No matter how briefly you contain bugs, ALWAYS include a moistened cottonball. Like humans they will die with out water.
No matter how briefly you contain bugs, ALWAYS include a moistened cottonball. Like humans they will die with out water.
What Is an Insect?
Insects come in a wide variety of sizes, shapes, and colors. Regardless of their differences, all insects have the following four characteristics:
Bees & Wasps are indeed Insects
1. All insects have – Three body parts—Head, Abdomen, and Thorax.
The thorax is behind the head and is the attachment point for the legs and wings. The abdomen is behind the thorax and is used for digestion and reproduction. This is where protective “gear” like stingers are found.
2. All insects have an exoskeleton that acts as a suit of armor to protect them
3. All insects have Six legs with joints
4. And finally, all insects have Two antennae
Many people mistake spiders, worms, and centipedes for insects. But, because they do not have the required four characteristics, 
they are not insects. Spiders, for example, have eight legs, while worms don’t have any.
Is a ladybug an insect? Yes
Is a ladybug a beetle? YES.
Beetles exhibit bilateral symmetry.
Do you know how many Spots a ladybug can have?
Go here to find the answer and see for yourself.
Ladybug Life Cycle –
Just like all beetles, ladybugs go through different stages of life. Young ladybugs actually don’t look anything like the pretty red and black adult ladybugs we are all used to seeing. If you saw one that wasn’t an adult yet, you might not even recognize it. The stages that ladybugs go through are all steps in a very complex process called metamorphosis. (Butterflies, moths and amphibians like frogs go through metamorphosis too!)
All photos are from our Park. The children found ladybugs in all four stages of their life cycle. What great Nature investigators we have!!!
Eggs layed on bark of tree
Stage 1: Egg
A female ladybug lays a cluster of tiny yellow eggs. After about one week, the eggs will hatch and small odd-looking creatures appear! Eggs are usually layed on edible leaves.
Stage 2: Larva
Larva Stage of the Ladybug
The odd-looking creatures that hatch out of the eggs are called larva (plural is larvae). They have long bodies with six legs and are mostly black with some color. They look like mini – Monsters. The ladybug will live as a larva for 2-4 weeks of its life. In this time, Ladybug larva can eat up to 400 aphids! When the larva has grown as much as it needs to, it attaches itself to a leaf, tree or wall in our case, to get ready for its next stage of life.
Stage 3: Pupa
The Pupa form which is similar to a butterfly’s chrysalis, will remain attached to one surface for 5 days while it changes into an adult. The pupa does not eat or move because it stored up plenty of food in its body while it was a larva.
Stage 4: Adult
I released 1,500 ladybugs for the kids to catch purchased at a local gardening store as organic pest control.
When ready, the fully formed ladybug as we know it backs out and leaves the pupa shell behind. It now has two sets of wings. One set of wings is the hard brightly-colored part that helps us recognize ladybugs. This hard set of wings is called the elytra (say: EL-LIE-TRA) and it protects the fragile flying wings underneath. When the pupa hatches as a new adult ladybug, it doesn’t have any spots yet and its elytra are wet, soft, and pale colored. They will dry out during the ladybug’s first day as
an adult and it will soon be a pretty bright color with spots! Ladybugs can actually be red, orange, or yellow! Scientists have counted over 5,000 different kinds of ladybugs in the world!
As an adult, the new ladybugs can eat up to 75 aphids a day. Towards the end of the summer, ladybugs like to eat pollen and some types of plants so that they can store up fat for the winter. During the winter, ladybugs hibernate. To stay warm, they usually huddle together in groups and bury themselves under piles of leaves, grasses, or rocks for protection from winter weather. When spring arrives, the ladybugs will begin to wake up and come out looking for a tasty meal of aphids! They will begin to lay eggs that will grow into more ladybugs.
Time to Catch some insects at the Park!
Here's one for $30.
YouTube BugCatcher
Do you know that it is rather easy to injure an insect? You could accidentally break off an antennae, a leg or possibly harm their wings, any of which prevent them from protecting themselves from predators. One the best ways to catch an insect (at least one smaller than the opening of a straw) is with a bug catcher. They can cost anywhere from $9-$80. or you can just build your own. I recommend the glass jar sort with straws and a bit of loosely woven cloth. This is what we made. Or if you want to go with plastic cups and lids, here’s your best bet.
On this day, we made our own Bug 
Catchers and caught many different types of bugs
by safely (to us and them) sucking them into our bug catchers. The only modification we made to our homemade catchers was to add a bright piece of paper or tape to the straw that had the gauze on it. This meant it was the SAFE straw to suck upon and with the gauze we would not accidentally inhale a bug that had previously been captured in our container.
Whenever you capture an insect, always include a cottonball that you have liberally moistened. Most insects can easily go with out food for a day or two, but rarely can they go with out water.
For More Ladybug Fun and Insect Investigations go to this great homeschooling site.
A bug Catcher in Action! Love it D!!!
First we talked about scabs, bruises, scars and how our body made them. W had a round-robin of showing off the ones we all had! We even had broken bones a’ mending!
Now onto replicating our mucous membranes and SNOT protectors! Have you ever blown your nose and found that your snot was a really gross, green-yellow color? Most of the time snot is just clear, but sometimes it will be green or yellow, particularly if you’ve been sick. (YUCK!) The color usually indicates you’ve got more bodyguards working for you than plain bogies.
Then to show how these bodyguards stop dirt, bacteria and other fine particles from entering our lungs I dropped in some vacuum cleaner debris. Voila – we made Boogers! Boogers are just Mucous that has trapped dirt and then can start to dry. Now with three separate kits with different ingredients I had premade, they broke into groups and became snot factories! Some boogers were made with lime-flavored gelatin, others with green and yellow food-coloring. But each was fun and disgusting enough to entertain everyone and understand how mucous is made of protein that makes it both stretchy and sticky so that it can reach where it needs to go to do its job and grab that dirt. In the nose, mucous acts as a barrier against germs, dust and other noxious substances. We breathe between 10,000 and 30,000 litres of air each day – which carries pollen, germs and a great deal of other gunk. These get trapped in the mucous surface and destroyed by white cells and enzymes.
Now since all the air you exhale is colorless and gets mixed up with the air in the atmosphere it’s not an easy thing to measure. And we wanted to find out how much air each of our pair of lungs could hold. We followed the standard measurement for determining lung capacity – 
Each kid patiently stood in line from smallest to tallest to blow one very big exhale through the tube and into the upside down bottle submerged in water. As their breath blew into the bottle, water was pushed out. And after I replaced the cap underwater and stood the bottle upright we compared how large each person’s breath was to the next. Before engaging in the experiment one of the older children (thanxA) took a sharpy pen and demarcated the line at every 2 cups of water added.
When it got really cold and threatened to rain often in late May, my daughter requested that we 
Armed with a bouquet of Trumpet flowers and pomegranate blossoms from my backyard as well as some farmer’s mkt Sunflowers, we scientifically dissected, explored and identified flowers & “soon-to-be” fruit parts.
Each flower has their own primary parts: 
hundreds of kids learned about pollination (see poster) and flower parts. Here Ula investigates a sunflower, only to find out that it is comprised of HUNDREDS of miniflowers. Each of which, IF POLLINATED, will produce ONE sunflower seed.
