This weeks classes 🦢🦜🦉

This week we have been learning about birds.

At the moment, the BC SPCA is asking bird lovers across BC not to hang bird feeders out as there is a salmonella outbreak which is making some birds very sick. So we learned how to make some natural bird feeders which can be left out.

Here is Elan with the bird feeder she made on Tuesday.

And here is the feeder I made hanging in the garden at Canuck Place.

We also had a visit with Mike from Mike’s Critters who shared two of his birds, Mo and Sammy, with us. They are both quite playful and Sammy was very excited when Hazel and Lumina’s dog, Mila, joined them on screen.

Click on this logo to go to Mike’s homepage.

If you scroll on down past this post you find posts about,

      • Woodpeckers’ amazing tongues,
      • Social Weaver Birds and their huge nests
      • the longest flight ever made by a bird
      • a live Eagle Cam with three babies in the nest
      • and more…

EAGLE CAM! 🦅

This is a link to the live Eagle Cam that we watched some of in class today.

If you watch it on YouTube, you can find information about the birds underneath the video.

This is the video that we watched some of earlier – showing the hatching of the third egg.

 

Woodpeckers

Below is a video of a woodpecker hammering on a tree. This particular woodpecker is a Lineated Woodpecker that lives in South America. It looks very similar in size and colour to the Pileated Woodpecker that lives here in BC.

 

WARNING

In this next video a scientists is using the actual skull and tongue of a deceased woodpecker to demonstrate how the tongue wraps around the birds head. It’s fascinating but if you are a bit squeamish about these things, you may want to skip it.

This video shows a Pileated Woodpecker, a large and local bird, making a large hole in a tree.

 

 

 

North American Wildlife

This week we have been looking at wildlife here in North America.

We learned about Mason Bees, 

 

Wolves, 🐺

and Beavers 

Beaver’s build such strong dams and lodges that even a Grizzly Bear can’t break in to a Beaver Lodge!!

So we had a go at building a Beaver Dam!

The best dam was built by Keegan and Shirley. Great job guys!

And then that afternoon Armaan went to the zoo and visited with a Cougar!

Did you know… ?

Did you know that Wombat poops are square shaped? (Or to be more accurate, ‘rectangular prism shaped’)

Wombats are a type of Australian marsupial and the only animals in the world that are known to produce ‘square’ shaped poop!

How does that happen and why?!

Scientists are pretty sure that Wombats, like many other animals, communicate through their poop by using it to mark out their territory. Wombat’s like to poop on top of rocks to make sure everybody can smell it and get the message! But most poops would roll off a rock! The Wombat’s ‘square’ poop is much more likely to stay on the rock and not roll away.

But how do they make their poops that shape?

Well, that’s been baffling scientists for a long time! But now they think they have the answer.

You can read about how exactly they do it in this article from the Guardian newspaper

Box seat: scientists solve the mystery of why wombats have cube-shaped poo

How wombats produce their cube-shape poo has long been a biological puzzle but now an international study has provided the answer to this unusual natural phenomenon.

The cube shape is formed within the intestines – not at the point of exit, as previously thought – according to research published in scientific journal Soft Matter on Thursday.

The paper expands upon preliminary findings first presented at a meeting of the American Physical Society’s fluid dynamics division in Georgia in 2018.

Dr Scott Carver, wildlife ecologist at the University of Tasmania and one of the authors of the research paper, said “there were wonderfully colourful hypotheses around but no one had tested it”.

There was speculation that wombats had a square-shaped anal sphincter, that the faeces get squeezed between the pelvic bones, as well as the “complete nonsense” idea that wombats pat the faeces into shape after they deposit them.

The project originated four years ago when Carver was dissecting a euthanised wombat hit by a car and noticed the cubes in the last metre of the wombat’s intestine. Carver described it as an “isn’t that odd moment”.

“The thing that is striking, how do you produce cubes inside essentially a soft tube?”

The team of researchers in Australia, including the head veterinarian at Taronga zoo, Larry Vogelnest, tested the tensile strings of the intestine while physicists in the US based at the Georgia Institute of Technology created mathematical models to simulate the production of cubes.

The team discovered big changes in the thickness of muscles inside the intestine, varying between two stiffer regions and two more flexible regions.

“The rhythmical contractions help form the sharp corners of the cubes,” Carver said.

When preliminary findings were presented in 2018 “at that point researchers believed there were four stiff and four flexible regions,” he said. “But what final research has confirmed is that the wombat’s intestine has two stiff and two flexible regions.”

Since 2018, Australian researchers have performed the histology as well as a CT scan upon a live wombat, and concluded that the changes in muscle thickness, in addition to the drying out of the faecal material in the distal colon, produced the distinctive shape.

Asked why wombats have this feature, Carver said one theory was that wombats, with their strong sense of smell, communicate with each other via faeces and that the cube shape helps prevent the faeces from rolling away.

The researchers also found that cube-shaped faeces on an eight degree slope rolled far less than spherical-shaped models.

Vogelnest aided the research by facilitating an ethically approved CT scan of a live wombat, zoo resident Lucy-Lu.

“This was one of the more unusual research [projects] Taronga has been involved in, a bit quirky, but it does answer a very significant question, one that a lot of people ask” he said.

As well as the benefits of better understanding wombats themselves, Carver said the discovery highlighted a new way of manufacturing cubes inside a soft tube, which could be applied to other fields including manufacturing, clinical pathology and digestive health.