Test

Collision Challenge

A real-world effect of Newton’s 3^rd Law of Motion is collisions.  A collision is a crash.  Sometimes, when two objects hit each other, damage occurs because of the force that both objects give.  Below are examples of different types of collisions:

Car vs. Car	Athlete vs. Athlete

Skateboarder vs. Ground	Human vs. Water

What are some other kinds of collisions that you can think of?

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Moon Landing 

Landing a vehicle on a moon or planet is another type of collision.  This is a type of collision that NASA engineers spend LOTS of time and millions of dollars trying to manage.  When a ship lands on a moon or planet (or back on Earth), the “crash” needs to be gentle.  If not, expensive equipment could get damaged and  crew members could get hurt or even die. 

Today you are going to take on the role of a NASA engineer.  The “crew members” and “equipment” will be modeled by a water balloon.

You must design and build a landing vehicle that can survive a crash without breaking the balloon. 

Rules:

The water balloon must be filled with water as full as you can get it without breaking.

You may use any materials that you have at your house.  (Make sure you get parents’ permission first!)

Your “lander” must be dropped from as high as you can safely get it.  At the very least, stand on a chair and lift your arm as high as possible. 

The water balloon must be filled with water as full as you can get it without breaking.

What you need to send to Ms. Dolan:

1.  Draw your design.  Label all the materials that you used.

2.  Describe your thinking process.  Be REALLY detailed.  Explain why you chose the materials you did.  Explain why you placed materials where you did.

3. Take a picture or video as you test your design, if possible.

4. In the space below, describe what happened when you tested your lander.  Be REALLY descriptive. 

5. Reflect:  Describe what went well.  Describe what didn't go well.  Describe what you would do differently if you were to try a new design. 

Click here for a PDF version of challenge, rules, and recording pages.

YOU HAVE UNTIL FRIDAY TO COMPLETE THIS TASK.

I'll will be sharing photos and videos with the class.  Please let me know if you don't want me to share your photo or video.  

Introducing Pristiphora fructicola!

Pristiphora fructicola male on the left, female on the right (notice the saw on the "tail" of the female)

It was the end of May/beginning of June 2015.  I was spending my days looking for huckleberry flowers in the mountains south of Bozeman, Montana.  It was a bit disappointing... after the summer of 2014 that I spent among big, dense huckleberry shrubs in the Yaak (in far northwest Montana), the small, scraggly, flower-sparse plants in the Gallatin National Forest were pretty boring.  The lack of flowers meant a lack of documented pollinators.  I caught a few bumble bees and a some small solitary bees in the genus Andrena, but it wasn't the lovely days of watching (and listening to) large numbers of bumble bees that I had enjoyed the previous summer.

Still, it turned out that there was great discovery to be had.  Right around the end of anthesis (the flowering period of the plant), I started to notice tiny yellow insects flying in and around the branches of the huckleberry plants.  I thought they were tiny yellow wasps and collected a bunch.  When I got back to the lab and told my advisor about the large number of little wasps I was collecting, he was intrigued and asked to see them.

Under the scope, the first realization hit me.  These insects did not have the constricted waists that are characteristic of bees and wasps.  They had four wings (so they couldn't be flies), they didn't have long piercing/sucking mouthparts (so they couldn't be true bugs), they didn't have armor-like fore-wings (so they couldn't be beetles), and they clearly weren't butterflies or dragonflies.  They looked the most similar to bees and wasps... that's because they turned out to be in the same family (Hymenoptera).  They are just the lesser-known cousins of bees and wasps, sawflies.

Hymenoptera:  top = wasp (yellow jacket); middle = sawfly (figwort sawfly); bottom = bee (honey bee). Notice the constricted "waist" between the thorax and the abdomen on the wasp and bee, but not on the sawfly. (google images)

Sawflies get their common name from the fact that females literally have saws at the tips of their abdomens.  This is part of the ovipositor (i.e. egg laying organ).  The saws are used to cut into plant material so that eggs can be laid inside plants.  It is for this reason that sawflies are often considered pests of economic importance.  For example, the wheat-stem sawfly is a tiny insect that has wreaked havoc on wheat crops in the U.S.  The eggs are laid in the stems of wheat and the larvae feed on the insides of stems, preventing water and nutrients from moving through the plant, eventually causing the death of the plant.  Much research has gone into breeding wheat that is resistant to these sawflies or studying and releasing tiny wasps that prey on them.

Identifying insects to species is not easy... at all.  My advisor and I keyed out my tiny sawflies to the Hymenoptera family Tenthredinidae.  This is the largest, most diverse family of sawflies.  Using some obscure literature, Mike figured out that they belonged in the (former) tribe Pristolini, but there seemed to be some confusion about identification of insects in this subgroup.  There are relatively few species in Pristolini, and our sawflies didn't seem to match any of the species descriptions.  We went through the large volumes of Hymenoptera in America North of Mexico, looking for other sawflies known to be found in, on, or around huckleberries.  None of the recorded species matched our specimens.  It was definitely a mystery!

The next step was to send photos and eventually specimens to Dr. David Smith, a retired research scientist at the Smithsonian Museum of Natural History, who is the known sawfly expert.  He dissected the lancet (saw) out of one of the specimens we sent him, and he compared it to the two most similar species. It turns out that characteristics of the lancets (things like number of teeth, shape of the teeth, shape of the lines, etc.) are important diagnostic features.  It was pretty clear that our species was different from the other two. That meant I had discovered a new species!!

Female sawfly lancets: top = Pristiphora resinicolor, middle = our mystery sawfly; bottom = Pristiphora ferruginosa
photo taken by David R. Smith

 So what happens when a species, previously unknown to science, is discovered?  There's actually an International Code of Zoological Nomenclature that lays the ground rules for naming and describing new species, changing the name of a taxonomic group, or synonymizing two names. This is not a book I recommend reading.  When I showed interest in learning more about the process, even my advisor told me that reading "the code" would be really boring.

The International Code of Zoological Nomenclature .

The main thing that happens is that a very detailed species description has to be written (following a standard format).  The species description needs to be detailed enough that another person could identify a specimen and distinguish it from other similar species.  Within the published species description, the author/describer gives the new species a name.  Names often come from Latin words describing key characteristics or locations.  Sometimes species are named in honor of the collector (if the collector is different from the author) or another scientist that the author wants to honor.  It is even possible to have a sense of humor when naming species:

Gollumjapyx smeagol is a cave-dwelling dipluran named after the Lord of the Rings character.
(image found on Twitter)

Scaptia (Plinthina) beyonceae is a golden-tailed fly named after Beyonce.
(image from telegraph.co.uk)

Agathidium vaderi is a slime-mold beetle named after the Star Wars bad guy.  The Cornell University entomologists who named this beetle also named slime-mold beetles after Bush, Cheney, Rumsfeld, and Pocahontas (among others).

The names of the author/describer become part of a new species official name, so it is considered redundant and "bad form" to name an insect after yourself.  Dave and I decided to name our sawfly  fructicola from the Latin words for "fruit" and "house."  This is because I found larvae happily feeding inside green berries late in the summer.  The tricky thing is that I found the larvae inside fruit at different study sites than those where I collected adults-- frustrating irony.  So, we can't be sure that the adults and larvae are the same species.  There could be other similar sawflies sharing the same habitat.

Live sawfly larva found inside undeveloped huckleberry fruits.

It is likely that the female laid eggs in the flowers' ovaries and as the fruit developed so did the young insect.  We think that the larvae likely pupate and then fall to the ground to overwinter in leaf litter, emerging as adults to mate and lay eggs early in the spring.  This is all speculation, however, none of this is documented.  We also have no ideas on population numbers, life span, range, diversity, etc.  All we know is that we found a species that was active during a short window of time in and around one particular plant.  That leaves a lot left to discover!

In order for a new species to become "official" the species description has to be published.  That occurred this week for Pristiphora fructicola Smith and Dolan.  Our paper was published here in the October 2016 issue of The Proceedings of the Entomological Society of Washington.  Sure, it's a journal that has very narrow readership, but it's a peer-reviewed journal nonetheless.


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"Discovery is one of the greatest joys, and it is still there to be had in abundance." 

-Howard E. Evans from Life on a Little-Known Planet

A Whole New Skin

About a month ago I thought my tarantula might be dying (belly up)😕

...but she was molting!! (found her next to the old exoskeleton in the morning)🎉

Have you ever seen a tarantula molt? 😱

It's amazing- the exoskeleton is fascinating and Houdini herself looks all shiny new now (though a bit tired from the trauma of detaching herself & crawling out of her own skin)! 😀
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Nature is so cool. 🍂🕷❤️🐝🍃

Belly up- when I thought she was dead.

Old skin on the left; shiny new tarantula on the right.

The skin she shed showing the hole that she squirmed
her body out of.  The exoskeleton on back came right off. 

All shiny and new with a hint of pink. :-)

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“Once you begin watching spiders, you haven't time for much else.”  ― E.B. White

Mason Bees

When you hear the word "bee" you likely think of honey bees, right?  Hives, honey, swarms, pollination, Winnie the Pooh, etc:




I'm hoping that based on previous posts, you also now think about bumble bees-- those big, colorful, fluffy bees flying nosily around all summer.  They are probably my favorite. :-)

Bumble bee in Wisconsin.  Photo credit: Carol Dolan

But what about mason bees?  Have you ever heard of them? Look at how beautiful they are!  There are around 500 of these bees (in the genus Osmia) found worldwide.  Around 130 have been identified in North America.  All of them have stout, roundish, bodies and almost all of them have a metallic sheen to them.  Some are black, but many come in shades of blue, green, copper, and purple. You likely don't notice them as easily as you notice bumble bees or honey bees because of their size- the largest Osmia is just over half an inch long.

Osmia sp. from Montana.

Osmia is a genus in the family Megachilidae.  In this family, females carry pollen on the underside of the abdomen, where bristly hairs (called scopa) are found.  Unlike honey bees and bumble bees (but similar to the majority of North American native bees), Osmia are solitary.  This means they do not live in colonies.  Each female works alone to provision a nest for her offspring.  The female lives for just one season: she emerges as an adult in the spring, mates, provisions a nest for her offspring, and dies before the winter.  New bees go through the entire life cycle in one summer.  They metamorphosize from larvae into adults before winter, but stay within the cocoon until spring in a state known as diapause (kind of like hibernation).



Most Osmia don't create their own nests, but use spaces that already exist in nature.  Typically, the spaces that are chosen are long, narrow enclosures.  Tunnels created by beetle larvae, hollow stems, and holes in tree trunks are the type of places Osmia species choose for nests.  The way they use these spaces is what's so fascinating about these bees.  The queen will begin at the back of the nest and work her way towards the outside.  Each egg is provisioned with a mixture of pollen and nectar.  It has to be enough to feed the larva throughout the summer and to build up fat stores to survive winter.  This is a lot of pollen and nectar- some studies of some species have shown that it takes 15-35 foraging trips and visits to around 75 different flowers to collect enough for just one egg!

Osmia nest tubes:  yellow is the mixture of pollen &
nectar; the brown is mud; each cell contains one egg.
You can see the queen in the tunnel on the right.

After an egg is laid and enough pollen and nectar has been collected, the queen will seal that egg into a little cell created out of mud. (This is where the common name, "mason bee" comes from.) She collects the mud with her mandibles (jaws) and carries it between her jaws and front legs.  Once a little wall of mud has been built to protect the first egg, she'll start collecting nectar and pollen for the next one.

The larvae will emerge and feed on the pollen/nectar throughout the summer.  They will then pupate and go through metamorphosis to become adults.  It is in this adult stage (still within the cocoon) that they will overwinter.  The cells furthest back in the tunnel will be female, cells closest to the opening of the tunnel will be male.

In spring, the males will emerge first.  They'll chew through the cocoon and the mud walls and then crawl out of the tunnel.  Males tend to stay very close to nest openings once they emerge in order to mate with a female as soon as one comes out.  Once mating occurs, the new females will each search for a new nest site.

A queen will use sight and smell to find her way back to her nest opening.  It is not unusual for one bee to have more than one nest each summer, especially since nests are pre-existing burrows of a variety of shapes and sizes.

So why are Osmia important?  Well, they're really important native pollinators.  Unlike honey bees which are not native to North America (they were brought over from Europe), there are hundreds of native Osmia in the U.S.  Native bees are often more efficient at pollinating native plants.  One particular species, Osmia lignaria (the blue orchard bee) which is used commercially to pollinate apples, almonds, plums, and cherries, is incredibly more efficient than honey bees.  Research has shown that 300 O. lignaria can do the same pollination work as 90,000 honey bees!

Most Osmia are generalists, so they will appreciate any flowers that you plant in your garden.  However, they do seem to prefer the long, narrow flowers of plants like beardtongues (genus Penstemon), mints (family Lamiaceae), and the pea family (Fabaceae).  Some species are specialists and focus on just one genus or species.

Nest tubes that my friend Casey made
for her garden. 

You can easily create habitat for Osmia species in your yard.  Nests can be built out of a variety of materials.  Hollow wooden tubes work well, holes can be drilled into larger pieces of wood, or you can remove the pith from large, thick plant stems and use those.

Once Osmia start building nests in your yard, you'll be able to see a high level of activity in/out of the nest boxes, on your flowers, and in the dirt/mud.  They're really fun to watch!  (Try peering into the tubes with a flashlight in the dark to see sleeping bee faces!)

Casey used wooden tubes and old cans.  The
wooden "shelves" above the tubes are to
protect the bees and their nests from rain. 

Casey made more nesting tubes by drilling into
wooden blocks and inserting plastic tubes into the
holes (so they can be cleaned and reused).

Some of the stats were taken from The bees in Your Backyard by Joseph S. Wilson and Olivia Messinger Carril (2016).


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“Bees do have a smell, you know, and if they don't they should, for their feet are dusted with spices from a million flowers.” 

― Ray Bradbury, Dandelion Wine