Whenever possible use organic seeds, seeds for food use, or seeds you saved yourself for these activities.

bean-soup-mix-for-sorting

Activity 1. Sorting Seeds (for the youngest set)

This activity is for children old enough not to place small objects in their mouths and with adequate fine motor skills to pick up a seed.

Sorting is an important skill for science, but one we tend to overlook. Repeat this activity as often as the child(ren) desire(s), using different mixtures each time. Simply look through your cupboards and spice jars for seeds.

Materials for Sorting Activity:

  • Large seeds, such as different kinds of dried beans, dried watermelon, corn, pumpkin, squash and sunflower seeds. Sorting the beans in dried bean soup mix is fun too.
  • Paper plates, egg cartons, or small bowls (optional)
    For optional seed collage:
  • Construction paper, paper plates, or tag board
  • White glue

Procedures
1. Examine the seeds closely. Ask questions. Which is the biggest? Which is the smallest? What colors do you see? What do the seeds feel like? Smell the seeds. Is there an odor?
2. Ask the children to sort the seeds into piles (sorting into small paper plates, egg cartons, or dishes helps make clean up easier). Add forceps or tweezers for fine-motor skill practice.
3. Option 1: add some similar-sized beads, and ask the children to sort the seeds from the beads. You can introduce the concepts of living versus non-living if your children are ready.
4. Option 2: Use the seeds to make a simple picture or pattern by gluing them with white glue onto a paper plate or card stock.
5. You may want to save some of the seeds for sprouting activities.

Activity 2. What is in a seed?

Older children can (a.) dissect seeds and (b.) do an experiment with them.

a. For the dissection

Gather:

  • Bean seeds and corn seeds (larger varieties like lima beans work best)
  • Age-appropriate dissecting equipment, such as plastic knives, pins, or small kitchen knives
  • Hand lens or dissecting microscope, if available
  • Diagrams of the parts of seeds
  1. Count out a few seeds of each kind for each participant and soak them at least 24 hours in moist paper towels.
  2. Distribute the seeds to the participants. Have the children pull off the seed coat of the bean seed. Ask them to look for the seam and gently pry the two halves apart. Look for the “baby plant,” which is the embryo.
  3. Allow the children to cut the corn seeds open and look for the embryo, cotyledon, etc. Corn is more difficult, so have extra seeds on hand.

Bean-seed-partscorn-seed-parts copy

Explain the difference between the bean seed and the corn seed is the number of cotyledons. Beans have two cotyledons and are called dicots. Corn and other grass seeds have one cotyledon and are called monocots.

Have the children draw their seeds and discuss what they find out.

b. Experiment with bean embryos

Gather:

  • Plastic zip-loc style bags
  • Paper towels
  • Pre-soaked bean seeds
  • Age-appropriate dissecting equipment, such as plastic knives, pins, or small kitchen knives
  1. Explain that the cotyledon supplies food to the growing embryo. Ask whether the students think an embryo can grow without the cotyledon. How would they test this?
  2. One way would be to seal an intact bean and an embryo that has been separated from the rest of a bean in a plastic bag with a wet paper towel. See if the bean embryo begins to grow without the cotyledon. The intact bean would be the control. If the intact bean doesn’t germinate, then the conditions of the experiment were not suitable for growth.
  3. Another variable is whether dissection, or removal of the embryo from the bean, has harmed it. How would you test that idea? (Perhaps the children could add a third bean that has had its embryo removed and then put back on the cotyledon. Would the embryo grow in this case?)

Activity 3. Arabidopsis thaliana experiment – Introduction

At the beginning of this project, we learned about the thale-cress plant, Arabidopsis thaliana, which is the “lab rat” of the plant science world.

Recently we obtained some thale-cress seeds for a genetics experiment we will be carrying out over the next few months (more details later). If you would like to try this yourself, we obtained our seeds from the Arabidopsis Biological Resource Center at Ohio State University. Seeds are also available from Carolina Biological Supply (I am not affiliated with either of these businesses).

arbidopsis-seeds-in-vial-0335

The Arabidopsis thaliana seeds came in a tiny vial.

arbidopsis-seeds-with-rice-grainIt turns out that Arabidopsis thaliana seeds are incredibly small. Here are the seeds placed next to and on a rice grain. Because of their small size, I suspect they are going to be a challenge to grow.

Next week we are going to look at how seeds move around or seed dispersal. How do you think these teeny thale-cress seeds get from place to place?

 

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To see our complete plant science lessons, either visit the plant science category (newest posts to oldest posts) or the plant science section of our experiment archive page (links to posts in order).

For more information about plants and seeds, try our Seed of the Week archive or the mystery seed tag and Seed of the Week category.

Intro to Plant Science: What is a Plant?

Plant-Science-Lessons

As we embark on a grand adventure into plant science, let’s start by thinking about what we mean by the term “plant” (links go to prior posts here at Growing With Science or to Wikimedia, as indicated).

plants-in-fieldScientists currently group living organisms into three domains:  the Bacteria, the Archaea and the Eukarya. Within the Eukarya are four divisions known as kingdoms. They are the Protista, Fungi, Animalia and Plantae.

So, basically we are asking what criteria scientists use to classify a given kind of living thing as belonging to the Kingdom Plantae.

Activity:  Brainstorm about Plants (Prior Knowledge)

When you think of plants, what features or traits come to mind? Leaves? Flowers? Things that are green? Things that don’t move around? On a board or sheet of paper, brainstorm all the qualities of plants you know.

Now let’s take a look at what features that separate plants from other kinds of living things.

1. Do plants all have leaves?

little-cactus-05really-good-saguaroNot all plants have leaves. Some types of plants, like these cacti, don’t have obvious leaves (although the spines are actually modified leaves). Parasitic plants also lack obvious leaves (see dodder below.)

2. Do all plants have flowers?

ferns-0347Although flowering plants are widespread and abundant, not all plants have flowers. Ferns, mosses, liverworts and horsetails all produce new plants via spores.

3. Are all plants green?

red-japanese-mapleII0147 pitcher-plant-11Although most plants are green because of chemicals called chlorophyll, there are also plants that are red like the Japanese maple tree in the photograph above or these pitcher plants.The red pigments in the leaves are called carotenoids. Carotenoids also give fall leaves their color when the predominant cholorophyll pigments are lost.

Plants may also be golden yellow, or have white and green patterns.

4. Do plants make their own food?

One important aspect of plants is that they can make their own food via a process known as photosynthesis.

This is not an exclusive characteristic, however. There are some other organisms – particularly protists- that can also do this, and a few parasitic plants obtain their food entirely from other plants without making any themselves.

Dodder_(Cuscuta)_fruitThe yellow strands in the photograph are from a parasitic plant named dodder (public domain image retrieved from Wikimedia). The green leaves are from the host plant.

Along with making their own food, plants also store the excess food as starch.

5. Can plants move?

Seeds can move, passively for the most part (which we will learn about in an upcoming post), but once the plant has set down roots it is no longer capable of movement. Plants lack the ability to move about via contracting fibers like animals can.

6. So, if something can’t move, is it a plant?

mushrooms-211Fungi were once lumped with plants because they can’t move on their own either. Now scientists consider fungi to belong their own kingdom because they have many important differences from plants.

7. Do plants live in the water?

With a few exceptions, plants live on land. That means they have special structures to keep from drying out that organisms living in the water wouldn’t need. For example, seeds have a tough outer seed coat to protect them from the relatively harsh environment of dry land.

cattails-36

cattail-nc

Some plants like cattails and water lilies appear to live in water, but most of their structures are actually above the water.

What about organisms that live underwater, like kelp? Although kelp may look like a plant, it is actually a form of algae. According to current classification schemes, algae are not plants.

7. What differences are there inside plants? What about the cells?

If you could look at plant cells under the microscope, you could find two other features of plants. One is that plants are multicellular, which means they have many cells, not just one. That is a feature of the Domain Eukarya.

Plant_cell_structureSecondly, plants have a cell wall around the outside of the cell, which is made up of cellulose (public domain image from Wikimedia).

Finally, with more advanced study, scientists have determined that plants have what is called an alternation of generations during the life cycle. We’ll learn more about that later.

In summary, plants

  • are multicellular
  • have cells surrounded with cell walls made of cellulose
  • live mostly on the land
  • make their own food via photosynthesis
  • store their excess food as starch
  • lack the ability to move
  • have alternation of generations during their life cycle

 Activity 2. Which Are Plants Quiz

Now that you are an expert on the characteristics of plants, pick out the organisms below that are plants.

A. Is this a plant?

is it a plant

B. Is this a plant, yes or no?

is it a plant quiz

 

C. Are these plants?

is this a plant

D. Are the things growing on the rock below considered to be plants?

is-this-a-plant-d
Answers

How did you do? Did you learn anything new about plants?

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To see our complete plant science lessons, either visit the plant science category (newest posts to oldest posts) or the plant science section of our experiment archive page (links to posts in order).

For more information about plants and seeds, try our Seed of the Week archive or the mystery seed tag and Seed of the Week category.

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