More Resources About Terrestrial Arthropods

Lesson Plans Fact Sheets Common Core Reading

Online Lesson Plans Curated by Shape of Life

  • From Understanding Evolution, a non-commercial, education website, teaching the science and history of evolutionary biology - Arthropods: A success story (follow this lesson plan using the next button in the right corner).
Terrestrial Arthropods: The Conquerors

Videos

Dragonflies are formidable hunters because of their flying abilities, huge eyes and complex nervous systems. Read more about dragonflies in the article "Nature’s Drone, Pretty and Deadly".

Leaf-cutter ants, like most other ants and bees, are social ants living in complex colonies made up of ants with different jobs. These ants are also farmers, cultivating fungi in their underground nests. The fungus garden feeds the colony and the leaves the ants carry make mulch that feeds the fungus garden. Read more about leaf-cutter ants.

Arthropods grow in a very different way than you and I do: they shed their exoskeletons to grow. For crabs, that means shedding their shells and growing a new one, a process called molting. Watch some arthropods molting:

Bombardier beetles live up to their name. They defend themselves by shooting boiling hot fluids at their attackers. An African bombardier beetle, Stenaptinus insignis, can aim its spray in virtually any direction. It can target its individual legs, and even the individual segments of its legs. It can even aim at its back. It’s the heart-shaped combustor combined with a long, narrow tube that ejects the hot liquid that makes the beetle’s weapon so effective. And when a beetle shoots the fluid, there is a cracking sound. This video shows scientists provoking the reaction in real time and slow motions. Also, you can look at diagram of the bombardier beetle’s defense system.

In this video a toad attempts to eat a bombardier beetle and spits it out.

Monarch butterflies are the most recognizable butterflies. They, like other butterflies have two life forms: caterpillar and butterfly. This series of videos shows the transformation from caterpillar to chrysalis to butterfly of a relative of the monarch we know in the U.S.
 

PALEONTOLOGY

screenshot of fossil spiders modellingOne of the earliest predators on land was the ancestor of spiders. Watch this video of a model of a fossil spider walking. And read more about the fossil.

 

Reading

THE LAND ARTHROPODS The Conquerors Coming Ashore

Excerpt from the Shape of Life book.

 

GENERAL INFO ABOUT TERRESTRIAL ARTHROPODS

From Understanding Evolution - your one stop source for information about evolution: Read about the evolutionary history of arthropods.

The arthropod body plan illustrated

Arthropods have segmented bodies, a key to their success

See a TED talk on the wonders and biology of spider silk

A diagram of a bombardier beetle’s defense system

Dragonflies, like most insects go through a metamorphosis

Dragonfly nymphs, as underwater predators, live a very different life style than the adults

Most insects undergo a change in body form from larva to adult. Perhaps the best-known example is that of a caterpillar to a butterfly. Metamorphosis isn’t the same in all insects.

What is the advantage of metamorphosis? Complete metamorphosis (some insects have incomplete metamorphosis) gives insects a survival advantage: the adults and larvae don’t compete for the same food sources and have different predators. "Insects may account for between 80 and 90 percent of all animal species, which means 45 to 60 percent of all animal species on the planet are insects that undergo complete metamorphosis according to one estimate. Clearly, this lifestyle has its advantages."

Some butterflies are poisonous and are brightly colored to advertise that fact. Others are brightly colored, with bold patterns that may startle predators.

 

THE TREE OF LIFE

Check out our new Tree of Life illustration that shows how all living things are related.

Over 150 years ago, Darwin chose the tree of life as a metaphor for one of the most powerful ideas in biology: the relatedness of all living things. The power of that idea can be seen today in the ubiquity of evolutionary trees (also called phylogenetic trees) in all biological disciplines, from studies of newly discovered species to cutting-edge cancer research. To understand modern biology, we all need to understand how evolutionary trees can be read and used.

The Tree Room provides a wide variety of tools for teaching and learning about evolutionary trees in both classrooms and informal science education settings.

 

FEATURED CREATURE

What’s the Buzz? Beloved Bees!

 

HUMAN USES

Insects are loaded with biologically active compounds that they use for defense and for breaking down food. Scientists have been “bio-prospecting” them, just as they have been with marine animals. So far, they have identified molecules that kill cancer cells, proteins that prevent blood from clotting, enzymes that degrade pesticides, proteins that glow in the dark, and antimicrobial agents. Read more and watch the video about research.
 

ROLE IN ECOSYSTEM

Read more about bee pollination and Colony Collapse Disorder, a disease that is devastating bee populations.

Read about the role that bees play in ecosystems as pollinators

And read that wild, native bees, not just honey bees, are critical as pollinators

Bees aren’t the only insect pollinators: butterflies are also pollinators

Millipedes are nature’s decomposers. They eat decaying plants—bark and leaves—shredding them with powerful jaws. The smaller decomposers can then break down the detritus further, returning nutrients to the soil.

Learn more about the Giant African Millipede

Many researchers have been trying to create a human-made spider silk, which is five times stronger than steel and more elastic than rubber bands. Read this 2015 article about artificial silk.

From Johns Hopkins Universtiy, read about the amazing jumping abilities of crickets and how that might influence robot design in the article: "Tiny Dancers: Can Ballet Bugs Help Us Build Better Robots?"

 

PALEONTOLOGY

Dragonflies and damselflies are ancient insects that have been around since before the age of the dinosaurs. Some Odonata (the order that dragonflies belong to) fossils from the Carboniferous (359 to 299 million years ago) period had wingspans of over a meter. These insects were the size of modern seagulls. Scientists wondered how why they got so large. There were higher levels of oxygen at the time and the researchers concluded that the larval dragonflies, which live in freshwater, grew larger to avoid oxygen poisoning.